Transmission Network - Huaweie-learning.huawei.com/zone/pub/lsportal/en/pdf/Network/2014... ·...
Transcript of Transmission Network - Huaweie-learning.huawei.com/zone/pub/lsportal/en/pdf/Network/2014... ·...
Customer Training Catalog Course Descriptions
COMMERCIAL IN CONFIDENCE 1
Customer Training Catalog Course Descriptions
Transmission Network
HUAWEI Learning Service
2014
Customer Training Catalog Course Descriptions
COMMERCIAL IN CONFIDENCE 2
CONTENTS
1.1 Training Course Descriptions ............................................................................................................... 8
1.2 Planning and Design Training Course Descriptions ..............................................................................17
1.2.1 OTA33 iManager MDS 6600 ASON (SDH) Network Design ..........................................................17
1.2.2 OTA44 OptiX MSTP Network Design ...........................................................................................18
1.2.3 OTA47 OptiX Hybrid MSTP Network Design ................................................................................19
1.2.4 OTC03 OptiX WDM Network Design ...........................................................................................20
1.2.5 OTC31 OptiX NG WDM Network Design .....................................................................................21
1.2.6 OTC36 OptiX NG WDM ASON Network Planning & Design .......................................................22
1.2.7 OTC47 OptiX WDM/NG WDM Network Design Basics .................................................................23
1.2.8 OTC53 OptiX OSN 3800A/6800A Network Planning & Design ...................................................24
1.2.9 OTC74 iManager MDS 6600 WDM Planner Operation .................................................................25
1.2.10 OTC75 iManager MDS 6600 WDM Designer Operation ...............................................................26
1.2.11 OTC76 OptiX NG WDM 40G Network Design ..............................................................................27
1.3 WDM Training Course Descriptions .....................................................................................................28
1.3.1 OTC01 WDM Basics ...................................................................................................................28
1.3.2 OTC02 WDM Optical Power Management Topic ..........................................................................29
1.3.3 OTC04 OptiX WDM Installation ...................................................................................................30
1.3.4 OTC05 OTN Basics ....................................................................................................................31
1.3.5 OTC06 OptiX BWS 1600G System Description ............................................................................32
1.3.6 OTC07 OptiX BWS 1600G Hardware Description & Application .................................................33
1.3.7 OTC08 OptiX WDM Products Configuration .................................................................................34
1.3.8 OTC09 Metro OTN Solution ........................................................................................................35
1.3.9 OTC10 OptiX BWS 1600G Commissioning ..................................................................................36
1.3.10 OTC11 OptiX WDM Equipment Field Maintenance.......................................................................37
1.3.11 OTC12 OptiX WDM System Troubleshooting ...............................................................................38
1.3.12 OTC24 OptiX NG WDM System Description ................................................................................39
1.3.13 OTC25 OptiX OSN 3800/6800/8800(OTN) Hardware Description & Application ............................40
1.3.14 OTC26 OptiX OSN 3800/6800/8800(OTN) Products Configuration ...............................................41
1.3.15 OTC27 OptiX WDM Testing .........................................................................................................42
1.3.16 OTC28 OptiX NG WDM Commissioning ......................................................................................43
1.3.17 OTC29 OptiX NG WDM(OTN) Field Maintenance ........................................................................44
1.3.18 OTC30 NG WDM(OTN) System Troubleshooting .........................................................................45
1.3.19 OTC32 OptiX NG WDM Ethernet Operation&Maintenance ...........................................................46
1.3.20 OTC35 OptiX WDM System Advanced Troubleshooting ...............................................................47
1.3.21 OTC37 OTN 1588V2 Feature Introduction ...................................................................................48
1.3.22 OTC46 OptiX OSN 1800 Operation&Maintenance ......................................................................49
1.3.23 OTC48 OptiX OSN 8800 (OCS) Hardware Description & Application .........................................51
1.3.24 OTC49 OptiX OSN 8800 (OCS) Product Configuration ................................................................52
1.3.25 OTC50 OptiX OSN 8800 (OCS) Field Maintenance......................................................................53
1.3.26 OTC54 OptiX OSN 3800A/6800A Hardware Description & Application .......................................54
Customer Training Catalog Course Descriptions
COMMERCIAL IN CONFIDENCE 3
1.3.27 OTC55 OptiX OSN 3800A/6800A Products Configuration ..........................................................55
1.3.28 OTC56 OptiX OSN 3800A/6800A Equipment Commissioning.......................................................56
1.3.29 OTC57 OptiX OSN 3800A/6800A Field Maintenance .................................................................57
1.3.30 OTC58 OptiX OSN 3800A/6800A System Maintenance and Troubleshooting .............................58
1.3.31 OTC59 OptiX BWS 1600S Operation and Maintenance ...............................................................59
1.3.32 OTC60 OptiX NPE (OSN 3500/7500/9500) Operation and Maintenance .......................................61
1.3.33 OTC61 OptiX SLM 1630/RPT 1660 Operation and Maintenance ..................................................63
1.3.34 OTC62 OptiX OSN 3800/6800/8800 (OTN) Protection .................................................................64
1.3.35 OTC64 OptiX OSN 3800/6800/8800 (OTN) Advanced Troubleshooting ........................................65
1.3.36 OTC65 OptiX NG WDM ASON Operation&Maintenance ..............................................................66
1.3.37 OTC66 OptiX NG WDM 40G OTU System Operation&Maintenance ............................................68
1.3.38 OTC67 OptiX NG WDM Features Special Topics .........................................................................69
1.3.39 OTC68 OptiX NG WDM Ethernet Protection Configuration ...........................................................70
1.3.40 OTC69 OptiX BWS 1600G 40G OTU System Operation&Maintenance .......................................71
1.3.41 OTC71 OptiX BWS 1600S(unrepeatered) Planning and Design ...................................................72
1.3.42 OTC80 OptiX OSN 3800A/6800A System Network Commissioning ..............................................73
1.3.43 OTC81 OptiX WDM 40G100G Coherent OTU Technology ...........................................................74
1.3.44 OTC82 OptiX NG WDM PID Special Topic ...................................................................................75
1.3.45 OTC85 OptiX NG WDM Packet Technology Introduction ..............................................................76
1.3.46 OTC86 OptiX OSN 8800 (Packet) Hardware, Networking & Application Introduction .....................77
1.3.47 OTC87 OptiX OSN 8800 Packet Service Configuration ................................................................78
1.3.48 OTC88 OptiX OSN 8800 Packet Features ...................................................................................79
1.3.49 OTC89 OptiX OSN 8800 (Packet) Routine Maintenance ..............................................................80
1.3.50 OTC90 OptiX OSN 8800 (Packet) System Troubleshooting ..........................................................81
1.3.51 OTC110 OptiX NG WDM Packet Network Planning and Design ...................................................82
1.3.52 OTC111 OptiX OSN 1800 System Introduction ............................................................................83
1.3.53 OTC112 OptiX OSN 1800 Packet Service Configuration ..............................................................84
1.3.54 OTC113 OptiX OSN 1800 Packet Features..................................................................................85
1.3.55 OTC114 OptiX OSN 1800 (Packet) Routine Maintenance.............................................................86
1.3.56 OTC115 OptiX OSN 1800 (Packet) System Troubleshooting ........................................................87
1.3.57 OTC116 OptiX OSN 9800 Hardware Description & Application .....................................................88
1.3.58 OTC117 OptiX OSN 9800 Products Configuration ........................................................................89
1.3.59 OTC118 OptiX OSN 9800 Commissioning ...................................................................................91
1.3.60 OTC119 OptiX OSN 9800 System Troubleshooting ......................................................................92
1.3.61 OTC120 OptiX OSN 9800 Hardware Description & Application Overview .....................................93
1.3.62 OTC121 OptiX OSN 9800 Products Configuration Overview ........................................................94
1.3.63 OTC123 OptiX MDS 6630(Optical Power Commissioning) ...........................................................96
1.3.64 OTC128 OptiX OSN 68008800 100G Operation and Maintenance ...............................................97
1.3.65 OTC122 OptiX OSN 3800/6800/8800 Hardware Description & Signal Flow Review ......................99
1.4 OSS Training Course Descriptions .................................................................................................... 100
1.4.1 ONU12 iManager U2000 LCT Operation.................................................................................... 100
1.4.2 OTD00 Solaris & Sybase Basics ............................................................................................. 101
Customer Training Catalog Course Descriptions
COMMERCIAL IN CONFIDENCE 4
1.4.3 OTD01 OptiX iManager T2000 Basic Operation ......................................................................... 102
1.4.4 OTD02 OptiX iManager Security & Database Management ..................................................... 103
1.4.5 OTD03 OptiX iManager T2000 Routine Maintenance & Troubleshooting .................................. 104
1.4.6 OTD06 OptiX iManager T2000 Veritas Standby System Operation & Maintenance ................... 105
1.4.7 OTD07 OptiX iManager T2000V2R7 Delta ................................................................................. 106
1.4.8 OTD08 U2100 System Operation and Maintenance ................................................................... 107
1.4.9 OTD80 OptiX iManager T2000 System Introduction ................................................................... 108
1.5 MSTP Training Course Descriptions .................................................................................................. 109
1.5.1 OTA08 Hybrid MSTP Network Overview .................................................................................... 109
1.5.2 OTA09 Introduction to OptiX Products ....................................................................................... 110
1.5.3 OTA10 OptiX SDH Ethernet Operation and Maintenance ........................................................... 111
1.5.4 OTA12 ASON Operation and Maintenance ................................................................................ 113
1.5.5 OTA13 OptiX SDH Network Design Basics ................................................................................ 114
1.5.6 OTA14 OptiX SDH System Troubleshooting ............................................................................... 115
1.5.7 OTA15 OptiX Metro 100/500 Operation and Maintenance .......................................................... 116
1.5.8 OTA16 OptiX Metro 1000 First Line Maintenance ....................................................................... 117
1.5.9 OTA17 OptiX Metro 1000 Commissioning .................................................................................. 118
1.5.10 OTA18 OptiX Metro 1000 Second Line Maintenance .................................................................. 119
1.5.11 OTA26 OptiX NG SDH & OCS Installation ............................................................................... 121
1.5.12 OTA27 OptiX NG SDH & OCS Product Overview .................................................................... 122
1.5.13 OTA28 OptiX NG SDH & OCS System Description.................................................................. 123
1.5.14 OTA29 OptiX NG SDH & OCS Hardware Description (TDM) .............................................. 124
1.5.15 OTA30 OptiX SDH Equipment Operation and Maintenance ........................................................ 125
1.5.16 OTA31 OptiX NG SDH & OCS Products Configuration ............................................................ 126
1.5.17 OTA32 OptiX NG SDH & OCS Commissioning ........................................................................ 127
1.5.18 OTA34 OptiX NG SDH & OCS Features and Application ......................................................... 128
1.5.19 OTA35 OptiX SDH Equipment Field Maintenance ...................................................................... 130
1.5.20 OTA36 OptiX SDH Special Topics .............................................................................................. 131
1.5.21 OTA37 OptiX SDH System Advanced Troubleshooting ............................................................... 132
1.5.22 OTA39 OptiX OSN 2000 Operation & Maintenance ................................................................. 133
1.5.23 OTA40 OptiX SDH Equipment NMS Side Maintenance .............................................................. 135
1.5.24 OTA42 OptiX SDH Ethernet Advanced Operation & Maintenance ............................................ 136
1.5.25 OTA45 Hybrid MSTP Technology Introduction ............................................................................ 138
1.5.26 OTA46 Hybrid MSTP Network Application .................................................................................. 139
1.5.27 OTA48 OptiX Hybrid MSTP Hardware Description ..................................................................... 140
1.5.28 OTA49 OptiX Hybrid MSTP Products Configuration.................................................................... 141
1.5.29 OTA50 OptiX Hybrid MSTP Features Application ....................................................................... 142
1.5.30 OTA51 OptiX Hybrid MSTP Equipment NMS Side Operation and Maintenance........................... 143
1.5.31 OTA52 OptiX Hybrid MSTP Commissioning ............................................................................... 144
1.5.32 OTA53 OptiX Hybrid MSTP Field Maintenance .......................................................................... 145
1.5.33 OTA54 OptiX Hybrid MSTP System Troubleshooting .................................................................. 146
1.5.34 OTA60 OptiX OSN 500/550/580 (TDM) Hardware & Networking .............................................. 147
Customer Training Catalog Course Descriptions
COMMERCIAL IN CONFIDENCE 5
1.5.35 OTA61 OptiX OSN 500/550/580 (TDM) Routine & Maintenance .............................................. 148
1.5.36 OTA62 OptiX OSN 500/550/580 (TDM) Service & Configuration .............................................. 149
1.5.37 OTA63 OptiX OSN 500/550/580 (TDM) Troubleshooting ............................................................ 150
1.5.38 OTA64 OptiX OSN 500/550/580 (Packet) Hardware & Networking ........................................... 151
1.5.39 OTA65 OptiX OSN 500/550/580 (Packet) Routine & Maintenance ........................................... 152
1.5.40 OTA66 OptiX OSN 500/550/580 (Packet) Service & Configuration ........................................... 153
1.5.41 OTA67 OptiX OSN 500/550/580 (Packet) Special Topic.............................................................. 154
1.5.42 OTA68 OptiX OSN 500/550/580 (Packet) Troubleshooting ......................................................... 155
1.5.43 OTA69 OptiX OSN 500/550/580 (TDM+Packet) Service & Configuration .................................. 156
1.6 RTN Training Course Descriptions..................................................................................................... 157
1.6.1 OTF01 Digital Microwave Communication Basics ...................................................................... 157
1.6.2 OTF02 OptiX RTN 600 Hardware and Network Application ........................................................ 158
1.6.3 OTF03 OptiX RTN 600 Operation & Maintenance ...................................................................... 159
1.6.4 OTF05 OptiX RTN 600 Field Maintenance ................................................................................. 160
1.6.5 OTF06 OptiX RTN 600 Troubleshooting .................................................................................... 161
1.6.6 OTF07 OptiX RTN 600 Installation ............................................................................................ 162
1.6.7 OTF08 OptiX RTN 600 Commissioning ..................................................................................... 163
1.6.8 OTF14 OptiX RTN 900 V100R001 Field Operation & Maintenance ............................................. 164
1.6.9 OTF15 OptiX RTN 900 V100R001 Operation & Maintenance ..................................................... 165
1.6.10 OTF17 OptiX RTN 900 V100R002 Hardware & Network Application ........................................... 167
1.6.11 OTF18 OptiX RTN 900 Installation ............................................................................................ 168
1.6.12 OTF19 OptiX RTN 900 V100R002 Commissioning .................................................................... 169
1.6.13 OTF20 OptiX RTN 900 V100R002 Field Maintenance ................................................................ 170
1.6.14 OTF21 OptiX RTN 900 V100R002 Data Configuration ............................................................... 171
1.6.15 OTF22 OptiX RTN 900 V100R002 Troubleshooting ................................................................... 172
1.6.16 OTF23 Hybrid Services Testing ................................................................................................. 173
1.6.17 OTF24 OptiX RTN 900 V100R002 QOS & OAM Technology ...................................................... 174
1.6.18 OTF25 OptiX RTN 900 V100R002 Clock & DCN Processing ...................................................... 175
1.6.19 OTF26 OptiX RTN 900 V100R002 Troubleshooting Case Study ................................................. 176
1.6.20 OTF29 OptiX RTN 900 Data Configuration (Packet Domain) ...................................................... 177
1.6.21 OTF30 OptiX RTN 900 System Control Unit and IF Feature Topic .............................................. 178
1.6.22 OTF31 OptiX RTN 900 Clock & DCN Topic ................................................................................ 179
1.6.23 OTF32 OptiX RTN 900 Network Application ............................................................................... 180
1.6.24 OTF33 OptiX RTN 900 Field Operation & Maintenance .............................................................. 181
1.6.25 OTF34 OptiX RTN 900 NE Database Topic ................................................................................ 182
1.6.26 OTF35 OptiX RTN 900 Troubleshooting .................................................................................... 183
1.6.27 OTF36 OptiX RTN 900 QoS & OAM Technology ........................................................................ 184
1.6.28 OTF38 OptiX RTN 900 Commissioning ..................................................................................... 185
1.6.29 OTF42 OptiX RTN 900 V100R001 Hardware & Network Application ........................................... 186
1.6.30 OTF44 OptiX RTN 900 V100R002 Data Configuration (Scenarized For Second Line) ................. 187
1.6.31 OTF45 OptiX RTN 900 V100R002 System Description .............................................................. 188
1.6.32 OTF46 OptiX RTN 900 Data Configuration (Hybrid Domain)....................................................... 189
Customer Training Catalog Course Descriptions
COMMERCIAL IN CONFIDENCE 6
1.6.33 OTF47 OptiX RTN 900 System Description ............................................................................... 190
1.6.34 OTF48 OptiX RTN Microwave Network Overview ...................................................................... 191
1.6.35 OTF80 OptiX RTN 300 System Description ............................................................................... 192
1.6.36 OTF81 OptiX RTN 300 Feature Description ............................................................................... 193
1.6.37 OTF82 OptiX RTN 300 Installation ............................................................................................ 194
1.6.38 OTF83 OptiX RTN 300 Commissioning ..................................................................................... 195
1.6.39 OTF84 OptiX RTN 300 Data Configuration ................................................................................ 196
1.6.40 OTF85 OptiX RTN 300 Field Operations & Maintenance ............................................................ 197
1.6.41 OTF86 OptiX RTN 300 Maintenance and Troubleshooting ......................................................... 198
1.7 Planning and Design Training Course Descriptions ............................................................................ 199
1.7.1 OTF40 OptiX RTN Network Planning Basic ............................................................................... 199
1.7.2 OTF49 OptiX RTN Network Planning ......................................................................................... 200
1.7.3 OTF51 OptiX RTN Clock & DCN Planning ................................................................................. 201
1.7.4 OTF59 OptiX RTN Network Service Planning (Hybrid) ............................................................... 202
1.7.5 OTF60 OptiX RTN Network Service Planning (Packet) ............................................................... 203
1.7.6 OTF61 OptiX RTN Network Planning Case Analysis .................................................................. 204
1.7.7 OTF62 OptiX RTN Network QoS Planning ................................................................................. 205
1.8 Assessment and Optimization Training Course Descriptions .............................................................. 206
1.8.1 OTF63 Microwave Network Performance Assessment ............................................................... 206
1.8.2 OTF64 Microwave Network General Assessment....................................................................... 207
1.8.3 OTF65 Microwave Network Assessment Case Analysis ............................................................. 208
1.8.4 OTF66 Microwave Network Optimization ................................................................................... 209
1.8.5 OTF67 Microwave Network Optimization Case Analysis ............................................................. 210
1.9 Assessment and Optimization Training Course Descriptions .............................................................. 211
1.9.1 OTA43 SDH Network Expansion & Reconstruction .................................................................. 211
1.9.2 OTA93 SDH Network Assessment ............................................................................................. 212
1.9.3 OTA94 SDH Network Optimization ............................................................................................ 213
1.9.4 OTC51 OptiX WDM Network Expansion .................................................................................... 214
1.9.5 OTC52 OptiX WDM Network Reconstruction ............................................................................. 215
1.9.6 OTC72 OptiX WDM Network Assessment.................................................................................. 216
1.9.7 OTC73 OptiX WDM Network Optimization ................................................................................. 217
1.10 Principle Training Course Descriptions .............................................................................................. 218
1.10.1 OTA00 SDH Overview .............................................................................................................. 218
1.10.2 OTA01 SDH Principle................................................................................................................ 219
1.10.3 OTA02 SDH Networking and Protection ..................................................................................... 220
1.10.4 OTA03 Ethernet Basics ............................................................................................................. 221
1.10.5 OTA07 ASON Basics ................................................................................................................ 222
1.11 Transmission Engineer Certification Training Course Descriptions ...................................................... 223
1.11.1 OTH01 Transmission Technologies and Device ......................................................................... 223
1.11.2 OTH02 Building Carrier MSTP Transmission Network ................................................................ 225
1.11.3 OTH03 Building Carrier OTN Transmission Network .................................................................. 227
1.12 Evolution and Trends Training Course Descriptions ........................................................................... 229
Customer Training Catalog Course Descriptions
COMMERCIAL IN CONFIDENCE 7
1.12.1 OTA19 All IP Transport Network Solution ................................................................................... 229
COMMERCIAL IN CONFIDENCE 8
1.1 Training Course Descriptions
Transmission Network Training Courses are designed as follows:
Code Training Courses Level
Duration
(working
days)
Training
Location
Class
Size
Planning and Design Training Courses
OTA33 iManager MDS 6600 ASON (SDH) Netowrk Design Ⅳ 4 6 ~ 12
OTA44 OptiX MSTP Network Design Ⅲ 3 6 ~ 12
OTA47 OptiX Hybrid MSTP Network Design Ⅲ 3 6 ~ 12
OTC03 OptiX WDM Network Design Ⅲ 3 6 ~ 12
OTC31 OptiX NG WDM Network Design Ⅳ 3 6 ~ 12
OTC36 OptiX NG WDM ASON Network Planning & Design Ⅳ 2 6 ~ 12
OTC47 OptiX WDM/NG WDM Network Design Basics Ⅱ 2 6 ~ 12
OTC53 OptiX OSN 3800A/6800A Network Planning & Design Ⅲ 4 6 ~ 12
OTC74 iManager MDS 6600 WDM Planner Operation Ⅲ 1 6 ~ 12
OTC75 iManager MDS 6600 WDM Designer Operation Ⅲ 1 6 ~ 12
OTC76 OptiX NG WDM 40G Network Design Ⅲ 2 6 ~ 12
WDM Training Courses
OTC01 WDM Basics Ⅱ 1 6 ~ 12
OTC02 WDM Optical Power Management Topic Ⅲ 2 6 ~ 12
OTC04 OptiX WDM Installation Ⅰ 2 h No limit
OTC05 OTN Basics Ⅱ 1 6 ~ 12
OTC06 OptiX BWS 1600G System Description Ⅰ 1 6 ~ 12
OTC07 OptiX BWS 1600G Hardware Description & Application Ⅱ 1.5 6 ~ 12
OTC08 OptiX WDM Products Configuration Ⅱ 2.5 6 ~ 12
OTC09 Metro OTN Solution Ⅱ 0.5 6 ~ 12
OTC10 OptiX BWS 1600G Commissioning Ⅱ 2 6 ~ 12
OTC11 OptiX WDM Equipment Field Maintenance Ⅰ 1 6 ~ 12
OTC12 OptiX WDM System Troubleshooting Ⅱ 2 6 ~ 12
COMMERCIAL IN CONFIDENCE 9
OTC24 OptiX NG WDM System Description Ⅰ 0.5 6 ~ 12
OTC25 OptiX OSN 3800/6800/8800(OTN) Hardware Description
& Application Ⅱ 2 6 ~ 12
OTC26 OptiX OSN 3800/6800/8800(OTN) Products Configuration Ⅱ 3.5 6 ~ 12
OTC27 OptiX WDM Testing Ⅱ 0.5 6 ~ 12
OTC28 OptiX NG WDM Commissioning Ⅱ 2.5 6 ~ 12
OTC29 OptiX NG WDM(OTN) Field Maintenance Ⅰ 1.5 6 ~ 12
OTC30 NG WDM(OTN) System Troubleshooting Ⅱ 2.5 6 ~ 12
OTC32 OptiX NG WDM Ethernet Operation&Maintenance Ⅲ 3 6 ~ 12
OTC35 OptiX WDM System Advanced Troubleshooting Ⅲ 3 6 ~ 12
OTC37 OTN 1588V2 Feature Introduction Ⅱ 0.5 6 ~ 12
OTC46 OptiX OSN 1800 Operation&Maintenance Ⅱ 4 6 ~ 12
OTC48 OptiX OSN 8800 (OCS) Hardware Description &
Application Ⅱ 1 6 ~ 12
OTC49 OptiX OSN 8800 (OCS) Product Configuration Ⅱ 2.5 6 ~ 12
OTC50 OptiX OSN 8800 (OCS) Field Maintenance Ⅱ 1 6 ~ 12
OTC54 OptiX OSN 3800A/6800A Hardware Description &
Application Ⅱ 1 6 ~ 12
OTC55 OptiX OSN 3800A/6800A Products Configuration Ⅱ 3 6 ~ 12
OTC56 OptiX OSN 3800A/6800A Equipment Commissioning Ⅱ 1 6 ~ 12
OTC57 OptiX OSN 3800A/6800A Field Maintenance Ⅰ 1 6 ~ 12
OTC58 OptiX OSN 3800A/6800A System Maintenance and
Troubleshooting Ⅱ 1 6 ~ 12
OTC59 OptiX BWS 1600S Operation and Maintenance Ⅲ 2 6 ~ 12
OTC60 OptiX NPE (OSN 3500/7500/9500) Operation and
Maintenance Ⅱ 3 6 ~ 12
OTC61 OptiX SLM 1630/RPT 1660 Operation and Maintenance Ⅳ 1 6 ~ 12
OTC62 OptiX OSN 3800/6800/8800 (OTN) Protection Ⅲ 3 6 ~ 12
OTC64 OptiX OSN 3800/6800/8800 (OTN) Advanced
Troubleshooting Ⅲ 3.5 6 ~ 12
OTC65 OptiX NG WDM ASON Operation&Maintenance Ⅲ 3 6 ~ 12
COMMERCIAL IN CONFIDENCE 10
OTC66 OptiX NG WDM 40G OTU System Operation&
Maintenance Ⅲ 3 6 ~ 12
OTC67 OptiX NG WDM Features Special Topics Ⅲ 1 6 ~ 12
OTC68 OptiX NG WDM Ethernet Protection Configuration Ⅲ 2 6 ~ 12
OTC69 OptiX BWS 1600G 40G OTU System Operation&
Maintenance Ⅲ 3 6 ~ 12
OTC71 OptiX BWS 1600S(unrepeatered) Planning and Design Ⅳ 3 6 ~ 12
OTC80 OptiX OSN 3800A/6800A System Network
Commissioning Ⅱ 1 6 ~ 12
OTC81 OptiX WDM 40G100G Coherent OTU Technology Ⅱ 0.5 6 ~ 12
OTC82 OptiX NG WDM PID Special Topic Ⅱ 1 6 ~ 12
OTC85 OptiX NG WDM Packet Technology Introduction Ⅱ 0.5 6 ~ 12
OTC86 OptiX OSN 8800 (Packet) Hardware, Networking &
Application Introduction Ⅱ 1 6 ~ 12
OTC87 OptiX OSN 8800 Packet Service Configuration Ⅱ 2 6 ~ 12
OTC88 OptiX OSN 8800 Packet Features Ⅱ 1.5 6 ~ 12
OTC89 OptiX OSN 8800 (Packet) Routine Maintenance Ⅱ 1 6 ~ 12
OTC90 OptiX OSN 8800 (Packet) System Troubleshooting Ⅱ 1 6 ~ 12
OTC110 OptiX NG WDM Packet Network Planning and Design Ⅲ 3 6 ~ 12
OTC111 OptiX OSN 1800 System Introduction Ⅱ 1 6 ~ 12
OTC112 OptiX OSN 1800 Packet Service Configuration Ⅱ 1.5 6 ~ 12
OTC113 OptiX OSN 1800 Packet Features Ⅱ 1 6 ~ 12
OTC114 OptiX OSN 1800 (Packet) Routine Maintenance Ⅱ 0.5 6 ~ 12
OTC115 OptiX OSN 1800 (Packet) System Troubleshooting Ⅱ 0.5 6 ~ 12
OTC116 OptiX OSN 9800 Hardware Description & Application Ⅱ 2 6 ~ 12
OTC117 OptiX OSN 9800 Products Configuration Ⅱ 2.5 6 ~ 12
OTC118 OptiX OSN 9800 Commissioning Ⅱ 1.5 6 ~ 12
OTC119 OptiX OSN 9800 System Troubleshooting Ⅱ 1 6 ~ 12
OTC120 OptiX OSN 9800 Hardware Description & Application
Overview Ⅱ 1 6 ~ 12
COMMERCIAL IN CONFIDENCE 11
OTC121 OptiX OSN 9800 Products Configuration Overview Ⅱ 2 6 ~ 12
OTC123 OptiX MDS 6630(Optical Power Commissioning) Ⅳ 2 6 ~ 12
OTC128 OptiX OSN 68008800 100G Operation and Maintenance Ⅱ 5 6 ~ 12
OTC122 OptiX OSN 3800/6800/8800 Hardware Description &
Signal Flow Review Ⅱ 0.5 6 ~ 12
OSS Training Courses
ONU12 iManager U2000 LCT Operation Ⅱ 1 6 ~ 16
OTD00 Solaris & Sybase Basics Ⅱ 1 6 ~ 12
OTD01 OptiX iManager T2000 Basic Operation Ⅰ 1 6 ~ 12
OTD02 OptiX iManager Security & Database Management Ⅱ 1 6 ~ 12
OTD03 OptiX iManager T2000 Routine Maintenance &
Troubleshooting Ⅱ 1 6 ~ 12
OTD06 OptiX iManager T2000 Veritas Standby System Operation
& Maintenance Ⅱ 4 2 ~ 6
OTD07 OptiX iManager T2000V2R7 Delta Ⅱ 2 6 ~ 12
OTD08 U2100 System Operation and Maintenance Ⅲ 5 6 ~ 12
OTD80 OptiX iManager T2000 System Introduction Ⅰ 0.5 6 ~ 12
MSTP Training Courses
OTA08 Hybrid MSTP Network Overview Ⅱ 0.5 6 ~ 12
OTA09 Introduction to OptiX Products Ⅱ 1 6 ~ 12
OTA10 OptiX SDH Ethernet Operation and Maintenance Ⅱ 3 6 ~ 12
OTA12 ASON Operation and Maintenance Ⅱ 2 6 ~ 12
OTA13 OptiX SDH Network Design Basics Ⅱ 1 6 ~ 12
OTA14 OptiX SDH System Troubleshooting Ⅱ 2 6 ~ 12
OTA15 OptiX Metro 100/500 Operation and Maintenance Ⅰ 1 6 ~ 12
OTA16 OptiX Metro 1000 First Line Maintenance Ⅰ 1 6 ~ 12
OTA17 OptiX Metro 1000 Commissioning Ⅱ 4 6 ~ 12
OTA18 OptiX Metro 1000 Second Line Maintenance Ⅱ 4 6 ~ 12
OTA26 OptiX NG SDH & OCS Installation Ⅰ 2 h No limit
OTA27 OptiX NG SDH & OCS Product Overview Ⅰ 0.5 6 ~ 12
COMMERCIAL IN CONFIDENCE 12
OTA28 OptiX NG SDH & OCS System Description Ⅰ 1 6 ~ 12
OTA29 OptiX NG SDH & OCS Hardware Description (TDM) Ⅱ 1.5 6 ~ 12
OTA30 OptiX SDH Equipment Operation and Maintenance Ⅰ 0.5 6 ~ 12
OTA31 OptiX NG SDH & OCS Products Configuration Ⅱ 2 6 ~ 12
OTA32 OptiX NG SDH & OCS Commissioning Ⅱ 2 6 ~ 12
OTA34 OptiX NG SDH & OCS Features and Application Ⅲ 3 6 ~ 12
OTA35 OptiX SDH Equipment Field Maintenance Ⅰ 0.5 6 ~ 12
OTA36 OptiX SDH Special Topics Ⅲ 2 6 ~ 12
OTA37 OptiX SDH System Advanced Troubleshooting Ⅲ 2.5 6 ~ 12
OTA39 OptiX OSN 2000 Operation & Maintenance Ⅱ 8 6 ~ 12
OTA40 OptiX SDH Equipment NMS Side Maintenance Ⅱ 0.5 6 ~ 12
OTA42 OptiX SDH Ethernet Advanced Operation &
Maintenance Ⅲ 4 6 ~ 12
OTA45 Hybrid MSTP Technology Introduction Ⅱ 1 6 ~ 12
OTA46 Hybrid MSTP Network Application Ⅱ 1 6 ~ 12
OTA48 OptiX Hybrid MSTP Hardware Description Ⅰ 1 6 ~ 12
OTA49 OptiX Hybrid MSTP Products Configuration Ⅱ 3 6 ~ 12
OTA50 OptiX Hybrid MSTP Features Application Ⅱ 2 6 ~ 12
OTA51 OptiX Hybrid MSTP Equipment NMS Side Operation and
Maintenance Ⅰ 1 6 ~ 12
OTA52 OptiX Hybrid MSTP Commissioning Ⅱ 2 6 ~ 12
OTA53 OptiX Hybrid MSTP Field Maintenance Ⅰ 0.5 6 ~ 12
OTA54 OptiX Hybrid MSTP System Troubleshooting Ⅱ 1.5 6 ~ 12
OTA60 OptiX OSN 500/550/580 (TDM) Hardware & Networking Ⅱ 1.5 6 ~ 12
OTA61 OptiX OSN 500/550/580 (TDM) Routine & Maintenance Ⅱ 0.5 6 ~ 12
OTA62 OptiX OSN 500/550/580 (TDM) Service & Configuration Ⅱ 1.5 6 ~ 12
OTA63 OptiX OSN 500/550/580 (TDM) Troubleshooting Ⅱ 0.5 6 ~ 12
OTA64 OptiX OSN 500/550/580 (Packet) Hardware &
Networking Ⅱ 1.5 6 ~ 12
OTA65 OptiX OSN 500/550/580 (Packet) Routine & Ⅱ 1 6 ~ 12
COMMERCIAL IN CONFIDENCE 13
Maintenance
OTA66 OptiX OSN 500/550/580 (Packet) Service &
Configuration Ⅱ 1 6 ~ 12
OTA67 OptiX OSN 500/550/580 (Packet) Special Topic Ⅱ 1 6 ~ 12
OTA68 OptiX OSN 500/550/580 (Packet) Troubleshooting Ⅱ 0.5 6 ~ 12
OTA69 OptiX OSN 500/550/580 (TDM+Packet) Service &
Configuration Ⅱ 1.5 6 ~ 12
RTN Training Courses
OTF01 Digital Microwave Communication Basics Ⅱ 0.5 6 ~ 12
OTF02 OptiX RTN 600 Hardware and Network Application Ⅰ 1 6 ~ 12
OTF03 OptiX RTN 600 Operation & Maintenance Ⅱ 2.5 6 ~ 12
OTF05 OptiX RTN 600 Field Maintenance Ⅰ 1 6 ~ 12
OTF06 OptiX RTN 600 Troubleshooting Ⅱ 1 6 ~ 12
OTF07 OptiX RTN 600 Installation Ⅰ 0.5 h No limit
OTF08 OptiX RTN 600 Commissioning Ⅱ 1 6 ~ 12
OTF14 OptiX RTN 900 V100R001 Field Operation &
Maintenance Ⅰ 1 6 ~ 12
OTF15 OptiX RTN 900 V100R001 Operation & Maintenance Ⅱ 7 6 ~ 12
OTF17 OptiX RTN 900 V100R002 Hardware & Network
Application Ⅰ 1 6 ~ 12
OTF18 OptiX RTN 900 Installation Ⅰ 1 6 ~ 12
OTF19 OptiX RTN 900 V100R002 Commissioning Ⅱ 1 6 ~ 12
OTF20 OptiX RTN 900 V100R002 Field Maintenance Ⅰ 1.5 6 ~ 12
OTF21 OptiX RTN 900 V100R002 Data Configuration Ⅱ 2 6 ~ 12
OTF22 OptiX RTN 900 V100R002 Troubleshooting Ⅱ 1 6 ~ 12
OTF23 Hybrid Services Testing Ⅱ 1.5 6 ~ 12
OTF24 OptiX RTN 900 V100R002 QOS & OAM Technology Ⅲ 1.5 6 ~ 12
OTF25 OptiX RTN 900 V100R002 Clock & DCN Processing Ⅲ 1 6 ~ 12
OTF26 OptiX RTN 900 V100R002 Troubleshooting Case Study Ⅱ 1 6 ~ 12
OTF29 OptiX RTN 900 Data Configuration (Packet Domain) Ⅱ 2 6 ~ 12
COMMERCIAL IN CONFIDENCE 14
OTF30 OptiX RTN 900 System Control Unit and IF Feature Topic Ⅲ 1 6 ~ 12
OTF31 OptiX RTN 900 Clock & DCN Topic Ⅲ 1.5 6 ~ 12
OTF32 OptiX RTN 900 Network Application Ⅰ 0.5 6 ~ 12
OTF33 OptiX RTN 900 Field Operation & Maintenance Ⅰ 1 6 ~ 12
OTF34 OptiX RTN 900 NE Database Topic Ⅰ 0.5 6 ~ 12
OTF35 OptiX RTN 900 Troubleshooting Ⅱ 1.5 6 ~ 12
OTF36 OptiX RTN 900 QoS & OAM Technology Ⅲ 1.5 6 ~ 12
OTF38 OptiX RTN 900 Commissioning Ⅱ 1 6 ~ 12
OTF42 OptiX RTN 900 V100R001 Hardware & Network
Application Ⅰ 1 6 ~ 12
OTF44 OptiX RTN 900 V100R002 Data Configuration
(Scenarized For Second Line) Ⅱ 0.5 6 ~ 12
OTF45 OptiX RTN 900 V100R002 System Description Ⅰ 0.5 6 ~ 12
OTF46 OptiX RTN 900 Data Configuration (Hybrid Domain) Ⅱ 2 6 ~ 12
OTF47 OptiX RTN 900 System Description Ⅰ 0.5 6 ~ 12
OTF48 OptiX RTN Microwave Network Overview Ⅰ 0.5 6 ~ 12
OTF80 OptiX RTN 300 System Description Ⅰ 0.5 6 ~ 12
OTF81 OptiX RTN 300 Feature Description Ⅱ 0.5 6 ~ 12
OTF82 OptiX RTN 300 Installation Ⅱ 0.5 6 ~ 12
OTF83 OptiX RTN 300 Commissioning Ⅱ 1 6 ~ 12
OTF84 OptiX RTN 300 Data Configuration Ⅱ 1.5 6 ~ 12
OTF85 OptiX RTN 300 Field Operations & Maintenance Ⅰ 1.5 6 ~ 12
OTF86 OptiX RTN 300 Maintenance and Troubleshooting Ⅱ 0.5 6 ~ 12
Planning and Design Training Courses
OTF40 OptiX RTN Network Planning Basic Ⅲ 1.5 6 ~ 12
OTF49 OptiX RTN Network Planning Ⅲ 1.5 6 ~ 12
OTF51 OptiX RTN Clock & DCN Planning Ⅳ 1 6 ~ 12
OTF59 OptiX RTN Network Service Planning (Hybrid) Ⅲ 0.5 6 ~ 12
OTF60 OptiX RTN Network Service Planning (Packet) Ⅲ 0.5 6 ~ 12
COMMERCIAL IN CONFIDENCE 15
OTF61 OptiX RTN Network Planning Case Analysis Ⅲ 0.5 6 ~ 12
OTF62 OptiX RTN Network QoS Planning Ⅳ 0.5 6 ~ 12
Assessment and Optimization Training Courses
OTF63 Microwave Netwrok Performance Assessment Ⅳ 0.5 4 ~ 8
OTF64 Microwave Network General Assessment Ⅳ 0.5 4 ~ 8
OTF65 Microwave Network Assessment Case Analysis Ⅳ 1 4 ~ 8
OTF66 Microwave Network Optimization Ⅳ 0.5 4 ~ 8
OTF67 Microwave Network Optimization Case Analysis Ⅳ 0.5 4 ~ 8
Assessment and Optimization Training Courses
OTA43 SDH Network Expansion & Reconstruction Ⅳ 3 4 ~ 8
OTA93 SDH Network Assessment Ⅳ 3 4 ~ 8
OTA94 SDH Network Optimization Ⅳ 3 4 ~ 8
OTC51 OptiX WDM Network Expansion Ⅳ 2 4 ~ 8
OTC52 OptiX WDM Network Reconstruction Ⅳ 3 4 ~ 8
OTC72 OptiX WDM Network Assessment Ⅳ 2 4 ~ 8
OTC73 OptiX WDM Network Optimization Ⅳ 1 4 ~ 8
Principle Training Courses
OTA00 SDH Overview Ⅰ 0.5 6 ~ 12
OTA01 SDH Principle Ⅰ 1 6 ~ 12
OTA02 SDH Networking and Protection Ⅱ 1 6 ~ 12
OTA03 Ethernet Basics Ⅱ 2 6 ~ 12
OTA07 ASON Basics Ⅱ 1 6 ~ 12
Transmission Engineer Certification Training Courses
OTH01 Transmission Technologies and Device Ⅱ 15 6 ~ 16
OTH02 Building Carrier MSTP Transmission Network Ⅲ 10 6 ~ 16
OTH03 Building Carrier OTN Transmission Network Ⅲ 10 6 ~ 16
Evolution and Trends Training Courses
OTA19 All IP Transport Network Solution Ⅱ 0.5 6 ~ 12
COMMERCIAL IN CONFIDENCE 16
COMMERCIAL IN CONFIDENCE 17
1.2 Planning and Design Training Course Descriptions
1.2.1 OTA33 iManager MDS 6600 ASON (SDH) Network Design
Objectives
On completion of this course, the participants will
be able to:
Describe the structure of iManager MDS 6600
List the configuration of iManager MDS 6600
Describe the characters of iManager MDS
6600
Perform SDH ASON network design through
iManager MDS 6600
Describe the considerations of ASON planning
List the steps of ASON planning
Describe the function of ASON planning tool
Accomplish SDH ASON network design
according to the service demand
Perform data import/export operation between
iManager MDS 6600 and NMS
Verify the import/export operation
Target Audience
Network planning engineer
Prerequisites
Having a general knowledge of ASON
Having the basic knowledge of
telecommunications and SDH network
Having working experience in the planning and
design of SDH networks
Content
Product Structure and Configuration
OptiX MDS 6600 functions and characters
OptiX MDS 6600 planner functions and
characters
OptiX MDS 6600 modeler functions and
characters
Engineering Topology and Requirement
Network Planning Steps of OptiX MDS 6600
Planner
System Simulation and Optimization Steps of
OptiX MDS 6600 modeler
ASON Review
ASON Planning Considerations
ASON Planning Steps
Case Analysis
Training Methods
Lecture, Case-study
Duration
4 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 18
1.2.2 OTA44 OptiX MSTP Network Design
Objectives
On completion of this course, the participants will
be able to:
Describe the application of OptiX NG SDH &
OCS system
Outline the equipment capacity of OptiX NG
SDH & OCS system
Choose the right equipment according to the
service demand
List the procedures of SDH network design
Outline network protection types
Describe the key point of complicated network
design
Figure out the details of network reliability
design
Perform SDH network design including the
network reliabilty and clock trace design
List the factors of data service design
Describe the key point of the data service
planning according to the bandwidth
requirement
Perform data service design in the SDH
network
Target Audience
SDH network planning engineers
Prerequisites
Having the basic knowledge of
telecommunications and SDH network
Content
Equipment capacity of OptiX NG SDH/OCS
Networking capacity of OptiX NG SDH/OCS
Equipment protection of OptiX NG SDH/OCS
MSTP Network Planning
Consideration(Networking layers, traffic
demand and distribution, traffic growth forecast,
bandwidth of networking, fiber routes,
networking topologies & protection
mechanism, choosing the equipment and
device protection, synchronization in SDH
networking, order-wire planning, NMS and
DCN planning, auxiliary ports planning)
MSTP Network Design Procedure
MSTP Networking Example
Service requirement introduction
Service Planning
Training Methods
Lecture, Case-study
Duration
3 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 19
1.2.3 OTA47 OptiX Hybrid MSTP Network Design
Objectives
On completion of this course, the participants will
be able to:
Describe the application of OptiX NG SDH
system
Outline the equipment capacity for packet
service access of OptiX NG SDH system
Outline the common boards for packet service
of OptiX NG SDH equipment
Choose the right equipment according to the
service demand
Consider all the required main points for
planning a Hybrid MSTP network
List the procedure for designing the Hybrid
MSTP network
Perform the Hybrid MSTP network design
Target Audience
Hybrid MSTP network planning engineers
Prerequisites
Having the basic knowledge of
telecommunications and SDH network
Content
Network location of OptiX NG SDH product
TDM access capacity of OptiX NG SDH
product
Packet capability of OptiX NG SDH product
OptiX Hybrid MSTP network overview
OptiX Hybrid MSTP network design workflow
OptiX Hybrid MSTP network structure design
OptiX Hybrid MSTP network service design
OptiX Hybrid MSTP site design
Service requirement introduction
Hybrid MSTP network design
Training Methods
Lecture, Case-study
Duration
3 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 20
1.2.4 OTC03 OptiX WDM Network Design
Objectives
On completion of this course, the participants will
be able to:
Outline the functions and features of the
different units in OptiX WDM products
Evaluate the WDM networks including the
network architecture, protection mechanism,
signal flow and network capacity
Analyze typical configuration of OptiX WDM
series products
Analyze the design process of WDM network
Design a complete OptiX WDM network
according to requirements
Target Audience
WDM Network Planning & Design Engineers
Prerequisites
Completion of OTC47 OptiX WDM/NG WDM
Network Design Basics course or having basic
knowledge on WDM network design
Content
OptiX BWS 1600G system introduction
OptiX Metro 6100/6040 system introduction
WDM network overview
Major designing process of OptiX BWS 1600G/
Metro 6100 network
Other designing of OptiX BWS 1600G/ Metro
6100 network
OptiX BWS 1600G/ Metro 6100 hardware
review
OptiX BWS 1600G/ Metro 6100 system
capacity and transmission distance
OptiX BWS 1600G/ Metro 6100 typical
configuration rules
OptiX BWS 1600G/ Metro 6100 case
discussion
OptiX BWS 1600G network designing
information introduction
OptiX BWS 1600G network designing
exercises
OptiX BWS 1600G network design summary
and share
Training Methods
Lecture, Case-study
Duration
3 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 21
1.2.5 OTC31 OptiX NG WDM Network Design
Objectives
On completion of this course, the participants will
be able to:
Describe OSN 8800/6800/3800 product
networking
Outline OSN 8800/6800/3800 product
functions
Describe OSN 8800/6800/3800 product
capacity and features
Describe WDM network topologies and system
applications
Outline the designing procedure of WDM
network
Fulfill the hardware configuration of OptiX NG
WDM
Memorize the OptiX OSN 3800/6800/8800
system capacity with different traffics
Apply the OptiX OSN 3800/6800/8800 system
functions and configuration principles in
network planning
Describe the designing procedure of NG WDM
FOADM network
Fulfill the hardware configuration of NG WDM
FOADM network
Target Audience
OptiX NG WDM network planning & design
engineer
Prerequisites
Completion of OTC47 OptiX WDM/NG WDM
Network Design Basics course or having basic
knowledge on WDM network design
Content
OptiX NG WDM network application
OptiX NG WDM product functions and features
OptiX NG WDM product architecture and
capacity
OptiX NG WDM network overview
Major designing process of OptiX NG WDM
network
Other designing of OptiX NG WDM Network
OptiX NG WDM system capacity
Planning OptiX NG WDM hardware
Planning OptiX NG WDM services
OptiX NG WDM NE configuration principle for
the DWDM system
OptiX NG WDM NE configuration principle for
the CWDM System
Principle of OptiX NG WDM protection
configuration
OptiX NG WDM FOADM network designing
information introduction
OptiX NG WDM FOADM network designing
exercises
OptiX NG WDM FOADM network design
summary and share
Training Methods
Lecture, Case-study
Duration
3 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 22
1.2.6 OTC36 OptiX NG WDM ASON Network Planning & Design
Objectives
On completion of this course, the participants will
be able to:
Outline the standards of ASON
Illustrate the structure of ASON
Describe the networking characters of ASON
Explain the service characters of ASON
Describe NG WDM ASON network features
Outline NG WDM ASON network planning
steps
Complete the NG WDM ASON network node
design
Understand the special topics of NG WDM
ASON network planning and design
Understand NG WDM ASON network features
Outline NG WDM ASON network planning
steps
Complete the NG WDM ASON network node
design
Target Audience
OptiX NG WDM ASON Senior network planning
& design engineers
Prerequisites
Completion of OTC31 OptiX NG WDM Network
Design course or having basic knowledge on
WDM network design
Content
ASON Overview
System structure of OptiX NG WDM ASON
Features of OptiX NG WDM ASON
Background of OptiX NG WDM ASON network
Introduction to OptiX NG WDM ASON network
Planning process of OptiX NG WDM ASON
network
Node design of OptiX NG WDM ASON network
Special topics
Case analysis
Project background
OptiX NG WDM ASON network planning
OptiX NG WDM ASON node design
Training Methods
Lecture, Case-study
Duration
2 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 23
1.2.7 OTC47 OptiX WDM/NG WDM Network Design Basics
Objectives
On completion of this course, the participants will
be able to:
Describe the function module and network
structure of WDM system
Outline the characteristics of various fibers
Explain the functions and characteristics of
various optical components
Explain the key technologies of WDM system,
for example optical source, optical amplifiers,
etc
Describe the characteristics of optical interface
in WDM system
Outline the functions and features of the
different units in OptiX WDM/NG WDM
products
Illustrate the main factors involved in WDM
network planning, such as power budget,
dispersion compensation, OSNR calculation
and nonlinearity
Outline the design process of WDM network
Target Audience
WDM network Junior Planning Engineer
Prerequisites
NA
Content
WDM Overview
Transmission Media
Key Technologies
Technical Specifications
OptiX WDM series Equipment Development
and Network Application
OptiX WDM series Equipment Overview
OptiX WDM Common Boards Introduction
WDM Network Overview
WDM Network Designing Factors
WDM Network Designing Process Overview
Training Methods
Lecture
Duration
2 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 24
1.2.8 OTC53 OptiX OSN 3800A/6800A Network Planning & Design
Objectives
On completion of this course, the participants will
be able to:
Describe the functions and features of OptiX
OSN 3800A/6800A products
Describe OptiX OSN 3800A/6800A access
capacity
Identify wavelength distribution and service
process ability for OptiX OSN 3800A/6800A
products
Evaluate the network resilience, which include
network architecture, protection mechanisms,
signal flow, and network capacity
Outline the designing procedure of WDM
network
Fulfill the hardware configuration of optical and
electrical layer grooming
Fulfill the hardware configuration of OptiX OSN
3800A/6800A
Illustrate the main factors involved in WDM
network planning, such as power budget,
dispersion compensation, OSNR calculation
and nonlinearity
Complete the exercises of WDM network
design
Target Audience
OptiX OSN 3800A/6800A Senior network
planning & design engineers
Prerequisites
NA
Content
OptiX OSN 3800A6800A network application
OptiX OSN 3800A6800A product functions
OptiX OSN 3800A6800A product features
OptiX OSN 3800A6800A product architecture
and hardware
WDM Network Overview
Major Designing Process of WDM Network
Other Designing of WDM Network
System Capacity
Planning Hardware
Planning Services
NE Configuration Principle for the DWDM
System
NE Configuration Principle for the CWDM
System
Principle of Protection Configuration
Training Methods
Lecture, Case-study
Duration
4 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 25
1.2.9 OTC74 iManager MDS 6600 WDM Planner Operation
Objectives
On completion of this course, the participants will
be able to:
Describe features and functions of the
iManager MDS 6600 WDM Planner
Plan WDM network
Fulfill the MDS 6600 WDM Planner operation
Implement the WDM network plan by the MDS
6600 WDM Planner
Target Audience
Senior network planning & design engineers
Prerequisites
NA
Content
iManager MDS 6600 WDM Planner overview
Planning WDM network operation flow
Planning a WDM network
Other functions of iManager MDS 6600 WDM
Planner
Planning a WDM network with survivability
against two cable faults at the optical layer
Planning a WDM network with survivability
against one cable faults at the electrical layer
Planning a WDM network with survivability
against two cable faults at the optical and
electrical layer
Training Methods
Lecture, Hands-on exercise
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 26
1.2.10 OTC75 iManager MDS 6600 WDM Designer Operation
Objectives
On completion of this course, the participants will
be able to:
Outline system architecture of iManager MDS
6600
Describe features and functions of the
iManager MDS 6600 WDM Designer
Complete WDM network design
Fulfill the MDS 6600 WDM Designer operation
Implement the WDM network design by the
MDS 6600 WDM Designer
Target Audience
Senior network planning & design engineers
Prerequisites
NA
Content
iManager MDS 6600 overview
New WDM network design process
Other functions of iManager MDS 6600 WDM
Designer
Designing a new WDM network
Simulation of the ASON WDM network
Training Methods
Lecture, Hands-on exercise
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 27
1.2.11 OTC76 OptiX NG WDM 40G Network Design
Objectives
On completion of this course, the participants will
be able to:
Describe 40G WDM functions and features
Outline the designing procedure of 40G WDM
network
Fulfill the hardware configuration of OptiX 40G
WDM network
Describe the designing procedure of NG WDM
40G RDU9+WSM9 network
Fulfill the hardware configuration of NG WDM
40G RDU9+WSM9 network
Target Audience
Senior network planning & design engineers
Prerequisites
Completion of OTC47 OptiX WDM/NG WDM
Network Design Basics course or having basic
knowledge on WDM network design
Content
OptiX NG WDM 40G system introduction
Designing process of 40λ s*40G OptiX NG
WDM network
Designing 80λ s*40G OptiX NG WDM network
OptiX NG WDM 40G (RDU9+WSM9) network
designing information introduction
OptiX NG WDM 40G (RDU9+WSM9) network
designing exercises
OptiX NG WDM 40G (RDU9+WSM9) network
design summary and share
Training Methods
Lecture, Case-study
Duration
2 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 28
1.3 WDM Training Course Descriptions
1.3.1 OTC01 WDM Basics
Objectives
On completion of this course, the participants will
be able to:
Describe the function module and network
structure of WDM system
Outline the characteristics of various fibers
Explain the functions and characteristics of
various optical components
Explain the key technologies of WDM system,
for example optical source, optical amplifiers,
etc
Describe the characteristics of optical interface
in WDM system
Target Audience
WDM network operation and maintenance
engineer
Prerequisites
NA
Content
WDM Overview
Transmission Media
Key Technologies
Technical Specifications
Training Methods
Lecture
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 29
1.3.2 OTC02 WDM Optical Power Management Topic
Objectives
On completion of this course, the participants will
be able to:
Illustrate the function of IPA
Describe ALC technology used in WDM system
Describe the functions and features of APE
technology
Target Audience
Maintenance Engineer or Planning Engineer
Prerequisites
Completion of OTC01 WDM Basics and
OTC06 OptiX BWS 1600G System Description
courses or having basic knowledge
Content
Introduction of ALC function
Principle of ALC
OptiX BWS 1600G Configuration of ALC
Introduction of IPA function
Principle of IPA
OptiX BWS 1600G Configuration of IPA
APE Principle
OptiX BWS 1600G APE Configuration
OptiX BWS 1600G APE Faults Locating and
Handling Typical Cases
Training Methods
Lecture, Hands-on exercise
Duration
2 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 30
1.3.3 OTC04 OptiX WDM Installation
Objectives
On completion of this course, the participants will
be able to:
Outline the functions and features of the
different units in OptiX WDM products
Describe the hardware installation procedure
Describe cable routing and related installation
specifications for the equipment
Outline the safety precautions to be taken
during the installation
Perform the hardware installation inspection
according to the checklist
Target Audience
WDM Network Installation Engineers
Prerequisites
NA
Content
OptiX BWS 1600G installation process
OptiX BWS 1600G room and grounding
requirement
OptiX BWS 1600G installation criterion
OptiX BWS 1600G installation checklist
Training Methods
Lecture, Multi-media
Duration
2 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 31
1.3.4 OTC05 OTN Basics
Objectives
On completion of this course, the participants will
be able to:
Describe OTN frame structure, maintenance
signals and function for different layers
Outline alarm and performance events
generation mechanism
Analyze the alarm and performance events and
locate the failures in OTN
Target Audience
OTN Maintenance and planning Engineer.
Prerequisites
Completion of OTC01 WDM Basics or having
basic knowledge
Content
Optical transport hierarchy
OTN interface structure
Multiplexing/mapping principles and bit rates
Overhead description
Maintenance signals and function for different
layers
Alarm and performance events
Training Methods
Lecture
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 32
1.3.5 OTC06 OptiX BWS 1600G System Description
Objectives
On completion of this course, the participants will
be able to:
Describe the position of OptiX BWS 1600G
system in an optical transport network
Describe the functions of OptiX BWS 1600G
system
Illustrate the functions of different units in OptiX
BWS 1600G system, which includes OTU,
MUX/DEMUX, OA, OSC, etc
Describe the protection and features of OptiX
BWS 1600G system
Target Audience
OptiX BWS 1600G equipment field maintenance
engineer
Prerequisites
NA
Content
OptiX BWS 1600G system overview
OptiX BWS 1600G system structure
OptiX BWS 1600G system feature
OptiX BWS 1600G system application
Training Methods
Lecture
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 33
1.3.6 OTC07 OptiX BWS 1600G Hardware Description & Application
Objectives
On completion of this course, the participants will
be able to:
Describe the system structure and features of
OptiX BWS 1600G equipment
Describe the main functions of the boards
Outline the system protection modes of OptiX
BWS 1600G equipment
List the common network topologies and
network elements of OptiX BWS 1600G system
Describe the network applications of OptiX
BWS 1600G system
Target Audience
OptiX BWS 1600G equipment operation and
maintenance engineer
Prerequisites
Completion of OTC01 WDM Basics course or
having equivalent knowledge
Content
OptiX BWS 1600G system Overview
OptiX BWS 1600G cabinet and subrack
OptiX BWS 1600G cards
OptiX BWS 1600G node type
OptiX BWS 1600G network applications
Key factors in networking
Training Methods
Lecture
Duration
1.5 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 34
1.3.7 OTC08 OptiX WDM Products Configuration
Objectives
On completion of this course, the participants will
be able to:
Describe the functions, architecture and the
menus of OptiX iManager T2000/T2000-LCT
Implement OptiX iManager T2000 basic
operations, WDM data configuration and
system management
Configure OptiX WDM products through OptiX
iManager T2000/T2000-LCT
Configure the typical protection for the
equipment
Check the data configuration correctness and
validity
Target Audience
OptiX BWS 1600G equipment operation and
maintenance engineer
Prerequisites
Completion of OTC01 WDM Basics and
OTC07 OptiX BWS 1600G Hardware
Description & Application courses or having
basic knowledge on WDM technology
Content
OptiX BWS 1600G/ Metro 6100 equipment
data configuration
OptiX BWS 1600G/ Metro 6100 NMS side
routine maintenance Items
OptiX BWS 1600G/ Metro 6100 daily
maintenance items
OptiX BWS 1600G/ Metro 6100 monthly&
semiyearly maintenance items
OptiX BWS 1600G/ Metro 6100 other NMS
side operations
Training Methods
Lecture, Hands-on exercise
Duration
2.5 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 35
1.3.8 OTC09 Metro OTN Solution
Objectives
On completion of this course, the participants will
be able to:
List the trend of Metro transmission network
Illustrate the features of OTN
Describe the application of Huawei OTN
products
Target Audience
Technical manager or key staff
Prerequisites
NA
Content
Trend of metro network
IP-oriented OTN network
Huawei metro OTN transport solution products
introduction
Creating value for customers
Training Methods
Lecture
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 36
1.3.9 OTC10 OptiX BWS 1600G Commissioning
Objectives
On completion of this course, the participants will
be able to:
Check the equipment running conditions, such
as power connections, fiber connections,
mounted boards, etc
Outline the commissioning process for OptiX
BWS 1600G equipment
Perform the single station commissioning of
OptiX BWS 1600G equipment
Perform the commissioning of supervisory
channel
Perform the main path commissioning of OptiX
BWS 1600G equipment
Perform indices testing during the
commissioning process
Eliminate the fault during the commissioning
process
Target Audience
OptiX BWS 1600G Commissioning engineer
Prerequisites
Completion of OTC07 OptiX BWS 1600G
Hardware Description & Application course or
having basic knowledge on WDM technology
Content
Optical power calculation basics
OptiX BWS 1600G common power indices
OptiX BWS 1600G power calculation of OSC
OptiX BWS 1600G power calculation of Traffic
Channel
Preparations for OptiX BWS 1600G
commissioning
Configuring OptiX BWS 1600G NE and
network
Commissioning OptiX BWS 1600G optical
power
Commissioning OptiX BWS 1600G network
Training Methods
Lecture, Hands-on exercise
Duration
2 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 37
1.3.10 OTC11 OptiX WDM Equipment Field Maintenance
Objectives
On completion of this course, the participants will
be able to:
Describe the status of OptiX WDM products
alarm indicators
Describe the running environment of OptiX
WDM products
List the routine maintenance items of OptiX
WDM products
Perform the basic maintenance operations of
OptiX WDM products, such as board
replacement, fiber connection, optical power
adjusting, etc
Complete the maintenance records of OptiX
WDM products
Outline the common menus of OptiX iManager
T2000-LCT
Perform the NE configuration, board
configuration, and protection configuration of
OptiX WDM products via OptiX iManager
T2000-LCT
Perform the routine maintenance of OptiX
WDM products via OptiX iManager T2000-LCT
Target Audience
OptiX WDM network field maintenance engineer
Prerequisites
Completion of OTC06 OptiX BWS 1600G
System Description course or having basic
knowledge on WDM technology
Content
Basic operation precautions
OptiX BWS 1600G equipment basic
maintenance operation
Training Methods
Lecture, Hands-on exercise
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 38
1.3.11 OTC12 OptiX WDM System Troubleshooting
Objectives
On completion of this course, the participants will
be able to:
Explain the troubleshooting ideas and methods
for OptiX WDM products
Illustrate basic operation for OptiX WDM
troubleshooting
Describe the fault handling flow
Analyze and eliminate the common faults of
OptiX WDM products
Improve the ability of eliminating faults through
case analysis and practice
Target Audience
OptiX WDM network 2nd line maintenance
engineer
Prerequisites
Completion of OTC01 WDM Basics, OTC07
OptiX BWS 1600G Hardware Description &
Application and OTC08 OptiX WDM Products
Configuration courses or having basic
knowledge on WDM technology
Content
Methods of fault locating
OptiX BWS 1600G/ Metro 6100 fault
classification and location
OptiX BWS 1600G/ Metro 6100 optical power
abnormity
OptiX BWS 1600G/ Metro 6100 bit errors
OptiX BWS 1600G/ Metro 6100 transient
interruption
OptiX BWS 1600G/ Metro 6100 service
interruption
OptiX BWS 1600G/ Metro 6100 ECC faults
Training Methods
Lecture, Hands-on exercise
Duration
2 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 39
1.3.12 OTC24 OptiX NG WDM System Description
Objectives
On completion of this course, the participants will
be able to:
Describe the position of OptiX OSN
3800/6800/8800(OTN) systems in an optical
transport network
Describe the functions and features of OptiX
OSN 3800/6800/8800(OTN) systems
Illustrate the functions of different units in OptiX
OSN 3800/6800/8800(OTN) systems, which
include OTU, MUX/DEMUX, OA, OSC/ESC,
XCS etc
Describe the protection and features of OptiX
OSN 3800/6800//8800(OTN) systems
Target Audience
OptiX NG WDM equipment field maintenance
engineer
Prerequisites
NA
Content
OptiX NG WDM network application
OptiX NG WDM product functions and features
OptiX NG WDM product architecture and
capacity
Training Methods
Lecture
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 40
1.3.13 OTC25 OptiX OSN 3800/6800/8800(OTN) Hardware Description & Application
Objectives
On completion of this course, the participants will
be able to:
Describe the system structure and features of
OptiX OSN 3800/6800/8800(OTN) systems
Describe the main functions of the boards
Outline the system protection modes of OptiX
OSN 3800/6800/8800(OTN) systems
List the common network topologies and
network elements of OptiX OSN
3800/6800/8800(OTN) systems
Describe the network applications of OptiX
OSN 3800/6800/8800(OTN) systems
Target Audience
OptiX NG WDM equipment operation and
maintenance engineer
Prerequisites
Completion of OTC01 WDM Basics course or
having equivalent knowledge
Content
OptiX OSN 6800 networking application and
product features
OptiX OSN 6800 cabinet, subrack and frame
OptiX OSN 6800 boards description
OptiX NG WDM equipment level protection
OptiX NG WDM optical layer protection
OptiX NG WDM electrical layer protection
OptiX NG WDM product feature
OptiX NG WDM node type
OptiX NG WDM network applications
Key factors in WDM networking
Training Methods
Lecture
Duration
2 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 41
1.3.14 OTC26 OptiX OSN 3800/6800/8800(OTN) Products Configuration
Objectives
On completion of this course, the participants will
be able to:
Describe the advantages of OTN
Describe the OTN frame structure and list the
different components’ function
Describe the main features of the optical layer
grooming and electrical layer grooming
Describe OptiX OSN 3800/6800/8800(OTN)
system signal flow and fiber connection, which
include OTM, OLA, OADM, etc
Outline the supervisory channel signal flow in
different network elements
Describe the functions, architecture and the
menus of iManager U2000
Implement iManager U2000 basic operations,
OptiX OSN 3800/6800/8800(OTN) data
configuration and system management
Configure OptiX OSN 3800/6800/8800(OTN)
products through iManager U2000
Configure the typical protection for the
equipment
Check the data configuration correctness and
validity
Target Audience
OptiX NG WDM equipment operation and
maintenance engineer
Prerequisites
Completion of OTC25 OptiX OSN
3800/6800/8800(OTN) Hardware Description
& Application course or having equivalent
knowledge
Content
Operation precautions
OptiX NG WDM basic maintenance operations
OptiX NG WDM board replacement
OptiX NG WDM equipment routine
maintenance items
OptiX NG WDM NMS side routine maintenance
items
OptiX NG WDM daily maintenance items
OptiX NG WDM monthly maintenance items
OptiX NG WDM semiyearly maintenance items
Other NMS side operation
Preparation for OptiX NG WDM data
configuration
Creating a OptiX NG WDM network
Basic concepts
Configuring the edge port
Creating OptiX NG WDM single-station optical
cross-connection
Configuring OptiX NG WDM OCh trail
Basic concepts
Configuring OptiX NG WDM normal
cross-connection Services
Configuring OptiX NG WDM service timeslots
Configuring OptiX NG WDM electrical trail
OptiX NG WDM electrical layer grooming
OptiX NG WDM service grooming model
OptiX NG WDM boards involved in electrical
layer grooming
Application scenarios of electrical layer service
grooming
Training Methods
Lecture, Hands-on exercise
Duration
3.5 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 42
1.3.15 OTC27 OptiX WDM Testing
Objectives
On completion of this course, the participants will
be able to:
Illustrate OptiX WDM system optical power
calculation
Outline OptiX WDM system testing overview,
which includes complied standards, system
reference points and test instruments
Outline OptiX WDM system common testing
indices
Implement the main path indices testing, which
include OTU/MUX/DEMUX/OA units testing
Implement the supervisory channel indices
testing
Perform orderwire telephone testing, bit error
testing etc
Target Audience
OptiX NG WDM commissioning, operation and
maintenance engineer
Prerequisites
Completion of OTC01 WDM Basics, OTC25
OptiX OSN 3800/6800/8800(OTN) Hardware
Description & Application and OTC26 OptiX
OSN 3800/6800/8800(OTN) Products
Configuration courses or having equivalent
knowledge
Content
Overview of testing
Testing of main channel
Testing of OSC channel
Testing of system
Overview of testing
Testing of main channel
Testing of OSC channel
Testing of system
Training Methods
Lecture, Hands-on exercise
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 43
1.3.16 OTC28 OptiX NG WDM Commissioning
Objectives
On completion of this course, the participants will
be able to:
Check the equipment running condition such
as power connections, fiber connections,
mounted boards, etc
Outline and perform the commissioning
procedure for OptiX OSN
3800/6800/8800(OTN) equipment
Perform the single station commissioning of
OptiX OSN 3800/6800/8800(OTN) equipment
Perform the commissioning of supervisory
channel
Perform the main path commissioning of OptiX
OSN 3800/6800/8800(OTN) equipment
Perform indices testing during the
commissioning process
Eliminate the fault occurring during the
commissioning process
Target Audience
OptiX NG WDM commissioning engineer
Prerequisites
Completion of OTC25 OptiX OSN
3800/6800/8800(OTN) Hardware Description
& Application course or having basic
knowledge on WDM technology
Content
Review of the OptiX NG WDM signal flow
Basic concepts
Power calculation of OptiX NG WDM OSC
Power calculation of OptiX NG WDM main ath
Preparations for OptiX NG WDM
commissioning
Configuring OptiX NG WDM NE and network
Commissioning OptiX NG WDM optical power
Commissioning OptiX NG WDM network
Training Methods
Lecture, Hands-on exercise
Duration
2.5 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 44
1.3.17 OTC29 OptiX NG WDM(OTN) Field Maintenance
Objectives
On completion of this course, the participants will
be able to:
Describe the status of OptiX OSN
3800/6800/8800(OTN) products alarm
indicators
Describe the running environment of OptiX
OSN 3800/6800/8800(OTN) products
List the routine maintenance items of OptiX
OSN 3800/6800/8800(OTN) products
Perform the basic maintenance operations of
OptiX OSN 3800/6800/8800(OTN) products,
such as board replacement, fiber connection,
optical power adjusting, etc
Complete the maintenance records of OptiX
OSN 3800/6800/8800(OTN) products
Outline the common menus of OptiX iManager
U2000/Web LCT
Perform the NE configuration, board
configuration, and protection configuration of
OptiX OSN 3800/6800/8800(OTN) products via
iManager U2000/Web LCT
Perform the routine maintenance of OptiX OSN
3800/6800/8800(OTN) products via iManager
U2000/Web LCT
Target Audience
OptiX NG WDM equipment field maintenance
engineer
Prerequisites
Completion of OTC24 OptiX NG WDM System
Description course or having equivalent
knowledge
Content
Operation precautions
OptiX NG WDM basic maintenance operations
OptiX NG WDM board replacement
OptiX NG WDM equipment routine
maintenance items
Preparations for OptiX NG WDM Web LCT
configuration
Basic OptiX NG WDM Web LCT configuration
OptiX NG WDM Web LCT maintenance and
management operations
Training Methods
Lecture, Hands-on exercise
Duration
1.5 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 45
1.3.18 OTC30 NG WDM(OTN) System Troubleshooting
Objectives
On completion of this course, the participants will
be able to:
Explain the troubleshooting ideas and methods
for OptiX OSN 3800/6800/8800(OTN) products
Illustrate basic operation for OptiX OSN
3800/6800/8800(OTN) troubleshooting
Describe the fault handling flow
Analyze and eliminate the common faults of
OptiX OSN 3800/6800/8800(OTN) products
Improve the ability of eliminating faults through
case analysis and practice
Target Audience
OptiX NG WDM equipment 2nd Line Maintenance
Engineer
Prerequisites
Completion of OTC01 WDM Basics, OTC25
OptiX OSN 3800/6800/8800(OTN) Hardware
Description & Application and OTC26 OptiX
OSN 3800/6800/8800(OTN) Products
Configuration courses or having basic
knowledge on WDM technology
Content
Basic rules and methods of OptiX NG WDM
fault locating
Rectifying different types of OptiX NG WDM
faults
OptiX NG WDM troubleshooting methods
review
OptiX NG WDM troubleshooting cases
Discussion
Training Methods
Lecture, Hands-on exercise
Duration
2.5 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 46
1.3.19 OTC32 OptiX NG WDM Ethernet Operation&Maintenance
Objectives
On completion of this course, the participants will
be able to:
Explain the IP over WDM principle
Describe the Ethernet service and protection of
NG WDM equipment
Configure the Ethernet service and protection
through iManager U2000
Implement the routine maintenance and
troubleshooting of NG WDM Ethernet service
Target Audience
OptiX NG WDM Ethernet operation and
maintenance engineer
Prerequisites
Completion of OTC25 OptiX OSN
3800/6800/8800(OTN) Hardware Description
& Application and OTC26 OptiX OSN
3800/6800/8800(OTN) Products
Configuration courses or having basic
knowledge on WDM technology
Content
Ethernet Overview
Associate Protocol and Frame Structure of
Ethernet
Relative Technologies of Ethernet
OptiX NG WDM EPL service configuration
OptiX NG WDMEVPL (QinQ) service
configuration
OptiX NG WDMEPLAN service configuration
OptiX NG WDM QoS configuration
OptiX NG WDM ethernet background
knowledge
OptiX NG WDM ethernet maintenance
operations
OptiX NG WDM ethernet common
troubleshooting thoughts and methods
OptiX NG WDM ethernet common
troubleshooting cases
Training Methods
Lecture, Hands-on exercise
Duration
3 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 47
1.3.20 OTC35 OptiX WDM System Advanced Troubleshooting
Objectives
On completion of this course, the participants will
be able to:
Apply different troubleshooting methods
according to actual faults
Perform the common troubleshooting
operations of WDM netwok
Explain the possible reasons of all kinds of
OptiX WDM network defaults
Describe the fault handling flow
Analyze and locate the complex fault of OptiX
WDM network
Improve the ability of eliminating faults through
case analysis and practice
Target Audience
OptiX WDM network senior operation and
maintance engineer
Prerequisites
Completion of OTC01 WDM Basics course or
having basic knowledge on WDM technology
Content
OTN Introduction
OptiX BWS 1600G electrical layer alarm signal
flow
OptiX BWS 1600G OTN optical layer alarm
signal flow
Methods of fault locating
OptiX BWS 1600G/ Metro 6100 fault
classification and location
OptiX BWS 1600G advanced troubleshooting
case study
Bit errors monitor principle
FEC types and principle
OptiX BWS 1600G bit error performances and
alarms
OptiX BWS 1600G bit error troubleshooting
and case study
Training Methods
Lecture, Hands-on exercise
Duration
3 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 48
1.3.21 OTC37 OTN 1588V2 Feature Introduction
Objectives
On completion of this course, the participants will
be able to:
Describe the principle and the application of
1588V2 in OTN network
Target Audience
WDM series equipment operation and
maintenance engineer
Prerequisites
Completion of OTC25 OptiX OSN
3800/6800/8800(OTN) Hardware Description
& Application course or having basic
knowledge on WDM technology
Content
1588V2 Background
1588V2 Priciple Description
OTN 1588V2 Application
Training Methods
Lecture
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 49
1.3.22 OTC46 OptiX OSN 1800 Operation&Maintenance
Objectives
On completion of this course, the participants will
be able to:
Describe the system structure and features of
OptiX OSN 1800
Describe the main functions of the boards
Outline the system protection modes of OptiX
OSN 1800
List the common network topologies and
network elements of OptiX OSN 1800
Describe the network applications of OptiX
OSN 1800
Check the equipment running condition such
as power connections, fiber connections,
mounted boards, etc
Describe OptiX OSN 1800 system signal flow
and fiber connection
Implement NMS basic operations, OptiX OSN
1800 data configuration and system
management
Configure OptiX OSN 1800 through NMS
Configure the typical protection for the
equipment
Check the data configuration correctness and
validity
Perform the single station commissioning of
OptiX OSN 1800
Perform the main path commissioning of OptiX
OSN 1800
Eliminate the fault occurring during the
commissioning process
Apply different troubleshooting methods
according to actual faults
Perform the common troubleshooting
operations of WDM network
Explain the possible reasons of all kinds of
OptiX WDM network faults
Describe the fault handling flow
Analyze and locate the complex fault of OptiX
WDM network
Improve the ability of eliminating faults through
case analysis and practice
Target Audience
OptiX OSN 1800 operation and maintenance
engineer
Prerequisites
Completion of OTC01 WDM Basics course or
having equivalent knowledge
Content
OptiX OSN 1800 system overview
OptiX OSN 1800 chassis
OptiX OSN 1800 boards
OptiX OSN 1800 system signal flow
OptiX OSN 1800 protection
OptiX OSN 1800 design principle
OptiX OSN 1800 application cases
Preparation for OptiX OSN 1800 data
configuration
Creating an OptiX OSN 1800 network
OptiX OSN 1800 service configuring
OptiX OSN 1800 protection configuration
OptiX OSN 1800 commissioning
Basic operation precautions
OptiX OSN 1800 equipment basic maintenance
operation
OptiX OSN 1800 NMS basic maintenance
operation
OptiX OSN 1800 troubleshooting
Preparation for OptiX OSN 1800 data
configuration
Creating an OptiX OSN 1800 network
OptiX OSN 1800 service configuring
OptiX OSN 1800 protection configuration
OptiX OSN 1800 commissioning
COMMERCIAL IN CONFIDENCE 50
Basic operation precautions
OptiX OSN 1800 equipment basic maintenance
operation
OptiX OSN 1800 NMS basic maintenance
operation
OptiX OSN 1800 troubleshooting
Training Methods
Lecture, Hands-on exercise
Duration
4 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 51
1.3.23 OTC48 OptiX OSN 8800 (OCS) Hardware Description & Application
Objectives
On completion of this course, the participants will
be able to:
Describe the system structure and features of
OptiX OSN 8800(OCS) system
Describe the main functions of the boards
Outline the system protection modes of OptiX
OSN 8800(OCS) system
Describe the network applications of OptiX
OSN 8800(OCS) system
Describe the common SDH network topologies
and their features
Explain the protection mechanism of linear
MSP
Explain the protection mechanism of MS
shared protection ring
Explain the protection mechanism of SNCP in
ring/mesh topology
Analyze the service signal flow before/after the
protection switch takes place
Target Audience
OptiX OSN 8800 (OCS) operation and
maintenance engineer
Prerequisites
NA
Content
Networking Application and Product Features
Cabinet, Sub rack and Frame
OCS Boards
Networking Application and Product Features
Cabinet, Sub rack and Frame
OCS Boards
Training Methods
Lecture
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 52
1.3.24 OTC49 OptiX OSN 8800 (OCS) Product Configuration
Objectives
On completion of this course, the participants will
be able to:
Configure OptiX OSN 8800(OCS) product
Configure the required
SDH/Synchronization/Overhead units
Configure the typical protection for the network
and equipment
Configure the common services for the typical
SDH networks
Analyze and maintain the configured
equipment/units/services
Target Audience
OptiX OSN 8800 (OCS) operation and
maintenance engineer
Prerequisites
Completion of OTC48 OptiX OSN 8800 (OCS)
Hardware Description & Application course or
having equivalent knowledge
Content
Preparation for Data Configuration
Creating a Network
Configuring SDH Services
Backup NE Database
Creating Network
Configuring Non-Protection Ring
Configuring 1+1 Linear MSP
Configuring MSP Ring
Configuring a Transoceanic MSP Ring
Configuring SNCP Tangent Ring
Training Methods
Lecture, Hands-on exercise
Duration
2.5 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 53
1.3.25 OTC50 OptiX OSN 8800 (OCS) Field Maintenance
Objectives
On completion of this course, the participants will
be able to:
Describe the status of OptiX OSN 8800(OCS)
product indicators
Describe the operation environment of OptiX
OSN 8800(OCS) equipment
Perform the NE configuration, board
configuration, service provisioning and
protection configuration for equipment via NMS
Perform the routine maintenance via NMS
Perform the basic maintenance operations of
OptiX OSN 8800(OCS) equipment such as
board replacement, resetting etc
Complete the routine maintenance records of
OptiX OSN 8800(OCS) equipment
Target Audience
OptiX OSN 8800 (OCS) Field Maintenance
Engineer
Prerequisites
Completion of OTC48 OptiX OSN 8800 (OCS)
Hardware Description & Application course or
having equivalent knowledge
Content
Basic Maintenance Precautions
Equipment Operation Environment Monitoring
Equipment Maintenance Operation
Board Replacement
Equipment Maintenance Records
Replacing the SDH Board
Replacing the EGSH Board
Replacing the Cross-Connect Board
Replacing the Clock Board Replacing the AUX
Board
Replacing the EFI Board
Replacing the SCC Board
Training Methods
Lecture, Hands-on exercise
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 54
1.3.26 OTC54 OptiX OSN 3800A/6800A Hardware Description & Application
Objectives
On completion of this course, the participants will
be able to:
Describe the system structure and features of
OptiX OSN 3800A/6800A systems
Describe the main functions of the boards
Outline the system protection modes of OptiX
OSN 3800A/6800A systems
List the common network topologies and
network elements of OptiX OSN 3800A/6800A
systems
Describe the network applications of OptiX
OSN 3800A/6800A systems
Target Audience
OptiX OSN 3800A/6800A operation and
maintenance engineer
Prerequisites
NA
Content
OptiX OSN 3800A6800A network application
OptiX OSN 3800A6800A product functions
OptiX OSN 3800A6800A product features
OptiX OSN 3800A6800A product architecture
and hardware
OptiX OSN 3800A6800A product features
OptiX OSN 3800A6800A node types
OptiX OSN 3800A6800A network applications
Training Methods
Lecture
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 55
1.3.27 OTC55 OptiX OSN 3800A/6800A Products Configuration
Objectives
On completion of this course, the participants will
be able to:
Describe the advantages of OTN
Describe the OTN frame structure and list the
different components' function
Describe the main features of the optical layer
grooming and electrical layer grooming
Describe OptiX OSN 3800A/6800A system
signal flow and fiber connection, which include
OTM, OLA, OADM, etc
Outline the supervisory channel signal flow in
different network elements
Describe the functions, architecture and the
menus of iManager U2000
Implement iManager U2000 basic operations,
OptiX OSN3800A/6800A data configuration
and system management
Configure OptiX OSN 3800A/6800A products
through iManager U2000
Configure the typical protection for the
equipment
Check the data configuration correctness and
validity
Target Audience
OptiX OSN 3800A/6800A operation and
maintenance engineer
Prerequisites
Completion of OTC54 OptiX OSN
3800A/6800A Hardware Description &
Application course or having equivalent
knowledge
Content
Preparation for OptiX OSN 3800A6800A data
configuration
Create an OptiX OSN 3800A6800A network
Configure OptiX OSN 3800A6800A board
attributes and OTN overhead bytes
Configure OptiX OSN 3800A6800A optical
cross-connection
Configure OptiX OSN 3800A6800A electrical
cross-connection
FOADM and its features
ROADM and its Features
OptiX OSN 3800A6800A ROADM grooming
features
OptiX OSN 3800A6800A relative functional
units of ROADM
Main scenarios of ROADM
OptiX OSN 3800A6800A electrical layer
grooming
OptiX OSN 3800A6800A service grooming
model
Boards involved in OptiX OSN 3800A6800A
electrical layer grooming
Application scenarios of electrical layer service
grooming
OptiX OSN 3800A6800A equipment level
protection
OptiX OSN 3800A6800A optical layer
protection
OptiX OSN 3800A6800A electrical layer
protection
Training Methods
Lecture, Hands-on exercise
Duration
3 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 56
1.3.28 OTC56 OptiX OSN 3800A/6800A Equipment Commissioning
Objectives
On completion of this course, the participants will
be able to:
Check the equipment running condition such
as power connections, fiber connections,
mounted boards, etc
Outline and perform the commissioning
procedure for OptiX OSN 3800A/6800A
equipment
Perform the single station commissioning of
OptiX OSN 3800A/6800A equipment
Perform the commissioning of supervisory
channel
Perform the main path commissioning of OptiX
OSN 3800A/6800A equipment
Perform indices testing during the
commissioning process
Eliminate the fault occurring during the
commissioning process
Target Audience
OptiX OSN 3800A/6800A commissioning engineer
Prerequisites
Completion of OTC54 OptiX OSN
3800A/6800A Hardware Description &
Application course or having equivalent
knowledge
Content
Preparations for OptiX OSN 3800A6800A
commissioning
Configuring OptiX OSN 3800A6800A NE and
network
Commissioning OptiX OSN 3800A6800A
optical power
Commissioning OptiX OSN 3800A6800A
network
Training Methods
Lecture, Hands-on exercise
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 57
1.3.29 OTC57 OptiX OSN 3800A/6800A Field Maintenance
Objectives
On completion of this course, the participants will
be able to:
Describe the status of OptiX OSN
3800A/6800A products alarm indicators
Describe the running environment of OptiX
OSN 3800A/6800A products
List the routine maintenance items of OptiX
OSN 3800A/6800A products
Perform the basic maintenance operations of
OptiX OSN 3800A/6800A products, such as
board replacement, fiber connection, optical
power adjusting, etc
Complete the maintenance records of OptiX
OSN 3800A/6800A products
Outline the common menus of iManager U2000
Perform the NE configuration, board
configuration, and protection configuration of
OptiX OSN 3800A/6800A products via
iManager U2000
Perform the routine maintenance of OptiX OSN
3800A/6800A products via iManager U2000
Target Audience
OptiX OSN 3800A/6800A field maintenance
engineer
Prerequisites
Completion of OTC54 OptiX OSN
3800A/6800A Hardware Description &
Application course or having equivalent
knowledge
Content
OptiX OSN 3800A6800A basic operation
precautions
OptiX OSN 3800A6800A equipment basic
maintenance operation
Training Methods
Lecture, Hands-on exercise
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 58
1.3.30 OTC58 OptiX OSN 3800A/6800A System Maintenance and Troubleshooting
Objectives
On completion of this course, the participants will
be able to:
Explain the troubleshooting ideas and methods
for OptiX OSN 3800A/6800A products
Illustrate basic operation for OptiX OSN
3800A/6800A troubleshooting
Describe the fault handling flow
Analyze and eliminate the common faults of
OptiX OSN 3800A/6800A products
Improve the ability of eliminating faults through
case analysis and practice
Target Audience
OptiX OSN 3800A/6800A operation and
maintenance engineer
Prerequisites
Completion of OTC54 OptiX OSN
3800A/6800A Hardware Description &
Application and OTC55 OptiX OSN
3800A/6800A Products Configuration courses
or having equivalent knowledge
Content
Basic rules and methods of OptiX OSN
3800A6800A fault locating
Rectifying different types of OptiX OSN
3800A6800A faults
Training Methods
Lecture, Hands-on exercise
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 59
1.3.31 OTC59 OptiX BWS 1600S Operation and Maintenance
Objectives
On completion of this course, the participants will
be able to:
Explain the functions, characteristics of optical
components and the key technologies of WDM
sub-marine system
Describe the characteristics of optical
interfaces in WDM sub-marine system
Describe the structure, functions and features
of OptiX BWS 1600S equipment
Describe the functions and specifications of
different boards
Describe the network topologies, system
applications and network protection
mechanisms
Perform iManager U2000 operation and
maintenance, such as alarms and performance
browsing, parameters setting, database
restoration/back-up, security/user management,
etc
Implement the equipment hardware
configuration
Draw the LTE/REG signal flow of OptiX BWS
1600S system
Implement data configuration, optical power
adjustment, protection configuration and
network expansion through iManager U2000
List the common indices of OptiX BWS 1600S
equipment and perform the WDM products
testing
Illustrate the application of common
troubleshooting methods, such as optical
power testing, alarm and performance events
analysis, replacement, etc
Locate and eliminate faults, get experience
from troubleshooting practice
Target Audience
OptiX BWS 1600S operation and maintenance
engineer
Prerequisites
Completion of OTC01 WDM Basics course or
having equivalent knowledge
Content
OptiX BWS 1600S System Overview
Cabinet and Powerbox
Subrack
DCM Frame and HUB Frame
Cards
Repeatered System Configuration
Unrepeatered System Configuration
Repeatered System Network Application
Unrepeatered System Network Application
Network Protection
Key Factors in Networking
Preparations for OptiX BWS 1600S
Commissioning
Configuring NE and Network
Commissioning Optical Power
Commissioning Network
Overview
Basic Rules and Methods of Fault Locating
Rectifying different types of faults
Guidelines to Safety(Alarm and Safety
Symbols, ESD, Fibers, Network Management
System Maintenance)
Operations
1600S Routine Maintenance
Board Replacement
Training Methods
Lecture, Hands-on exercise
Duration
2 working days
COMMERCIAL IN CONFIDENCE 60
Class Size Min 6, max 12
COMMERCIAL IN CONFIDENCE 61
1.3.32 OTC60 OptiX NPE (OSN 3500/7500/9500) Operation and Maintenance
Objectives
On completion of this course, the participants will
be able to:
Describe the structure, functions and features
of OptiX NPE equipment
Explain the functions and specifications of
different boards
Outline the capacity and ability of OptiX NPE
equipment
Describe the network topologies, system
applications and network protection
mechanisms
Implement the service configuration, alarm and
performance monitoring through iManager
U2000
State the service application and protection
mechanism
Implement the clock, orderwire, protection
configurations and network expansion through
iManager U2000
Execute the on-site operation, such as board
replacement, board or equipment resetting and
fiber connection
Perform iManager U2000 operation and
maintenance, such as alarms and performance
browsing, parameters setting, etc
Illustrate the application of common
troubleshooting methods, such as loop-back,
testing, alarm and performance events analysis,
replacement, etc
Locate and eliminate faults, get experience
from troubleshooting practice
Target Audience
OptiX NPE maintenance engineer
Prerequisites
Completion of OTC59 OptiX BWS 1600S
Operation and Maintenance course or having
equivalent knowledge
Content
OptiX OSN 1500250035007500 Product
Introduction
The Cabinet, Sub-rack of OptiX OSN
1500250035007500
The Boards of OptiX OSN 1500250035007500
Common Network Elements and Configuration
Features
Optical networking introduction
Classification of topologies
Sub-networks
Survivable networks introduction
Types of protection
1+1 Linear MS Protection Configuration
1:1 Linear MS Protection Configuration
Two-fiber Bidirectional MS Protection Ring
Configuration
SNCP Ring with Non-protection Chain
Configuration
Safety labels
Laser precautions
Electrical precautions
Precautions for Board Handling
Precautions for Fiber Handling
Equipment Operation Environment Monitoring
Equipment Maintenance Operation
Equipment Maintenance Records
Troubleshooting Preparation
Troubleshooting Idea and Methods
Classified Troubleshooting Examples
Equipment Operation Environment Monitoring
Equipment Maintenance Operations
Equipment Operation and Maintenance Guide
Training Methods
Lecture, Hands-on exercise
COMMERCIAL IN CONFIDENCE 62
Duration
3 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 63
1.3.33 OTC61 OptiX SLM 1630/RPT 1660 Operation and Maintenance
Objectives
On completion of this course, the participants will
be able to:
Describe the structure, functions and features
of OptiX SLM/RPT equipment
Describe the functions and specifications of
different boards
Describe the network topologies, system
applications and network protection
mechanisms
Perform iManager U2000 operation and
maintenance, such as alarms and performance
browsing, parameters setting, etc
Implement the equipment hardware
configuration
Implement data configuration through
iManager U2000
Illustrate the application of common
troubleshooting methods
Locate and eliminate faults, get experience
from troubleshooting practice
Target Audience
OptiX SLM/RPT equipment operation and
maintenance engineer
Prerequisites
Completion of OTC59 OptiX BWS 1600S
Operation and Maintenance course or having
equivalent knowledge
Content
SLM 1630 Overview
Hardware Architecture
Submarine Cable Line Management
In-service and Out-of-service
Parameters Setting
Monitoring Submarine Cable Lines
Application Example
RPT 1660 Overview
Optical Design
Mechanical Design
Fault Location
Training Methods
Lecture, Hands-on exercise
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 64
1.3.34 OTC62 OptiX OSN 3800/6800/8800 (OTN) Protection
Objectives
On completion of this course, the participants will
be able to:
Describe the characteristics of various
protection types and their application scenarios
Understand the operations related to the OSN
3800/6800/8800 product protection
Fulfilled the service configuration and verify the
characteristics of various protection types
Perform the routine maintenance in various
protection types
Target Audience
OptiX NG WDM equipment senior Operation and
maintenance Engineer
Prerequisites
Completion of OTC25 OptiX OSN
3800/6800/8800(OTN) Hardware Description
& Application course or having equivalent
knowledge
Content
OLP Protection
Inter-Board 1+1 Protection
Client 1+1 Protection
OWSP Protection
ODUk SNCP Protection
ODUk Shared Protection Ring
SW SNCP Protection
OWSP Protection Configuration and testing
ODUk SNCP Protection Configuration and
testing
ODUk Shared Protection Ring
SW SNCP Protection Configuration and testing
Training Methods
Lecture, Hands-on exercise
Duration
3 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 65
1.3.35 OTC64 OptiX OSN 3800/6800/8800 (OTN) Advanced Troubleshooting
Objectives
On completion of this course, the participants will
be able to:
Preventive maintenance of OptiX OSN
3800/6800/8800 system
Locate and eliminate the trouble based on
maintenance rules
Illustrate troubleshooting common operation
List the troubleshooting methods
Briefly introduce the general workflow in OptiX
OSN 3800/6800/8800 equipment
troubleshooting
Enhance the troubleshooting analyse and
reaction abilility through case discussion and
practice
Target Audience
OptiX NG WDM equipment senior Operation and
maintenance Engineer
Prerequisites
Completion of OTC30 NG WDM(OTN) System
Troubleshooting course or having equivalent
knowledge
Content
Overview
Electrical Layer Alarm Signal Flow Analysis
Optical Layer Alarm Signal Flow Analysis
OptiX OSN 3800/6800/8800(OTN)
Troubleshooting Method
Power Abnormal Case Study
Bit Error Case Study
Service interrupt Case Study
Troubleshooting rules
Abnomal alarms and performances collection
Troubleshooting Analysises
Summary
Training Methods
Lecture, Hands-on exercise
Duration
3.5 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 66
1.3.36 OTC65 OptiX NG WDM ASON Operation&Maintenance
Objectives
On completion of this course, the participants will
be able to:
Outline the standards of ASON
Illustrate the structure of ASON
Describe the networking characters of ASON
Explain the service characters of ASON
Fulfill the WDM ASON trail configuration
Complete the ASON routine maintenance
items
Describe The Basic Thoughts and Methods of
NG WDN ASON Fault Locating
Quickly restore interrupted ASON services
under emergency conditions.
Target Audience
OptiX NG WDM ASON Operation and
maintenance Engineer
Prerequisites
Completion of OTC25 OptiX OSN
3800/6800/8800(OTN) Hardware Description
& Application and OTC26 OptiX OSN
3800/6800/8800(OTN) Products
Configuration courses or having equivalent
knowledge
Content
ASON Overview
System structure of OptiX NG WDM ASON
Features of OptiX NG WDM ASON
Creating NE and Boards
Setting the Node ID
Querying the DCC Configuration
Enable ASON Feature
Uploading NE Configuration Data
Creating a Diamond WDM ASON OCh Trail
Creating a Silver WDM ASON OCh Trail
Creating a Copper WDM ASON OCh Trail
Deleting an ASON Trail
Migrating WDM ASON Trails
Modifying the Attributes of ASON WDM Trails
Modifying the Route of an ASON Service
Managing the ASON Protocol
Managing Link Resources
Setting Association of WDM ASON Trails
Setting Control Plane Parameters
Creating ASON Topology
Creating a Diamond WDM ASON och Trail
Creating a Silver WDM ASON och Trail
Optimize a WDM ASON trail
Creating NE and Boards
Setting the Node ID
Querying the DCC Configuration
Enable ASON Feature
Uploading NE Configuration Data
Creating ASON Topology
Creating a Diamond WDM ASON ODUk/Client
Trail
Creating a Silver WDM ASON ODUk/Client
Trail
Creating a Copper WDM ASON ODUk/Client
Trail
Creating WDM ASON Inverse Multiplexing Trail
Deleting an ASON Trail
Migrating WDM ASON Trails
Modifying the Attributes of ASON WDM Trails
Modifying the Route of an ASON Service
Managing the ASON Protocol
Managing Link Resources
Setting Association of WDM ASON Trails
Setting Control Plane Parameters
Creating ASON Topology
Creating a Diamond WDM ASON ODU1 Trail
Creating a Gold WDM ASON ODU1 Trail
Creating a Silver WDM ASON ODU1 Trail
Optimize a WDM ASON trail
COMMERCIAL IN CONFIDENCE 67
ASON Routine Maintenance Items
Checking ASON Abnormal Events
Checking ASON Attribute
Checking ASON Link
Checking ASON Services
Backing Up the Database of the ASON NE
Precautions for Configuring Software Functions
Precautions for the Hardware Operation
Precautions on NMS Operations
NG WDM ASON Troubleshooting
Quick Restoration of ASON Services
NG WDM ASON Case Analysis
Training Methods
Lecture, Hands-on exercise
Duration
3 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 68
1.3.37 OTC66 OptiX NG WDM 40G OTU System Operation&Maintenance
Objectives
On completion of this course, the participants will
be able to:
List 40G Key Technologies
Describe 40G OTU feature
Describe different NE types and signal flow
Categorize OptiX NG WDM 40G system
protection mechanism
List OptiX NG WDM 40G system networking
and application scenarios
Describe the method of OptiX NG WDM 40G
system commissioning
Perform OptiX NG WDM 40G system optical
power commissioning and 40G OTU dispersion
compensation adjustment
Perform OptiX NG WDM 40G network
commissioning
Perform indices testing during the
commissioning process
Eliminate the fault occurring during the
commissioning process
List the Items of Routine Maintenance
Grasp the basic operation of maintenance on
U2000
Implement routine operation and maintenance
on NMS side
Target Audience
OptiX NG WDM 40G system Operation and
maintenance Engineer
Prerequisites
Completion of OTC25 OptiX OSN
3800/6800/8800(OTN) Hardware Description
& Application and OTC26 OptiX OSN
3800/6800/8800(OTN) Products
Configuration courses or having equivalent
knowledge
Content
Overview of 40G Technology
40G OTU Feature
NE Type and Signal Flow
OptiX NG WDM 40G System Networking and
Protection
OptiX NG WDM 40G Network Application
Scenarios
Preparations for Commissioning
Configuring NE and Network
Commissioning Optical Power
Adjusting 40G OTU Dispersion Compensation
Commissioning Network
Preparations
OSC Commissioning
Adjusting 40G OTU Dispersion Compensation
OptiX NG WDM NMS side routine maintenance
items
OptiX NG WDM daily maintenance items
OptiX NG WDM monthly maintenance items
OptiX NG WDM semiyearly maintenance items
Other NMS side operation
Training Methods
Lecture, Hands-on exercise
Duration
3 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 69
1.3.38 OTC67 OptiX NG WDM Features Special Topics
Objectives
On completion of this course, the participants will
be able to:
Describe the principles and implementation
modes of the IPA
Implement the configuration of the IPA
Describe the principle and implementation
mode of the APE
Perform the configuration method of the APE
Implement the locating and handling methods
for typical APE troubles
Describe the working principle of ALC
Outline the related boards of ALC function
Grasp the configuration of ALC
Target Audience
OptiX NG WDM equipment senior Operation and
maintenance Engineer
Prerequisites
Completion of OTC25 OptiX OSN
3800/6800/8800(OTN) Hardware Description
& Application and OTC26 OptiX OSN
3800/6800/8800(OTN) Products
Configuration courses or having equivalent
knowledge
Content
Introduction of IPA function
Principle of IPA
Configuration of IPA
Create and enable IPA
Setting IPA Start Delay
Configuring Auxiliary Detect Boards for an IPA
Protection Group
Test and Restart IPA
Introduction of APE function
Principle of APE
Configuration of APE
Creating APE pair
Setting Wavelength Monitoring Parameters
Setting the Standard Power Curve
Starting/Stopping APE Adjustment
Introduction of ALC function
Principle of ALC
Configuration of ALC
Creating ALC Link Nodes
Checking ALC Links
Starting Automatic Link Adjustment
Training Methods
Lecture, Hands-on exercise
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 70
1.3.39 OTC68 OptiX NG WDM Ethernet Protection Configuration
Objectives
On completion of this course, the participants will
be able to:
Illustrate the protection mechanism of OptiX
NG WDM Ethernet protection: VLAN SNCP,
BPS, DBPS and DLAG
Outline the difference between BPS and DBPS
Describe the scenario of VLAN SNCP, BPS,
DBPS and DLAG
Outline the application scenarios of OptiX NG
WDM Ethernet protection
Complete the OptiX NG WDM Ethernet
protection configuration through T2000
Target Audience
OptiX NG WDM equipment senior Operation and
maintenance Engineer
Prerequisites
Completion of OTC25 OptiX OSN
3800/6800/8800(OTN) Hardware Description
& Application and OTC26 OptiX OSN
3800/6800/8800(OTN) Products
Configuration courses or having equivalent
knowledge
Content
VLAN SNCP
BPS
DBPS & MS SNCP
LAG
DLAG
ERPS
VLAN SNCP Configuration
BPS Configuration
DBPS & MS SNCP Configuration
LAG Configuration
DLAG Configuration
ERPS Configuration
Training Methods
Lecture, Hands-on exercise
Duration
2 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 71
1.3.40 OTC69 OptiX BWS 1600G 40G OTU System Operation&Maintenance
Objectives
On completion of this course, the participants will
be able to:
Describe the 40G system key technology, such
as encoding scheme technology, dispersion
management, AFEC and OTN
Describe the system structure and features of
OptiX BWS 1600G 40G OTU system
Describe the main functions of the 40G OTU
boards
Outline the system protection modes of OptiX
BWS 1600G 40G OTU system
List the common network topologies and
network elements of OptiX BWS 1600G 40G
OTU system
Describe the network applications of OptiX
BWS 1600G 40G OTU system
Implement the configuration of 40G service
with OptiX BWS 1600G product
Check the equipment running condition such
as power connections, fiber connections,
mounted boards, etc
Outline and perform the commissioning
procedure for OptiX BWS 1600G 40G OTU
equipment
Perform the single station commissioning of
OptiX BWS 1600G 40G OTU equipment
Perform the commissioning of supervisory
channel
Perform the main path commissioning of OptiX
BWS 1600G 40G OTU equipment
Perform indices testing during the
commissioning process
List the daily and periodic maintenance items
and illustrate the basic operations of OptiX
BWS 1600G 40G OTU system
Implement the routine maintenance and
troubleshooting of OptiX BWS 1600G 40G
OTU system
Target Audience
OptiX WDM system senior Operation and
maintenance Engineer
Prerequisites
Completion of OTC07 OptiX BWS 1600G
Hardware Description & Application and
OTC08 OptiX WDM Products Configuration
courses or having equivalent knowledge
Content
Overview of 40G Technology
40G OTU Feature
Node type
Networking and Protection
40G Application scenario
Preparations for Commissioning
Configuring NE and Network
Commissioning Optical Power
Adjusting 40G OTU Dispersion Compensation
Commissioning Network
OptiX BWS 1600G/ Metro 6100 NMS side
routine maintenance Items
OptiX BWS 1600G/ Metro 6100 daily
maintenance items
OptiX BWS 1600G/ Metro 6100 monthly&
semiyearly maintenance items
OptiX BWS 1600G/ Metro 6100 other NMS
side operations
Training Methods
Lecture, Hands-on exercise
Duration
3 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 72
1.3.41 OTC71 OptiX BWS 1600S(unrepeatered) Planning and Design
Objectives
On completion of this course, the participants will
be able to:
Describe the functions and features of OptiX
BWS 1600S products
Describe OptiX BWS 1600S system access
capacity
Identify wavelength distribution and service
process ability for OptiX BWS 1600S products
Evaluate the network resilience, which include
network architecture, protection mechanisms,
signal flow and network capacity
Outline the designing procedure of OptiX BWS
1600S network
Fulfill the hardware configuration of OptiX BWS
1600S products
Complete the exercises of OptiX BWS 1600S
network design
Target Audience
Senior network planning & design engineers
Prerequisites
Completion of OTC47 OptiX WDM/NG WDM
Network Design Basics course or having
equivalent knowledge
Content
1600S Equipment Network Overview
Major Designing Process of 1600S Equipment
Network
Other Designing of 1600S Equipment Network
Hardware review
System capacity and transmission distance
Typical configuration rules
Submarine Network Designing Information
Introduction
Submarine Network Designing Exercises
Training Methods
Lecture, Case-study
Duration
3 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 73
1.3.42 OTC80 OptiX OSN 3800A/6800A System Network Commissioning
Objectives
On completion of this course, the participants will
be able to:
Perform the network commissioning of OptiX
OSN 3800A/6800A equipment by U2000
Perform the network optical power
commissioning
Perform WDM service configuration, include
optical layer and electrical layer grooming
Configure the WDM protection and test the
protection
Eliminate the fault occurring during the
commissioning process
Target Audience
OptiX OSN 3800A/6800A network commissioning
engineer
Prerequisites
Completion of OTC54 OptiX OSN
3800A/6800A Hardware Description &
Application course or having equivalent
knowledge
Content
Network commissioning of OptiX OSN
3800A/6800A equipment by U2000
Network optical power commissioning
WDM service configuration, include optical
layer and electrical layer grooming
Configure the WDM protection and test the
protection
Troubleshooting during the commissioning
process
Training Methods
Lecture, Hands-on exercise
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 74
1.3.43 OTC81 OptiX WDM 40G100G Coherent OTU Technology
Objectives
On completion of this course, the participants will
be able to:
Describe the key technologies for 40G/100G
transmission
Describe the PDM-BPSK and PDM-QPSK
modulation method
Describe the basic principle of coherent
detection
List the main functions and features of the
40G/100G coherent OTU board
Target Audience
Engineers or managers who need to know 100G
OTU
Prerequisites
Having the basic knowledge of WDM and
telecommunication
Content
40/100G Transport Network Requirements and
Technical Challenges
Key Technologies for 40G/100G Transmission
Huawei 40G/100G Transmission Technologies
and Applications
Training Methods
Lecture
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 75
1.3.44 OTC82 OptiX NG WDM PID Special Topic
Objectives
On completion of this course, the participants will
be able to:
List the key technologies for WDM PID
Describe the functions and features of WDM
PID
List the NE type and signal flow of OptiX NG
WDM PID system
Explain the network application and protection
machnism of OptiX NG WDM PID system
Perform the commissioning and service
configuration of OptiX NG WDM PID system
Target Audience
WDM series equipment operation and
maintenance engineer
Prerequisites
Having the basic knowledge of WDM
Having the working experience of WDM O&M
Content
PID Feature
PID Boards Description
Typical Configuration
Networking and Application
Preparations for PID Configuration
ENQ2 Application Scenario
NPO2 Application Scenario
Physical and Logical Ports(ENQ2)
Physical and Logical Ports(NPO2)
Configuring Cross-Connection with Other
Board
Configuring ODUk SNCP Protection for PID
Boards
Configuring Cross-Connection with Other
Board
Configuring ODUk SNCP Protection for PID
Boards
Training Methods
Lecture, Hands-on exercise
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 76
1.3.45 OTC85 OptiX NG WDM Packet Technology Introduction
Objectives
On completion of this course, the participants will
be able to:
Describe the bacis concepts of Ethernet, VLAN
and QinQ
Describe the classification of IP addresses
Describe the basic concepts of MPLS
Describe the basic concepts of MPLS-TP
Describe the basic concepts of PWE3
Target Audience
OSN 8800 (Packet) operation and maintenance
engineer
Prerequisites
Having a general knowledge of communication
network
Having the general knowledge of WDM
equipment
Content
Ethernet Overview,VLAN, QinQ
TCP/IP Protocol Overview
IP Address Introduction and Configuration
MPLS Overview
MPLS LSP Introduction
MPLS Tunnel Network Application
MPLS-TP Overview
PWE3 Overview
Ethernet PWE3
Training Methods
Lecture
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 77
1.3.46 OTC86 OptiX OSN 8800 (Packet) Hardware, Networking & Application
Introduction
Objectives
On completion of this course, the participants will
be able to:
Describe the OSN 8800 hardware
List the OSN 8800 packet boards
Describe the networking application of OSN
8800 (Packet)
Illustrate the service and protection type of
OSN 8800 (Packet)
Target Audience
OSN 8800 (Packet) operation and maintenance
engineer
Prerequisites
Having a general knowledge of communication
network
Having the general knowledge of WDM
equipment
Content
OptiX OSN 8800 hardware overview
OptiX OSN 8800 Packet Boards Introduction
OptiX OSN 8800 Packet Networking
OptiX OSN 8800 Packet Service Introduction
OptiX OSN 8800 Packet Network Protection
Training Methods
Lecture
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 78
1.3.47 OTC87 OptiX OSN 8800 Packet Service Configuration
Objectives
On completion of this course, the participants will
be able to:
Implement the data configuration through
iManager U2000 for OSN 8800 packet service
and protection
Target Audience
OSN 8800 (Packet) operation and maintenance
engineer
Prerequisites
Having a general knowledge of communication
network
Having the general knowledge of WDM
equipment
Content
OptiX OSN 8800 Packet Services
Configuration
OptiX OSN 8800 Packet Prtection
Configuration
OptiX OSN 8800 Packet Services
Configuration Practice
OptiX OSN 8800 Packet Prtection
Configuration Pracitce
Training Methods
Lecture, Hands-on exercise
Duration
2 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 79
1.3.48 OTC88 OptiX OSN 8800 Packet Features
Objectives
On completion of this course, the participants will
be able to:
Describe the function and features of QoS in
OSN 8800 (Packet)
Implement the QoS configuration through
iManager U2000
Describe the function and features of OAM in
OSN 8800 (Packet)
Implement the OAM configuration through
iManager U2000
Target Audience
OSN 8800 (Packet) operation and maintenance
engineer
Prerequisites
Having a general knowledge of communication
network
Having the general knowledge of WDM
equipment
Content
QoS Overview
QoS Models
QoS Technology
Application of QoS in OSN 8800 Equipment
QoS Configuration Practice in OSN 8800
Ethernet Port OAM
Ethernet Service OAM
MPLS-TP OAM
Ethernet Port OAM Configuration Practice
Ethernet Service OAM Configuration Practice
MPLS-TP OAM Configuration Practice
OAM testing
Training Methods
Lecture, Hands-on exercise
Duration
1.5 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 80
1.3.49 OTC89 OptiX OSN 8800 (Packet) Routine Maintenance
Objectives
On completion of this course, the participants will
be able to:
Implement the NMS side routine maintenance
for OSN 8800 (Packet)
Target Audience
OSN 8800 (Packet) operation and maintenance
engineer
Prerequisites
Having a general knowledge of communication
network
Having the general knowledge of WDM
equipment
Content
NMS Side Routine Maintenance Items
Daily Maintenance Items
Monthly Maintenance Items
Quarterly Maintenance Items
Other NMS Side Operation
Training Methods
Lecture, Hands-on exercise
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 81
1.3.50 OTC90 OptiX OSN 8800 (Packet) System Troubleshooting
Objectives
On completion of this course, the participants will
be able to:
List the common analysis methods of packet
network fault locating
Outline the fault handling flow
Analyze the typical faults: service interruption,
APS switching failed, OAM errors,etc
Illustrate the application of common
troubleshooting methods for packet network
Analyze common faulty of the OSN 8800
(Packet) network
Target Audience
OSN 8800 (Packet) operation and maintenance
engineer
Prerequisites
Having a general knowledge of communication
network
Having the general knowledge of WDM
equipment
Content
OptiX OSN 8800 Packet troubleshooting
preparation
OptiX OSN 8800 Packet troubleshooting
method
OptiX OSN 8800 Packet troubleshooting
analyze ideas
OptiX OSN 8800 Packet troubleshooting case
study
Training Methods
Lecture, Hands-on exercise
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 82
1.3.51 OTC110 OptiX NG WDM Packet Network Planning and Design
Objectives
On completion of this course, the participants will
be able to:
Describe the application of OptiX NG WDM
packet system
Outline the equipment capacity for packet
service access of OptiX NG WDM system
Outline the common boards for packet service
of OptiX NG WDM equipment
Choose the right equipment according to the
service demand
Consider all the required main points for
planning a OptiX NG WDM packet network
List the procedure for designing the OptiX NG
WDM packet network
Perform the OptiX NG WDM packet network
design
Target Audience
OptiX NG WDM packet network planning
design engineer
Prerequisites
Having working experience in the planning and
design of NG WDM Packet Network
Content
Network location of OptiX NG WDM packet
product
Packet capability of OptiX NG WDM product
OptiX NG WDM packet network overview
OptiX NG WDM packet network design
workflow
OptiX NG WDM packet network structure
design
OptiX NG WDM packet network service design
OptiX NG WDM packet site design
Training Methods
Lecture, Case-study
Duration
3 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 83
1.3.52 OTC111 OptiX OSN 1800 System Introduction
Objectives
On completion of this course, the participants will
be able to:
Describe the network applications of OptiX
OSN 1800 equipment.
Explain the system structure and features of
OptiX OSN 1800 equipment.
State the main functions of the cards in the
OptiX OSN 1800 equipment.
System signal flow of OSN 1800
The protection and design principle of OSN
1800
Metro access backhaul application acenes of
OSN 1800
Key factors in networking of OSN 1800
Target Audience
OptiX OSN 1800 operation and maintenance
engineer
Prerequisites
Having working experience in the maintenance
of WDM products
Be familiar with Windows operating system
Content
OptiX OSN 1800 system overview
OptiX OSN 1800 chassis
OptiX OSN 1800 boards
OptiX OSN 1800 System Signal Flow
Network Applications
Metro Access Backhaul Application Scenes
Key Factors in Networking
Training Methods
Lecture
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 84
1.3.53 OTC112 OptiX OSN 1800 Packet Service Configuration
Objectives
On completion of this course, the participants will
be able to:
Describe OSN 1800 product feature (packet)
Master packet services configuration
Outline the configuration of protection for OSN
1800 (packet)
Target Audience
OptiX OSN 1800 operation and maintenance
engineer
Prerequisites
Having working experience in the maintenance
of WDM products
Be familiar with Windows operating system
Content
Creating a Network
Packet Service Configuration
Packet Service Protection Configuration
ETH PWE3 service configuration practice
Native Ethernet Service configuraiton practice
CES service configuration practice
ATM PWE3 service configuration practice
Protection Configuration practice
Training Methods
Lecture, Hands-on exercise
Duration
1.5 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 85
1.3.54 OTC113 OptiX OSN 1800 Packet Features
Objectives
On completion of this course, the participants will
be able to:
Describe the function and features of QoS in
OSN 1800 (Packet)
Implement the QoS configuration through
iManager U2000
Describe the function and features of OAM in
OSN 1800 (Packet)
Implement the OAM configuration through
iManager U2000
Target Audience
OptiX OSN 1800 operation and maintenance
engineer
Prerequisites
Having working experience in the maintenance
of WDM products
Be familiar with Windows operating system
Content
QoS Overview
QoS Models
QoS Technology
Application of QoS in OSN 1800 Equipment
QoS Configuration Practice in OSN 1800
Ethernet Port OAM
Ethernet Service OAM
MPLS-TP OAM
Ethernet Port OAM Configuration Practice
Ethernet Service OAM Configuration Practice
MPLS-TP OAM Configuration Practice
OAM testing
Training Methods
Lecture, Hands-on exercise
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 86
1.3.55 OTC114 OptiX OSN 1800 (Packet) Routine Maintenance
Objectives
On completion of this course, the participants will
be able to:
List the items of routine maintenance
Grasp the basic operation of maintenance on
U2000
Implement routine operation and maintenance
Target Audience
OptiX OSN 1800 operation and maintenance
engineer
Prerequisites
Having working experience in the maintenance
of WDM products
Be familiar with Windows operating system
Content
Equipment Side Routine Maintenance
NMS Side Routine Maintenance Items
Daily Maintenance Items
Monthly Maintenance Items
Quarterly Maintenance Items
Other NMS Side Operation
Training Methods
Lecture, Hands-on exercise
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 87
1.3.56 OTC115 OptiX OSN 1800 (Packet) System Troubleshooting
Objectives
On completion of this course, the participants will
be able to:
List the common analysis methods of packet
network fault locating
Outline the fault handling flow
Analyze the typical faults: service interruption,
APS switching failed, OAM errors,etc
Illustrate the application of common
troubleshooting methods for packet network
Analyze common faulty of the OSN 1800
(Packet) network
Target Audience
OptiX OSN 1800 operation and maintenance
engineer
Prerequisites
Having working experience in the maintenance
of WDM products
Be familiar with Windows operating system
Content
OptiX OSN 1800 Packet troubleshooting
preparation
OptiX OSN 1800 Packet troubleshooting
method
OptiX OSN 1800 Packet troubleshooting
analyze ideas
OptiX OSN 1800 Packet troubleshooting case
study
Training Methods
Lecture, Hands-on exercise
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 88
1.3.57 OTC116 OptiX OSN 9800 Hardware Description & Application
Objectives
On completion of this course, the participants will
be able to:
List the main functions and features of OptiX
OSN 9800
Outline the layout of OptiX OSN 9800 subrack
Generalize the categories of boards
List the main functions and features of the
boards
List different usage of the common OptiX OSN
9800 network node Types.
Describe OptiX OSN 9800 network application
modes and main features.
List key factors in OptiX OSN 9800 networking
Explain the principles of various protection
types applied in the OSN 9800 products
Describe the characteristics of various
protection types and their application scenarios
Perform the operations related to the OSN
9800 product protection
Configure client 1+1 protection and ODUk
subnet connection protection (SNCP)
Target Audience
OptiX OSN 9800 operation and maintenance
engineer
Prerequisites
Having working experience in the maintenance
of WDM products
Be familiar with Windows operating system
Content
OSN 9800 Network Application
Product Features
Cabinet, Subrack
Frame
OSN 9800 Boards Description
OSN 9800 Network Hierarchy and System
Architecture
OSN 9800 Node Type
Network Applications
Key Factors in WDM Networking
Equipment Level Protection
Optical Layer Protection
Electrical Layer Protection
Configuring Client 1+1 Protection (Manually by
Station)
Configuring ODUk SNCP (SNC/I) Protection
(Manually by Station)
Configuring ODUk SNCP (SNC/N) Protection
(Manually by Trail)
Training Methods
Lecture
Duration
2 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 89
1.3.58 OTC117 OptiX OSN 9800 Products Configuration
Objectives
On completion of this course, the participants will
be able to:
Able to create an OptiX OSN 9800 network by
iManager U2000
Backup database by iManager U2000
Describe the FOADM and ROADM features
Describe the FOADM and ROADM application
scope
Understand the FOADM and ROADM
functional units and the matching relations of
these functional units
Configure optical layer services by U2000
Diagram the electrical layer service grooming
model of OptiX OSN 9800
List the boards which have electrical layer
cross-connect function
Configure electrical layer services
independently by station
Configure end-to-end electrical layer services
independently by trail
Outline the equipment operation precautions
Perform the basic maintenance operations
Replace the boards
List the items of routine maintenance.
Grasp the basic operation of maintenance on
U2000
Implement routine operation and maintenance
on NMS side
Target Audience
OptiX OSN 9800 operation and maintenance
engineer
Prerequisites
Having working experience in the maintenance
of WDM products
Be familiar with Windows operating system
Content
Preparation for Data Configuration
Creating a Network
Backing up NE Database
Start U2000
Create NEs
Configuring the NE Data
Create Optical NEs
Create Fibers
Synchronize the NE Time
Setting Performance Monitoring Parameters of
an NE
Basic Concepts
Creating Single-Station Optical
Cross-Connection
Configuring End-to-End OCh Trail
Create Optical Cross-connection Station by
Station
Create Optical Cross-Connection by Trail
OptiX OSN 9800 Electrical Layer Grooming
OptiX OSN 9800 Electrical Layer Data
Configuration
Service Configuration in Single NE Mode
Service Configuration in E2E Mode
Operation Precautions
Basic Maintenance Operations
Replacing Boards and Components
Equipment Routine Maintenance Items
NMS Side Routine Maintenance Items
Daily Maintenance Items
Monthly Maintenance Items
Semiyearly Maintenance Items
Other NMS Side Operation
Optical Power Management
Alarm Management
Performance Management
DCN Management
COMMERCIAL IN CONFIDENCE 90
Trail Management
Report Management
Training Methods
Lecture, Hands-on exercise
Duration
2.5 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 91
1.3.59 OTC118 OptiX OSN 9800 Commissioning
Objectives
On completion of this course, the participants will
be able to:
Review NG WDM network node signal flow
List the common indices on optical power
calculation
Calculate the optical power
Perform the Optical Power Commissioning
List the Optical Power Commissioning
Procedures
Perform the Optical Power Commissioning for
100Gbit/s, 40Gbit/s and Hybrid Transmission
System
Understand the Operations Related to Tests
Performing
Target Audience
OptiX OSN 9800 operation and maintenance
engineer
Prerequisites
Having working experience in the maintenance
of WDM products
Be familiar with Windows operating system
Content
Review of the OptiX NG WDM signal flow
Basic concepts
Power calculation of OptiX NG WDM OSC
Power calculation of OptiX NG WDM main Path
Preparations for Commissioning
Commissioning Optical Power
40Gbit/s Non-Coherent System Optical Power
Commissioning
100Gbit/s Coherent System Optical Power
Commissioning
Hybrid Transmission System Optical Power
Commissioning
Performing Tests
Training Methods
Lecture, Hands-on exercise
Duration
1.5 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 92
1.3.60 OTC119 OptiX OSN 9800 System Troubleshooting
Objectives
On completion of this course, the participants will
be able to:
Describe the basic thoughts and methods of
fault
locatingComprehend the methods of rectifying
different types of faults
List the common methods for trouble shooting
Analyze common faults independently.
Handle typical faults
Target Audience
OptiX OSN 9800 operation and maintenance
engineer
Prerequisites
Having working experience in the maintenance
of WDM products
Be familiar with Windows operating system
Content
Basic rules and methods of OptiX NG WDM
fault locating
Rectifying different types of OptiX NG WDM
faults
Troubleshooting Methods Review
Cases Discussion
Training Methods
Lecture, Hands-on exercise
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 93
1.3.61 OTC120 OptiX OSN 9800 Hardware Description & Application Overview
Objectives
On completion of this course, the participants will
be able to:
List the main functions and features of OptiX
OSN 9800
Outline the layout of OptiX OSN 9800 subrack
Generalize the categories of boards
List the main functions and features of the
boards
List different usage of the common OptiX OSN
9800 network node Types.
Describe OptiX OSN 9800 network application
modes and main features.
List key factors in OptiX OSN 9800 networking
Explain the principles of various protection
types applied in the OSN 9800 products
Describe the characteristics of various
protection types and their application scenarios
Perform the operations related to the OSN
9800 product protection
Configure client 1+1 protection and ODUk
subnet connection protection (SNCP)
Target Audience
OptiX OSN 9800 operation and maintenance
engineer
Prerequisites
Having working experience in the maintenance
of WDM products
Be familiar with Windows operating system
Content
OSN 9800 Network Application
Product Features
Cabinet, Subrack
Frame
OSN 9800 Boards Description
OSN 9800 Network Hierarchy and System
Architecture
OSN 9800 Node Type
Network Applications
Key Factors in WDM Networking
Equipment Level Protection
Optical Layer Protection
Electrical Layer Protection
Training Methods
Lecture
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 94
1.3.62 OTC121 OptiX OSN 9800 Products Configuration Overview
Objectives
On completion of this course, the participants will
be able to:
Able to create an OptiX OSN 9800 network by
iManager U2000
Backup database by iManager U2000
Describe the FOADM and ROADM features
Describe the FOADM and ROADM application
scope
Understand the FOADM and ROADM
functional units and the matching relations of
these functional units
Configure optical layer services by U2000
Diagram the electrical layer service grooming
model of OptiX OSN 9800
List the boards which have electrical layer
cross-connect function
Configure electrical layer services
independently by station
Configure end-to-end electrical layer services
independently by trail
Outline the equipment operation precautions
Perform the basic maintenance operations
Replace the boards
List the items of routine maintenance.
Grasp the basic operation of maintenance on
U2000
Implement routine operation and maintenance
on NMS side
Target Audience
OptiX OSN 9800 operation and maintenance
engineer
Prerequisites
Having working experience in the maintenance
of WDM products
Be familiar with Windows operating system
Content
Preparation for Data Configuration
Creating a Network
Backing up NE Database
Start U2000
Create NEs
Configuring the NE Data
Create Optical NEs
Create Fibers
Synchronize the NE Time
Setting Performance Monitoring Parameters of
an NE
Basic Concepts
Creating Single-Station Optical
Cross-Connection
Configuring End-to-End OCh Trail
Create Optical Cross-connection Station by
Station
Create Optical Cross-Connection by Trail
OptiX OSN 9800 Electrical Layer Grooming
OptiX OSN 9800 Electrical Layer Data
Configuration
Service Configuration in Single NE Mode
Service Configuration in E2E Mode
Operation Precautions
Basic Maintenance Operations
Replacing Boards and Components
Equipment Routine Maintenance Items
NMS Side Routine Maintenance Items
Daily Maintenance Items
Monthly Maintenance Items
Semiyearly Maintenance Items
Other NMS Side Operation
Optical Power Management
Alarm Management
Performance Management
DCN Management
COMMERCIAL IN CONFIDENCE 95
Trail Management
Report Management
Training Methods
Lecture, Hands-on exercise
Duration
2 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 96
1.3.63 OTC123 OptiX MDS 6630(Optical Power Commissioning)
Objectives
On completion of this course, the participants will
be able to:
Describe the main functions of MDS 6630
Outline the optical commissioning procedure by
MDS 6630
Perform the basic operations of MDS 6630
Describe the Attention Matters for
Commissioning
Master the common methods for
troubleshooting
Analyze and handle the common
commissioning faults
Target Audience
OptiX NG WDM commissioning engineer
Prerequisites
Having working experience in the maintenance
of WDM products
Be familiar with Windows operating system
Content
MDS 6630 Overview
Main Functions of MDS 6630
Operations of MDS 6630
Preparation for Commissioning
New Deployment Commissioning
Expansion Commissioning
Online Optimization
Attention Matters for MDS 6630
Common Troubleshooting Thoughts and
Methods
Rectifying Different Types of Faults
Common Troubleshooting Cases
Training Methods
Lecture, Hands-on exercise
Duration
2 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 97
1.3.64 OTC128 OptiX OSN 68008800 100G Operation and Maintenance
Objectives
On completion of this course, the participants will
be able to:
Describe the position and networking ability of
OptiX OSN 6800/8800
Outline the layout of OptiX OSN 6800/8800
subrack
Generalize the categories of boards
List different usage of the common NG WDM
network node types
Describe NG WDM network application modes
and main features
Describe the key technologies for 40G/100G
transmission
Describe the PDM-BPSK and PDM-QPSK
modulation method
Describe the basic principle of coherent
detection
List the main functions and features of the
40G/100G coherent OTU board
Configure the common data configuation by
U2000
Configure the OCh trail by U2000
Configure 100G board electrical layer services
by iManager U2000
List the Items of Routine Maintenance;
Grasp the basic operation of maintenance on
U2000
Implement routine operation and maintenance
on NMS side
Describe the optical power commissioning
requirements
List the optical power commissioning
procedures
Perform the optical power commissioning for
100Gbit/s and mixed transmission system
List the items of testing the network
Master the common methods for trouble
shooting
Analyze common faults
Handle typical faults
Target Audience
OptiX NG WDM operation and maintenance
engineer
Prerequisites
Completion of OptiX NG WDM relatvie
technical training
Content
OptiX OSN 68008800 100G Hardware
Description
OptiX OSN 68008800 100G Networking
Description
40/100G Transport Network Requirements and
Technical Challenges
Key Technologies for 40G/100G Transmission
Huawei 40G/100G Transmission Technologies
and Applications
Creating Single-Station Optical
Cross-Connection
Configuring End-to-End OCh Trail
Basic Concepts of the Electrical Layer
Grooming
Boards Involved in Electrical Layer Grooming
WDM Services Configuring Example
NMS Side Routine Maintenance Items
Daily Maintenance Items
Monthly Maintenance Items
Semiyearly Maintenance Items
Other NMS Side Operation
Basic Concept
Preparations for Commissioning
NE Optical Power Commissioning
100G Coherent/Mixed System Optical Power
Commissioning
Network Testing Items
COMMERCIAL IN CONFIDENCE 98
Troubleshooting Methods Review
Cases Discussion
Training Methods
Lecture, Hands-on exercise
Duration
5 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 99
1.3.65 OTC122 OptiX OSN 3800/6800/8800 Hardware Description & Signal Flow
Review
Objectives
On completion of this course, the participants will
be able to:
Describe the position and networking ability of
OptiX OSN 3800/6800/8800
List the main functions and features of OptiX
OSN 3800/6800/8800
Generalize the categories of boards
List the main functions and features of the
boards
Outline typical node signal flow of OptiX OSN
3800/6800/8800
Target Audience
OptiX NG WDM operation and maintenance
engineer
Prerequisites
Completion of OptiX NG WDM relatvie
technical training
Content
System Knowledge Review
Boards Description Review
Signal Flow Review
Training Methods
Lecture
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 100
1.4 OSS Training Course Descriptions
1.4.1 ONU12 iManager U2000 LCT Operation
Objectives
On completion of this course, the participants will
be able to:
List the main menus of iManager U2000 LCT
Perform the NE configuration, service
configuration for NG SDH equipment via
U2000 LCT
Perform the routine maintenance via U2000
LCT
Target Audience
U2000 LCT user
Prerequisites
Having the knowledge of Windows OS
Content
Network Position of U2000 LCT
Login U2000 LCT
Service Configuration of NG SDH Equipment
Routine Maintenance for NG SDH Equipment
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
1 working day
Class Size
Min 6, max 16
COMMERCIAL IN CONFIDENCE 101
1.4.2 OTD00 Solaris & Sybase Basics
Objectives
On completion of this course, the participants will
be able to:
Outline the main features of Solaris
Perform some basic operation of SUN
workstation
Describe some basic commands of Solaris
Outline the main features of Sybase
Start, shutdown, backup and restore Sybase
database
Describe some basic SQL language
Target Audience
U2000 operator and maintainer
Prerequisites
NA
Content
Solaris Introduction
SUN Workstation Introduction
Solaris Commands and Configuration
Sybase Introduction
Basic Operations of Sybase
Training Methods
Lecture, Hands-on exercise
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 102
1.4.3 OTD01 OptiX iManager T2000 Basic Operation
Objectives
On completion of this course, the participants will
be able to:
Describe the architecture and main features of
T2000V2
Describe the directory structure of T2000V2
List the main functions of T2000V2
Perform the basic operations of T2000, such as
start/stop T2000 server and client, backup
database, browsing alarms and performance,
browsing help, etc
Target Audience
T2000 operator and maintainer
Prerequisites
Familiar with Windows operating system
Content
Telecommunications Management Network
Network Management Layer of T2000
Architecture of T2000
Interfaces of T2000V2
Features of T2000V2
Processes of T2000V2
License Introduction
The Main Directory Structure of T2000V2
T2000 Server Directory Structure
NE Management
Network Protection Management
Trail Configuration and Management
Clock Management
Fault Management
Performance Management
Security and Data Management
DCN Management
Drawings and Reports
ASON Management
T2000 V2R7 System Architecture Introduction
T2000 V2R7 Interface Overview
Introduction to the Network Management
System Maintenance Suite
Starting and Shutting Down T2000
Checking T2000 and Opening Online Help
Configuring at One Node and Querying
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 103
1.4.4 OTD02 OptiX iManager Security & Database Management
Objectives
On completion of this course, the participants will
be able to:
Explain the concept of security management
Complete the operation of NE and NMS
security management
Explain the concept of data management
Complete the operation of NE and NMS data
management
Target Audience
T2000 operator and maintainer
Prerequisites
Familiar with Windows operating system
Content
NE Security Management
NMS Security Management
Operation Log Management
NE Data Management
NM Data Management
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 104
1.4.5 OTD03 OptiX iManager T2000 Routine Maintenance & Troubleshooting
Objectives
On completion of this course, the participants will
be able to:
List T2000 routine maintenance items
Perform operations of routine maintenance
Complete routine maintenance for T2000 and
network
List the common analysis methods of fault
localization
Locate T2000 NMS faults
Get the experience for T2000 troubleshooting
Analyze and handle the typical faults
Target Audience
T2000 operator and maintainer
Prerequisites
Completion of OTD02 OptiX iManager Security
& Database Management course
Content
Check NE/Board Status
Browse Alarms/Performance/Abnormal Events
Real-Time Managing Networkwide Alarm Trails
Check Optical Power
Check Networkwide Maintenance Status
Check Protection Switching Status
Browse Security Logs
Back Up and Restore NE Database
Set a Scheduled Task
Collect Equipment Data
Disable Service-Affecting Settings
Automatically
Check Running Conditions of T2000
Check Communication between T2000 and
NEs
Browse Current Alarms
View Information in “System Monitor”
Check Solaris Error Logs
Back Up and Restore T2000 Data
View Server Time
Consistency Check between T2000 and NEs
General Thoughts About T2000
Troubleshooting
Common faults Analysis and Localization
Typical Troubleshooting Cases on Windows
OS
Typical Troubleshooting Cases on Solaris OS
Veritas Troubleshooting Cases
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 105
1.4.6 OTD06 OptiX iManager T2000 Veritas Standby System Operation &
Maintenance
Objectives
On completion of this course, the participants will
be able to:
Outline the main features of Solaris
Perform some basic operation of SUN
workstation
Describe some basic commands of Solaris
Outline the main features of Sybase
Start, shutdown, backup and restore Sybase
database
Describe some basic SQL language
Outline Veritas Hot Backup System Basic
Concepts
Describe Veritas Volume Management and
Replication Principle
Describe Veritas Cluster Management Working
Principle
Perform Veritas hot backup system basic
operations
Execute Veritas hot backup system routine
maintenance
Perform Veritas hot backup system
troubleshooting
Outline Veritas Hot Backup System Installation
Preparations
Describe Veritas Hot Backup System
Installation Procedure
List Veritas Hot Backup System Installation
Checking Items
Target Audience
T2000 Veritas system administrator
Prerequisites
Completion of OTD00 Solaris & Sybase
Basics course or having equivalent knowledge
Content
Solaris Introduction
SUN Workstation Introduction
Solaris Commands and Configuration
Sybase Introduction
Basic Operations of Sybase
Veritas Hot Backup System Basic Knowledge
Veritas Hot Backup System Overview
Veritas Volume Management
Veritas Volume Replicator
Veritas Cluster Management
Setting up VCS interface
Starting Veritas hot backup system
Shutting down Veritas hot backup system
Switching manually from Primary to Secondary
Switching manually from Secondary to Primary
Operation precautions
Incremental Synchronization
Full Synchronization
Routine Maintenance
Troubleshooting
Installation Preparations
Installation Procedure
Checking the Correctness of Installation
Training Methods
Lecture, Hands-on exercise
Duration
4 working days
Class Size
Min 2, max 6
COMMERCIAL IN CONFIDENCE 106
1.4.7 OTD07 OptiX iManager T2000V2R7 Delta
Objectives
On completion of this course, the participants will
be able to:
Describe the architecture and main features of
T2000V2
Describe the directory structure of T2000V2
List the main functions of T2000V2
Grasp T2000 V2R7 new function
Describe the architecture and main features of
T2000V2R7
Describe the directory structure of T2000V2R7
List the main functions of T2000V2R7
List the new features of T2000V2R7
Describe the realization method of the new
features
Perform the operation of the new features
Describe the concepts and architecture of
T2000V2R7 distributing management system
List the functions of T2000V2R7 distributing
management system
Add instance in distributing management
system
Perform the routine maintenance
Target Audience
T2000 administrator and maintainer
Prerequisites
Be familiar with OptiX iManager T2000 V2R7
version before
Content
Telecommunications Management Network
Network Management Layer of T2000
Architecture of T2000
Interfaces of T2000V2
Features of T2000V2
Processes of T2000V2
License Introduction
The Main Directory Structure of T2000V2
T2000 Server Directory Structure
NE Management
Network Protection Management
Trail Configuration and Management
Clock Management
Fault Management
Performance Management
Security and Data Management
DCN Management
Drawings and Reports
ASON Management
T2000 V2R7 System Architecture Introduction
T2000 V2R7 Interface Overview
Introduction to the Network Management
System Maintenance Suite
Management capacity develop
SDH platinum services management
The wavelength resource stat. between WDM
station
Packet RTN E2E services management
PTN E2E services mgmt
Distribute management system
ATCA blade server
Principle of T2000 Distributed System
Installation of T2000 Distributed system
Maintenance of T2000 Distributed System
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
2 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 107
1.4.8 OTD08 U2100 System Operation and Maintenance
Objectives
On completion of this course, the participants will
be able to:
List the features and basics of Solaris and
Sybase
Describe the basic command of Solaris and
Sybase
Describe the system structure, management
capacity and menus of iManager U2100
Browse the SDH/WDM/PTN/Hybrid MSTP trail
and their alarm through iManager U2100
Create and delete SDH/WDM/PTN/Hybrid
MSTP trail through iManager U2100
Check the running status of U2100 and perform
the routine maintenance
Perform the U2100 troubleshooting, deal the
NMS and network problems with U2000
Target Audience
U2100 adminstrator and operator.
Prerequisites
Participating the training of HUAWEI
SDH/WDM/PTN/Hybrid MSTP engineer
training
Having the maintenance experience of
HUAWEI equipment.
Having at least one year experience of
operation and maintenance
Content
Solaris Introduction
SUN Workstation Introduction
Solaris Commands and Configuration
Sybase Introduction
Basic Operations of Sybase
The architecture and main features of U2100
The directory structure of U2100
The main functions of U2100
The concepts of security management
The operation of U2100 security management
The concept of data management
The operation of U2100 data management
U2100 Basic Operaton Practice
U2100 Security Management Practice
U2100 Database Management Practice
U2100 routine maintenance items
The operations of routine maintenance
The common analysis methods of fault
localization
The typical faults in Windows platform
The typical faults in Solaris platform
U2100 WDM Protection Subnet Management
U2100 WDM Trail Management
Data layer of U2100
SDH Protection Subnet Management
SDH Trail Management
Hybrid MSTP Service Configuration
PTN Tunnel Configuration
PTN PWE3 Configuration
PTN E-Line Service Configuration
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
5 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 108
1.4.9 OTD80 OptiX iManager T2000 System Introduction
Objectives
On completion of this course, the participants will
be able to:
Describe the architecture and main features of
T2000V2
Describe the directory structure of T2000V2
List the main functions of T2000V2
Grasp T2000 V2R7 new function
Describe the architecture and main features of
T2000V2R7
Describe the directory structure of T2000V2R7
List the main functions of T2000V2R7
Target Audience
T2000 operator and maintainer
Prerequisites
Familiar with Windows operating system
Content
Telecommunications Management Network
Network Management Layer of T2000
Architecture of T2000
Interfaces of T2000V2
Features of T2000V2
Processes of T2000V2
License Introduction
The Main Directory Structure of T2000V2
T2000 Server Directory Structure
NE Management
Network Protection Management
Trail Configuration and Management
Clock Management
Fault Management
Performance Management
Security and Data Management
DCN Management
Drawings and Reports
ASON Management
T2000 V2R7 System Architecture Introduction
T2000 V2R7 Interface Overview
Introduction to the Network Management
System Maintenance Suite
Training Methods
Lecture
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 109
1.5 MSTP Training Course Descriptions
1.5.1 OTA08 Hybrid MSTP Network Overview
Objectives
On completion of this course, the participants will
be able to:
Describe the background of OptiX Hybrid
MSTP
Explain the service characters of OptiX Hybrid
MSTP
Describe the networking characters of OptiX
Hybrid MSTP
Outline the difference of OptiX Hybrid MSTP
network from other network technology
Target Audience
Technical manager or key staff
Prerequisites
NA
Content
Background of OptiX Hybrid MSTP
Evolution of OptiX Hybrid MSTP
Network Characters of OptiX Hybrid MSTP
Comparison with Other Network Solutions
Training Methods
Lecture
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 110
1.5.2 OTA09 Introduction to OptiX Products
Objectives
On completion of this course, the participants will
be able to:
List the function of transmission network
Describe the network application of the OptiX
NG SDH & OCS system
Describe the structure of the OptiX NG SDH &
OCS equipment
List the main cards of the OptiX NG SDH &
OCS equipment
Understand the features of the OptiX NG SDH
& OCS equipment
Target Audience
a novice at transmission network field who wants
know huawei OptiX products series
Prerequisites
NA
Content
Brief introduction of OptiX NG SDH & OCS
equipment
System structure of OptiX NG SDH & OCS
equipment
Hardware structure of OptiX NG SDH & OCS
equipment
Main features of OptiX OptiX NG SDH &
OCS equipment
Training Methods
Lecture
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 111
1.5.3 OTA10 OptiX SDH Ethernet Operation and Maintenance
Objectives
On completion of this course, the participants will
be able to:
Outline the classification of Ethernet service
Explain the function and applications of
different types Ethernet service
List the main Ethernet boards of OptiX NG
SDH & OCS equipment
Describe the functions and application of the
Ethernet boards of OptiX NG SDH & OCS
equipment
Describe the features of the Ethernet boards
Accomplish the Ethernet service
EPL/EVPL/EPLAN configuration through NMS
State the purpose of Ethernet performance
testing
List the common indices of Ethernet service
performance testing
Explain the concepts of common testing
indices
Outline the testing methods of Ethernet service
performance testing
Implement the Ethernet performance testing
and analyze the result
Target Audience
Ethernt over SDH equipment operation and
maintenance engineer
Prerequisites
Completion of OTA03 Ethernet Basics course
or having basic knowledge on Ethernet
technology
Content
Basic Concepts
EPL
EVPL
EPLAN
EVPLAN
Ethernet Transparent Transmission Boards
Ethernet L2 Switching Boards
Ethernet RPR Boards
Ethernet Service Switching Boards
Ethernet Interface Boards
MPLS (Multi-Protocol Label Switching)
QinQ (VLAN stacking and nesting technology)
LCAS (Link Capacity Adjustment Scheme)
LPT (Link State Pass Through)
STP/RSTP (Spanning Tree Protocol/Rapid
STP)
IGMP Snooping (Internet Group Management
Protocol Snooping)
CAR (Committed Access Rate)
Traffic Shaping
ETH-OAM (Ethernet Operations,
Administration and Maintenance)
Ethernet Board Protection
Configuring EPL Services
Configuring PORT-Shared EVPL (VLAN)
Services
Configuring VCTRUNK-Shared EVPL (VLAN)
Services
Configuring Ingress/Egress EVPL (MPLS)
Services
Configuring EPLAN Services (IEEE 802.1d
Bridge)
Configuring EVPLAN Services (IEEE 802.1q
Bridge)
State the purpose of Ethernet performance
testing
List the common indices of Ethernet service
performance testing
Explain the concepts of common testing
indices
Outline the testing methods of Ethernet service
performance testing
Categories of Ethernet
Basic principle of Ethernet
COMMERCIAL IN CONFIDENCE 112
Ethernet port Technology
VLAN basis & L2 Switching
Ethernet performance testing and analyzing
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
3 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 113
1.5.4 OTA12 ASON Operation and Maintenance
Objectives
On completion of this course, the participants will
be able to:
Implement the creation of ASON network
Create SLA services and test the protection
and restoration of them
Conduct the maintenance operation of ASON
network
Explain the operation precaution of ASON
Explain the fault reported by the ASON network
Outline the methods of ASON troubleshooting
Solve the typical ASON trouble
Target Audience
ASON operation and maintenance engineer
Prerequisites
Completion of OTA07 ASON Basics course or
having basic knowledge on ASON technology
Content
ASON Enabling
Service Configuration
ASON Maintenance and Management
Intelligent Abnormal Events
Intelligent Link Management
Intelligent Services Management
Single Station ASON Items Check
ASON NE Database Backup
Precautions on Software Configuration
Precautions on Hardware Operations
Precautions on NMS Operations
ASON Troubleshooting Idea and Method
Control Plane Troubleshooting
Service Plane Troubleshooting
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
2 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 114
1.5.5 OTA13 OptiX SDH Network Design Basics
Objectives
On completion of this course, the participants will
be able to:
Describe the structure of SDH network
Outline the service types of SDH network
Illustrate the common protection mechanism of
SDH network
List the procedures of SDH network design
Describe the basic factors that should be
involved in the SDH network design
Accomplish the SDH/PDH service design
Target Audience
SDH junior planner engineer
Prerequisites
Completion of OTA00 SDH Overview course or
having basic knowledge on SDH technology
Content
SDH Network Design Process
SDH Network Data Collection
SDH Network Architecture Design
SDH Network Service Design
SDH Network Station Design
Requirement
SDH Network Design Steps
SDH Network Design Case
Training Methods
Lecture, Hands-on exercise
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 115
1.5.6 OTA14 OptiX SDH System Troubleshooting
Objectives
On completion of this course, the participants will
be able to:
List the common analysis methods of fault
locating
Outline the fault handling flow
Analyze the typical faults: traffic interruption,
error bit, etc
Illustrate the application of common
troubleshooting methods, such as loop-back,
testing, alarm and performance events analysis,
replacement, etc
Analyze common faulty of the network consist
of OptiX NG SDH & OCS series
Locate and eliminate faults, get experience
from troubleshooting practice
Target Audience
SDH series equipment operation and maintenance
engineer
Prerequisites
Completion of OTA01 SDH Principle course or
having basic knowledge on SDH technology
Completion of OTA31 OptiX NG SDH & OCS
Products Configuration course or having
working experience on OptiX SDH Products
Content
Troubleshooting Preparation
Troubleshooting Idea and Methods
Classified Troubleshooting Examples
Troubleshooting Preparation
Troubleshooting Idea and Methods
Classified Troubleshooting Examples
Troubleshooting Requirement
Collection the trouble phenomenon
Analyze the possible reason
Locate the classified trouble, include NMS
trouble, ECC problem, service interrupt, bit
error, etc)
Summary
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
2 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 116
1.5.7 OTA15 OptiX Metro 100/500 Operation and Maintenance
Objectives
On completion of this course, the participants will
be able to:
Describe the network applications of the OptiX
Metro 100
Explain the system structure and features of
the OptiX Metro 100
State the main functions of the cards in the
OptiX Metro 100
Outline the system protection modes of the
OptiX Metro 100
Describe the network application of OptiX
Metro 500
Outline the hardware structure and features of
OptiX Metro 500
List the functions of OptiX Metro 500
Describe operation environment of OptiX Metro
100/500 equipment
List the maintenance tasks of OptiX Metro
100/500 equipment
Accomplish the basic maintenance operations
of OptiX Metro 100/500 equipment
Describe the functions of basic menus of
Web-LCT
Perform the NE configuration, board
configuration, service dispatching and clock &
orderwire configuration for equipment via
Web-LCT
Perform the routine maintenance via Web-LCT
Target Audience
OptiX Metro 100/500 operation and maintenance
engineer
Prerequisites
NA
Content
OptiX Metro 100 Network application &
system introduction
Chassis
Cards
Protection
OptiX Metro 500 Network application
Hardware structure
Units introduction
Main features of OptiX Metro 500
Operation Environment
Basic Operations and Precautions
Equipment Maintenance Records
Login Web-LCT
Configure NE Through Web-LCT
Maintenance NE Through Web-LCT
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 117
1.5.8 OTA16 OptiX Metro 1000 First Line Maintenance
Objectives
On completion of this course, the participants will
be able to:
Describe the network applications of the OptiX
155/622H(Metro 1000) V300
Explain the system structure and features of
the OptiX 155/622H(Metro 1000) V300
State the main functions of the cards in the
OptiX 155/622H(Metro 1000) V300
Outline the system protection modes of the
OptiX 155/622H(Metro 1000) V300
Describe operation environment of OptiX Metro
1000 equipment
List the maintenance tasks of OptiX Metro 1000
equipment
Accomplish the basic maintenance operations
of OptiX Metro 1000 equipment
Outline the function of basic menus of OptiX
iManager T2000 LCT
Create topology including create NE/Link/NM
Perform the NE configuration, board
configuration, service dispatching and
protection configuration for equipment via
OptiX iManager T2000 LCT
Perform the routine maintenance via T2000
LCT
Target Audience
OptiX Metro 1000 field maintenance engineer
Prerequisites
NA
Content
Network application and system structure
Sub-rack
Equipment Cards
Common Network Elements and Configuration
Equipment Level and Network Level Protection
Operation Environment
Basic Operations and Precautions
Equipment Maintenance Records
Starting and Shutting Down the T2000-LCT
Opening/Closing the Online Help
Selecting Operation Objects
Setting Parameters in the List
Operation Precautions
Configure Services
Maintenance
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 118
1.5.9 OTA17 OptiX Metro 1000 Commissioning
Objectives
On completion of this course, the participants will
be able to:
Describe the network applications of the OptiX
155/622H(Metro 1000) V300
Explain the system structure and features of
the OptiX 155/622H(Metro 1000) V300
State the main functions of the cards in the
OptiX 155/622H(Metro 1000) V300
Outline the system protection modes of the
OptiX 155/622H(Metro 1000) V300
Complete hardware and software
commissioning of OptiX Metro 1000 equipment
Interconnect all the equipment and perform
system commissioning
Outline the function of basic menus of OptiX
iManager T2000 LCT
Create topology including create NE/Link/NM
Perform the NE configuration, board
configuration, service dispatching and
protection configuration for equipment via
OptiX iManager T2000 LCT
Perform the routine maintenance via T2000
LCT
Target Audience
OptiX Metro 1000 commissioning engineer
Prerequisites
Completion of OTA01 SDH Principle course or
having equivalent knowledge
Content
Network application and system structure
Sub-rack
Equipment Cards
Common Network Elements and Configuration
Equipment Level and Network Level Protection
Preparations before Commissioning
Single Station Commissioning
Network Commissioning
Starting and Shutting Down the T2000-LCT
Opening/Closing the Online Help
Selecting Operation Objects
Setting Parameters in the List
Operation Precautions
Configure Services
Maintenance
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
4 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 119
1.5.10 OTA18 OptiX Metro 1000 Second Line Maintenance
Objectives
On completion of this course, the participants will
be able to:
Describe the network applications of the OptiX
155/622H(Metro 1000) V300
Explain the system structure and features of
the OptiX 155/622H(Metro 1000) V300
State the main functions of the cards in the
OptiX 155/622H(Metro 1000) V300
Outline the system protection modes of the
OptiX 155/622H(Metro 1000) V300
Describe operation environment of OptiX Metro
1000 Equipment
List the maintenance tasks of OptiX Metro 1000
Equipment
Accomplish the basic maintenance operations
of OptiX Metro 1000 Equipment
Grasp T2000 V2R7 new function
Describe the architecture and main features of
T2000V2R7
Describe the directory structure of T2000V2R7
List the main functions of T2000V2R7
Accomplish the network creation and SDH
service configuration of OptiX
155/622(H)(Metro 1000) equipment
List the common analysis methods of fault
locating
Outline the fault handling flow
Analyze the typical faults: traffic interruption,
error bit, etc
Target Audience
OptiX Metro 1000 operation and maintenance
engineer
Prerequisites
Completion of OTA01 SDH Principle course or
having basic knowledge on SDH technology
Content
Network application and system structure
Sub-rack
Equipment Cards
Common Network Elements and Configuration
Equipment Level and Network Level Protection
Operation Environment
Basic Operations and Precautions
Equipment Maintenance Records
Telecommunications Management Network
Network Management Layer of T2000
Architecture of T2000
Interfaces of T2000V2
Features of T2000V2
Processes of T2000V2
License Introduction
The Main Directory Structure of T2000V2
T2000 Server Directory Structure
NE Management
Network Protection Management
Trail Configuration and Management
Clock Management
Fault Management
Performance Management
Security and Data Management
DCN Management
Drawings and Reports
ASON Management
T2000 V2R7 System Architecture Introduction
T2000 V2R7 Interface Overview
Introduction to the Network Management
System Maintenance Suite
Engineering Requirement
Engineering Planning
Engineering Preparation
Configuration Process
Troubleshooting Preparation
COMMERCIAL IN CONFIDENCE 120
Troubleshooting Idea and Methods
Classified Troubleshooting Examples
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
4 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 121
1.5.11 OTA26 OptiX NG SDH & OCS Installation
Objectives
On completion of this course, the participants will
be able to:
Describe the features of the OptiX NG SDH &
OCS equipment
Outline the main boards of the OptiX NG SDH
& OCS equipment
List the equipment installation procedure
Describe the preparation for installation
State the required equipment room
environment and grounding condition checks
Verify the cabinet, cables and component
installations
Target Audience
OptiX NG SDH & OCS equipment installation
engineer
Prerequisites
NA
Content
OptiX NG SDH & OCS Cabinet
Sub-rack
Boards
Installation Process
Room and Grounding Requirement
Installation Criteria
Installation Checklist
NA
Training Methods
Lecture, Multi-media
Duration
2 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 122
1.5.12 OTA27 OptiX NG SDH & OCS Product Overview
Objectives
On completion of this course, the participants will
be able to:
List the function of transmission network
Describe the network application of the OptiX
NG SDH & OCS system
Describe the structure of the OptiX NG SDH &
OCS equipment
List the main cards of the OptiX NG SDH &
OCS equipment
Understand the features of the OptiX NG SDH
& OCS equipment
Target Audience
Non-technical manager
OptiX NG SDH & OCS products novice
engineers
Prerequisites
NA
Content
Brief introduction of OptiX NG SDH & OCS
equipment
System structure of OptiX NG SDH & OCS
equipment
Hardware structure of OptiX NG SDH & OCS
equipment
Main features of OptiX OptiX NG SDH &
OCS equipment
Training Methods
Lecture
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 123
1.5.13 OTA28 OptiX NG SDH & OCS System Description
Objectives
On completion of this course, the participants will
be able to:
Illustrate the networking applications of the
OptiX NG SDH & OCS equipment
Describe the system structure and features of
the OptiX NG SDH & OCS equipment
Outline the system protection schemes of the
OptiX NG SDH & OCS equipment
Target Audience
Technical managers
OptiX NG SDH & OCS planing engineer
OptiX NG SDH & OCS field engineer
Prerequisites
NA
Content
OptiX NG SDH & OCS Product Introduction
Cabinet, Sub-rack, Boards
Equipment Features
Training Methods
Lecture
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 124
1.5.14 OTA29 OptiX NG SDH & OCS Hardware Description (TDM)
Objectives
On completion of this course, the participants will
be able to:
Describe the network applications of the OptiX
NG SDH & OCS equipment
Explain the system structure and features of
the OptiX NG SDH & OCS equipment
Outline the system protection modes of the
OptiX NG SDH & OCS equipment
State the main functions of the cards in the
OptiX NG SDH & OCS equipment
Target Audience
OptiX NG SDH & OCS operation and
maintenance engineer
Prerequisites
Completion of OTA00 SDH Overview course or
having basic knowledge on SDH technology
Content
OptiX OSN 1500250035007500 Product
Introduction
The Cabinet, Sub-rack of OptiX OSN
1500250035007500
The Boards of OptiX OSN 1500250035007500
Common Network Elements and Configuration
Features
OptiX OSN 9500 Product Introduction
Cabinet, Sub-rack, Boards
The Cabinet, Sub-rack, Boards of OptiX OSN
9500
Equipment Features of OptiX OSN 9500
Training Methods
Lecture
Duration
1.5 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 125
1.5.15 OTA30 OptiX SDH Equipment Operation and Maintenance
Objectives
On completion of this course, the participants will
be able to:
Outline the operation environment of OptiX
SDH series equipment
List the status description of OptiX SDH series
equipment indicators
List the maintenance items of OptiX SDH
series equipment
Perform the basic maintenance operations of
OptiX SDH series equipment
Complete the maintenance records of OptiX
SDH series equipment
Target Audience
OptiX SDH operation and maintenance engineer
Prerequisites
Completion of OTA28 OptiX NG SDH & OCS
System Description course or having basic
knowledge on SDH technology
Content
Safety labels
Laser precautions
Electrical precautions
Precautions for Board Handling
Precautions for Fiber Handling
Equipment Operation Environment Monitoring
Equipment Maintenance Operation
Equipment Maintenance Records
Equipment Operation Environment Monitoring
Equipment Maintenance Operations
Equipment Operation and Maintenance Guide
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 126
1.5.16 OTA31 OptiX NG SDH & OCS Products Configuration
Objectives
On completion of this course, the participants will
be able to:
Accomplish the network protection and SDH
service configuration through NMS
Target Audience
OptiX NG SDH & OCS operation and
maintenance engineer
Prerequisites
Completion of OTA01 SDH Principle and
OTA29 OptiX NG SDH & OCS Hardware
Description (TDM) courses or having
equivalent knowledge
Content
NA
1+1 Linear MS Protection Configuration
1:1 Linear MS Protection Configuration
Two-fiber Bidirectional MS Protection Ring
Configuration
SNCP Ring with Non-protection Chain
Configuration
Training Methods
Hands-on exercise
Duration
2 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 127
1.5.17 OTA32 OptiX NG SDH & OCS Commissioning
Objectives
On completion of this course, the participants will
be able to:
Describe the preparation for the commissioning
List the items for single station commissioning
for OptiX NG SDH & OCS system
Outline the procedures of network
commissioning for OptiX NG SDH & OCS
system
Summarize the equipment/network condition
after commissioning
Accomplish the OptiX NG SDH & OCS
system commissioning
Target Audience
OptiX NG SDH & OCS commissioning engineer
Prerequisites
Completion of OTA01 SDH Principle and
OTA29 OptiX NG SDH & OCS Hardware
Description (TDM) courses or having
equivalent knowledge
Content
Preparations before Commissioning
Single Station Commissioning
Network Commissioning
Checking hardware
Testing Power-on of the Cabinet
Testing subrack functions
Configuring the commissioning data, and
testing the all buses
Testing the ALMC/RESET Button on the SCC
Testing on/off of all electrical interfaces
Testing the indices of optical/electrical interface
Testing TPS
Testing active/standby board switching
Testing PDH channels in Series
Checking the Network-wide Fiber Connection
Checking Connection Between the T2000
Computer and the Equipment
Configuring Network
Testing ECC
Testing Service Channel Availability
Testing Self-Healing Protection
Testing Clock Protection and Orderwire
Testing Network-wide BER
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
2 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 128
1.5.18 OTA34 OptiX NG SDH & OCS Features and Application
Objectives
On completion of this course, the participants will
be able to:
Describe the principle and process of TPS on
OptiX NG SDH equipment
List the main characteristics of TPS on OptiX
NG SDH equipment
Implement the configuration of TPS on OptiX
NG SDH equipment
Describe the feature of power source system in
OptiX NG SDH & OCS system
Grasp the protection principle and function of
all types of power sources in OptiX NG SDH &
OCS equipments
Grasp the principle of cross-connection &
clock active/standby switching in OptiX NG
SDH & OCS system
Grasp the mechanism of cross-connection &
clock active/standby switching in OptiX NG
SDH & OCS system
Describe the principle of SCC active/standby
switching in OptiX NG SDH & OCS system
List the methods of SCC switching in OptiX NG
SDH & OCS system
Describe the traffic flow and service
configuration about the complicated networks
Analyze the protection capability about the
complicated networks
Accomplish the service configuration of the
complicated network and verify the protection
Target Audience
OptiX NG SDH & OCS senior operation and
maintenance engineer
Prerequisites
Completion of OTA01 SDH Principle and
OTA28 OptiX NG SDH & OCS System
Description courses or having equivalent
knowledge
Content
TPS Overview
Mechanism and Process of TPS
Configuration of TPS
Power Supply and 1+1 Protection
1:N Protection System for Board 3.3V Power
Integrated Installation and Application of OptiX
OSN 1500 Power System
Principle of Active/Standby Cross- Connection
Principle of Active/Standby Clock
Switching of Active/Standby Cross- Connection
& Clock
Active/Standby
Overhead Principle of Active/Standby SCC
Board Intercommunication
Principle of Active/Standby SCC
Data Backup between Active/Standby SCC
Switching of Active/Standby SCC
Precautions during Switching
Tangency Rings
Intersection Rings
Fiber-Shared Virtual Trail Protection
SNCP&SNCP Tangential Rings
SNCP&MSP Tangential Rings
SNCP&SNCP Intersectional Rings
MSP&MSP Intersectional Rings
SNCP&MSP Intersectional Rings
MSP&SNCP Fiber-Shared Virtual Trail
Protection
SNCP&SNCP Fiber-Shared Virtual Trail
Protection
OptiX OSN 1500/2500/3500 Equipments TPS
Protection Overview
OptiX OSN 1500/2500/3500 TPS Protection
Mechanism
OptiX OSN 1500/2500/3500 TPS Configuration
COMMERCIAL IN CONFIDENCE 129
Power Supply and 1+1 Protection of OptiX
OSN 1500/2500/3500
1:N Protection System for Board 3.3V Power
Compositive Installation and Application of
OptiX OSN 1500 Power System
Principle of Active/Standby Cross-Connection
Principle of Active/Standby Clock
Active/Standby Switching of Cross Connection
& Clock
Switching Cautions
Active/Standby SCC Overhead Realization
Principle
Active/Standby SCC Communication Principle
The Backup Mode of Active/Standby SCC
OptiX OSN 1500/2500/3500 Active/Standby
SCC Switching
Switching Cautions
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
3 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 130
1.5.19 OTA35 OptiX SDH Equipment Field Maintenance
Objectives
On completion of this course, the participants will
be able to:
Outline the function of basic menus of OptiX
iManager T2000 LCT
Create topology including create NE/Link/NM
Perform the NE configuration, board
configuration, service dispatching and
protection configuration for equipment via
OptiX iManager T2000 LCT
Perform the routine maintenance via T2000
LCT
Target Audience
OptiX SDH field operation and maintenance
engineer
Prerequisites
Completion of OTA28 OptiX NG SDH & OCS
System Description course or having basic
knowledge on SDH technology
Content
Starting and Shutting Down the T2000-LCT
Opening/Closing the Online Help
Selecting Operation Objects
Setting Parameters in the List
Operation Precautions
Configure Services
Maintenance
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 131
1.5.20 OTA36 OptiX SDH Special Topics
Objectives
On completion of this course, the participants will
be able to:
Explain the meaning of clock protection related
synchronization parameters
Explain the basic principles of implementing
clock protection networking
Accomplish the clock protection configuration
and verify it while the network fails
Grasp the working principle of ECC
Describe the network application of ECC and
how to separate huge ECC network into
smaller networks
Illustrate the extended applications of ECC
Accomplish the configuration of ECC, verify
extended ECC and DCC transparent
transmission
Outline common ECC command lines
Target Audience
OptiX NG SDH & OCS senior operation and
maintenance engineer
Prerequisites
Completion of OTA01 SDH Principle course or
having basic knowledge on SDH technology
Content
Basics Concepts of Clock Protection
Principle of Clock Protection Configuration
Standard SSM Protocol Clock Protection
Analysis
Extended SSM Protocol Clock Protection
Analysis
Principles of OptiX Equipment Clock Protection
Clock protection configuration in ring topology
Clock protection configuration in ring with chain
Clock protection configuration in tangency ring
Basic Concepts
ECC Network Application and Division of Huge
ECC Network
ECC Applications and Configurations
Extended ECC Configuration
DCC Transparent Transmission
ECC Huge Network Division
ECC Allocation
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
2 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 132
1.5.21 OTA37 OptiX SDH System Advanced Troubleshooting
Objectives
On completion of this course, the participants will
be able to:
Get further understand of the feature of OptiX
NG SDH & OCS system
Analyze common cases in the real network and
figure out the problem
Locate the faulty of the failed network and
summarize the key point of troubleshooting
Target Audience
OptiX NG SDH & OCS senior operation and
maintenance engineer
Prerequisites
Completion of OTA14 OptiX SDH System
Troubleshooting course or having basic
knowledge on SDH technology
Content
Troubleshooting Preparation
Troubleshooting Idea and Methods
Classified Troubleshooting Examples
Get further understand of the feature of OptiX
NG SDH & OCS system
Analyze common cases in the real network and
figure out the problem
Locate the faulty of the failed network and
summarize the key point of troubleshooting
Analyze common cases in the real network and
figure out the problem
Training Methods
Lecture, Hands-on exercise, Discussion
Duration
2.5 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 133
1.5.22 OTA39 OptiX OSN 2000 Operation & Maintenance
Objectives
On completion of this course, the participants will
be able to:
Appreciate the networking applications of the
OptiX OSN 2000
Describe the system structure and features of
the OptiX OSN 2000
Describe the main functions of the boards used
on the OptiX OSN 2000
Outline the system protection schemes of the
OptiX OSN 2000
Describe the common SDH network topology
and features
Explain the protection mechanism
Configure the attributes of equipment via NMS
Configure protection attributes in OptiX OSN
2000 network, such as SNCP,LMP,RMP etc
Configure services of OptiX OSN 2000
Grasp T2000 V2R7 new function
Describe the architecture and main features of
T2000V2R7
Describe the directory structure of T2000V2R7
List the main functions of T2000V2R7
Outline the operation environment of OptiX
SDH series equipment
List the status description of OptiX SDH series
equipment indicators
List the maintenance items of OptiX SDH
series equipment
Perform the basic maintenance operations of
OptiX SDH series equipment
Complete the maintenance records of OptiX
SDH series equipment
Perform the basic maintenance operations of
OptiX SDH series equipment
Complete the maintenance records of OptiX
SDH series equipment
Know the operation environment of NMS
List the maintenance tasks
Perform the basic maintenance operations
Complete the maintenance records
Perform the basic maintenance operations
Complete the maintenance records
List the common analysis methods of fault
locating
Outline the fault handling flow
Analyze the typical faults: traffic interruption,
error bit, etc
Analyze case of service interruption
Analyze case of bit error
Analyze case of protection fault
Analyze case of wrong fiber type
Target Audience
OptiX OSN 2000 operation and maintenance
engineer
Prerequisites
Completion of OTA01 SDH Principle course or
having basic knowledge on SDH technology
Content
OptiX OSN 2000 Product Introduction
Cabinet、Subrack and Boards
Features
Optical networking introduction
Classification of topologies
Sub-networks
Survivable networks introduction
Types of protection
Configuring SDH/PDH Services
Configuring Services in Different Protection
Schemes
Configuring Ethernet Services
Configuring the DCN
Telecommunications Management Network
COMMERCIAL IN CONFIDENCE 134
Network Management Layer of T2000
Architecture of T2000
Interfaces of T2000V2
Features of T2000V2
Processes of T2000V2
License Introduction
The Main Directory Structure of T2000V2
T2000 Server Directory Structure
NE Management
Network Protection Management
Trail Configuration and Management
Clock Management
Fault Management
Performance Management
Security and Data Management
DCN Management
Drawings and Reports
ASON Management
T2000 V2R7 System Architecture Introduction
T2000 V2R7 Interface Overview
Introduction to the Network Management
System Maintenance Suite
Safety labels
Laser precautions
Electrical precautions
Precautions for Board Handling
Precautions for Fiber Handling
Equipment Operation Environment Monitoring
Equipment Maintenance Operation
Equipment Maintenance Records
Equipment Operation Environment Monitoring
Equipment Maintenance Operations
Equipment Operation and Maintenance Guide
Routine Maintenance for NMS
Routine Maintenance Operations for Network
through NMS
Browsing and Analyzing NE Alarms
Browsing Performance
Checking Networkwide Maintenance &
Switching Status
Troubleshooting Preparation
Troubleshooting Idea and Methods
Classified Troubleshooting Examples
Service interruption case analyze
Bit error case analyze
Protection fault case analyze
Service instantaneous interruption case
analyze
Training Methods
Lecture, Hands-on exercise
Duration
8 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 135
1.5.23 OTA40 OptiX SDH Equipment NMS Side Maintenance
Objectives
On completion of this course, the participants will
be able to:
Know the operation environment of NMS
List the maintenance tasks
Perform the basic maintenance operations
Complete the maintenance records
Target Audience
OptiX SDH field operation and maintenance
engineer
Prerequisites
Completion of OTA28 OptiX NG SDH & OCS
System Description course or having basic
knowledge on SDH technology
Content
Routine Maintenance for NMS
Routine Maintenance Operations for Network
through NMS
Browsing and Analyzing NE Alarms
Browsing Performance
Checking Networkwide Maintenance &
Switching Status
Training Methods
Lecture
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 136
1.5.24 OTA42 OptiX SDH Ethernet Advanced Operation & Maintenance
Objectives
On completion of this course, the participants will
be able to:
Describe the working mechanism of the L2
switching
Interpret the basic of QoS
Outline the key technology in QoS
Describe the typical QoS application
Describe the frame structure of MPLS
Interpret the basic of QinQ
List the application of MPLS and QinQ
Describe the working mechanism of virtual
concatenation
Describe the function of LCAS
Illustrate the GFP-F frame structure for the
Ethernet signal
Describe the troubleshooting idea and methods
Analyze the common faults locating
Outline the procedures of Ethernet
troubleshooting
Analyze the failure of the Ethernet service
Locate the faulty of the Ethernet service
Compare the function of Ethernet port and
service OAM
Outline the typical application scenario of
Ethernet service OAM
Accomplish the OAM testing
Locate the fault position when error reports
Target Audience
Ethernt over SDH equipment senior operation and
maintenance engineer
Prerequisites
Completion of OTA10 OptiX SDH Ethernet
Operation and Maintenance course or having
equivalent knowledge
Content
L2 Switch Principle
QinQ Introduction
QoS Definition and Function
CAR Definition, Mechanisim and Application
CoS Definition, Mechanisim and Application
Difference between CAR and CoS
Shapping Definition, Mechanism and
Application
Queue Classification and Mechanism
MPLS Overview
MPLS Work Mode
MPLS Network and Application
QinQ Overview
QinQ Process Mode
QinQ Network and Application
Comparision between MPLS and QinQ
Contiguous Concatenation
Virtual Concatenation
LCAS
Encapsulation Technology
Background Knowledge
Ethernet Maintenance Operations
Ethernet Troubleshooting Idea and Method
Common Reasons of Ethernet Service
Problem
Common Troubleshooting Cases
Troubleshooting Requirement
Collection the trouble phenomenon
Analyze the possible reason
Locate the trouble
Test the service
Summary
Ethernet Port OAM
Ethernet Service OAM
ETH OAM Configuration and testing
Ethernet Port OAM
COMMERCIAL IN CONFIDENCE 137
Ethernet Service OAM
Ethernet troubleshooting cases analyze
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
4 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 138
1.5.25 OTA45 Hybrid MSTP Technology Introduction
Objectives
On completion of this course, the participants will
be able to:
Describe the classification of IP addresses
Describe the basic concepts of MPLS
Describe the basic concepts of MPLS-TP
Outline the QinQ application scenarios of OptiX
Hybrid MSTP
Describe the basic concepts of PWE3
Outline the typical PWE3 encapsulation format
for Ethernet
Outline the typical PWE3 encapsulation format
for TDM E1
Target Audience
Hybrid MSTP operation and maintenance engineer
Hybrid MSTP novice engineer
Prerequisites
Completion of OTA01 SDH Principle and
OTA03 Ethernet Basics courses or having
equivalent knowledge
Content
TCP/IP Protocol Overview
IP Address Introduction and Configuration
MPLS Overview
MPLS LSP Introduction
MPLS-TP Introduction
MPLS Tunnel Network Application
QinQ Overview
PWE3 Overview
Ethernet PWE3
TDM E1 PWE3
Training Methods
Lecture
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 139
1.5.26 OTA46 Hybrid MSTP Network Application
Objectives
On completion of this course, the participants will
be able to:
Describe OptiX Hybrid MSTP product
networking
Outline the protection types of OptiX Hybrid
MSTP product
Classify the service types of Ethernet
Outline the types and applications of Ethernet
Target Audience
OptiX OSN 500/550 operation and maintenance
engineer
Prerequisites
Completion of OTA45 Hybrid MSTP
Technology Introduction course or having basic
knowledge on SDH technology
Content
Hybrid MSTP Networking
Hybrid MSTP Service Introduction(E-Line,
E-LAN, E-AGGR, TDM E1, MS-PW)
MPLS-TP Protection
Training Methods
Lecture
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 140
1.5.27 OTA48 OptiX Hybrid MSTP Hardware Description
Objectives
On completion of this course, the participants will
be able to:
Describe the networking applications of the
OptiX OSN 1500/3500/7500/7500II
Describe the system structure of the OptiX
OSN 1500/3500/7500/7500II
Outline the main boards of the OptiX OSN
1500/3500/7500/7500II
Outline the system protection schemes of the
OptiX OSN 1500/3500/7500/7500II
Target Audience
Hybrid MSTP operation and maintenance engineer
Prerequisites
Completion of OTA45 Hybrid MSTP Basics
course or having basic knowledge on SDH
technology
Content
OptiX OSN 1500350075007500II Product
Introduction
Cabinet, Sub-rack
Hybrid MSTP Boards
Hybrid MSTP Typical Hardware
Hybrid MSTP Configuration
Hybrid MSTP Protection
Training Methods
Lecture
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 141
1.5.28 OTA49 OptiX Hybrid MSTP Products Configuration
Objectives
On completion of this course, the participants will
be able to:
Configure OptiX Hybrid MSTP products
Configure the protection of TDM plane &
packet transport plane for the network and
equipment
Configure the common services for the TDM
plane
Configure the E-Line/E-LAN/E-AGGR service
in the packet transport plane
Target Audience
Hybrid MSTP operation and maintenance engineer
Prerequisites
Completion of OTA48 OptiX Hybrid MSTP
Hardware Description course or having basic
knowledge on SDH technology
Content
Configuring E-Line Services
Configuring E-LAN Services
Configuring E-AGGR Services
Configuration Task Collection
Configuring E-Line Services
Configuring E-LAN Services
Configuring E-AGGR Services
Configuration Task Collection
Training Methods
Hands-on exercise, E-lab
Duration
3 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 142
1.5.29 OTA50 OptiX Hybrid MSTP Features Application
Objectives
On completion of this course, the participants will
be able to:
Outline the QoS model
Describe QoS basic concepts
Outline the key technology in QoS
Describe the typical QoS application in Hybrid
MSTP network
Configure QoS in Hybrid MSTP system
according to the service demand
Compare the function of Ethernet port and
service OAM
Outline the typical application scenario of
Ethernet service OAM
Describe the working mechanism and
application scene of MPLS OAM
Describe the working mechanism and
application scene of MPLS-TP OAM
Describe the working mechanism and
application scene of PW OAM
Accomplish the OAM testing
Locate the fault position when error reports
Target Audience
Hybrid MSTP operation and maintenance engineer
Prerequisites
Completion of OTA45 Hybrid MSTP Basics and
OTA49 OptiX Hybrid MSTP Products
Configuration courses or having basic
knowledge on SDH technology
Content
QoS Overview
QoS Models
QoS Technology
Application of QoS in MSTP+ Equipment
QoS Overview
QoS Models
QoS Technology
Application of QoS in MSTP+ Equipment
Configure QoS in Hybrid MSTP system
according to the service demand
MPLS OAM
MPLS-TP OAM
MPLS OAM
MPLS-TP OAM
MPLS OAM Configuration and testing
MPLS-TP OAM Configuration and testing
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
2 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 143
1.5.30 OTA51 OptiX Hybrid MSTP Equipment NMS Side Operation and Maintenance
Objectives
On completion of this course, the participants will
be able to:
Describe the operation environment of NMS
List the maintenance tasks for Hybrid MSTP
equipment
Perform the basic maintenance operations for
Hybrid MSTP equipment
Complete the maintenance records
Target Audience
Hybrid MSTP operation and maintenance engineer
Prerequisites
Have basic knowledge in Hybrid MSTP
equipment
Content
NMS Side Routine Maintenance Items
Daily Maintenance Items
Monthly Maintenance Items
Quarterly Maintenance Items
Other NMS Side Operation
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 144
1.5.31 OTA52 OptiX Hybrid MSTP Commissioning
Objectives
On completion of this course, the participants will
be able to:
Check the equipment condition such as power
connections, fiber connections, mounted
boards, etc
Outline and perform the commissioning
process for OptiX Hybrid MSTP equipment
Perform the commissioning process of the
network
Describe methods of operation including circuit
provisioning, routing maintenance tasks and
fault finding
Perform commissioning tests on the equipment
Perform commissioning tests on the network
Target Audience
Hybrid MSTP commissioning engineer
Prerequisites
Completion of OTA48 OptiX Hybrid MSTP
Hardware Description course or having basic
knowledge on SDH technology
Content
Single station commissioning(subrack function
testing, configuring NE parameters, CES
service interface testing, board protection
testing)
System commissioning(configure inter-band
DCN, packet ethernet service testing,
intra-plane service testing, packet network
protection testing)
Preparations for Commissioning
Per-NE Commissioning
System Commissioning
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
2 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 145
1.5.32 OTA53 OptiX Hybrid MSTP Field Maintenance
Objectives
On completion of this course, the participants will
be able to:
Outline the function of basic menus of
iManager U2000 LCT
Create topology including create NE/Link
Perform the NE configuration, board
configuration, and service dispatching and
protection configuration for equipment via
iManager U2000 LCT
Perform the routine maintenance via U2000
LCT
Target Audience
Hybrid MSTP operation and maintenance engineer
Prerequisites
Completion of OTA48 OptiX Hybrid MSTP
Hardware Description course or having basic
knowledge on SDH technology
Content
OptiX iManager U2000 LCT menu
Create NE and Topology
Configure the NE service Create protection
subnet
Routine maintenance operation
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 146
1.5.33 OTA54 OptiX Hybrid MSTP System Troubleshooting
Objectives
On completion of this course, the participants will
be able to:
List the common analysis methods of packet
network fault locating
Outline the fault handling flow
Analyze the typical faults: service interruption,
APS switching failed, OAM errors,etc
Illustrate the application of common
troubleshooting methods for packet network
Analyze common faulty of the Hybrid MSTP
network
Target Audience
Hybrid MSTP operation and maintenance engineer
Prerequisites
Completion of OTA48 OptiX Hybrid MSTP
Hardware Description and OTA49 OptiX Hybrid
MSTP Products Configuration courses or
having basic knowledge on SDH technology
Content
OptiX Hybrid MSTP troubleshooting
preparation
OptiX Hybrid MSTP troubleshooting method
OptiX Hybrid MSTP troubleshooting analyze
ideas
OptiX Hybrid MSTP troubleshooting case study
NA
Troubleshooting Requirement
Collection the trouble phenomenon
Analyze the possible reason
Locate the classified trouble, include Ethernet
service interrupt, packet loss, etc)
Summary
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
1.5 working days
Class Size
Min 6, max 12
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
7 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 147
1.5.34 OTA60 OptiX OSN 500/550/580 (TDM) Hardware & Networking
Objectives
On completion of this course, the participants will
be able to:
Appreciate the networking applications of the
OptiX OSN 500/550/580 (TDM)
Describe the system structure and features of
the OptiX OSN 500/550/580 (TDM)
Describe the main functions of the boards used
on the OptiX OSN 500/550/580 (TDM)
Outline the system protection schemes of the
OptiX OSN 500/550/580 (TDM)
Describe the common SDH network topology
and features
Explain the protection mechanism
Target Audience
OptiX OSN 500/550/580 operation and
maintenance engineer
Prerequisites
Completion of OTA01 SDH Principle course or
having basic knowledge on SDH technology
Content
OptiX OSN 500/550/580 Product Introduction
OptiX OSN 500/550/580 Chassis
OptiX OSN 500/550/580 Boards
OptiX OSN 500/550/580 Features
Optical networking introduction
Classification of topologies
Sub-networks
Survivable networks introduction
Types of protection
Training Methods
Lecture
Duration
1.5 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 148
1.5.35 OTA61 OptiX OSN 500/550/580 (TDM) Routine & Maintenance
Objectives
On completion of this course, the participants will
be able to:
Outline the operation environment of OptiX
OSN 500/550/580 series equipment
List the status description of OptiX OSN
500/550/580 equipment indicators
List the maintenance items of OptiX OSN
500/550/580 equipment
Perform the basic maintenance operations of
OptiX OSN 500/550/580 equipment
Complete the maintenance records of OptiX
OSN 500/550/580 equipment
Target Audience
OptiX OSN 500/550/580 operation and
maintenance engineer
Prerequisites
Completion of OTA01 SDH Principle course or
having basic knowledge on SDH technology
Content
Safety labels
Laser precautions
Electrical precautions
Precautions for Board Handling
Precautions for Fiber Handling
Equipment Operation Environment Monitoring
Equipment Maintenance Operation
Equipment Maintenance Records
Routine Maintenance for NMS
Routine Maintenance Operations for Network
through NMS
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 149
1.5.36 OTA62 OptiX OSN 500/550/580 (TDM) Service & Configuration
Objectives
On completion of this course, the participants will
be able to:
List protection attributes in OSN 500/550/580
network, such as MSP,SNCP,LMP etc
Master TDM services of OSN 500/550/580
Target Audience
OptiX OSN 500/550/580 operation and
maintenance engineer
Prerequisites
Completion of OTA01 SDH Principle course or
having basic knowledge on SDH technology
Content
Basic Concepts
EPL
EVPL
EPLAN
EVPLAN
Protection attributes configuration
TDM service configuration
EVPL service configuration
EPLAN service configuration
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
1.5 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 150
1.5.37 OTA63 OptiX OSN 500/550/580 (TDM) Troubleshooting
Objectives
On completion of this course, the participants will
be able to:
List the common analysis methods of fault
locating
Outline the Fault Handling Flow
Analyze the typical faults: traffic interruption,
error bit, etc
Target Audience
OptiX OSN 500/550/580 operation and
maintenance engineer
Prerequisites
Completion of OTA01 SDH Principle course or
having basic knowledge on SDH technology
Content
Troubleshooting Preparation
Troubleshooting Idea and Methods
Classified Troubleshooting Examples
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 151
1.5.38 OTA64 OptiX OSN 500/550/580 (Packet) Hardware & Networking
Objectives
On completion of this course, the participants will
be able to:
Appreciate the networking applications of the
OptiX OSN 500/550/580(Packet)
Describe the system structure and features of
the OptiX OSN 500/550/580 (Packet)
Describe the main functions of the boards used
on the OptiX OSN 500/550/580(Packet)
Outline the system protection schemes of the
OptiX OSN 500/550/580(Packet)
Describe OptiX Hybrid MSTP product
networking
Outline the protection types of OptiX Hybrid
MSTP product
Classify the service types of packet platform
Target Audience
OptiX OSN 500/550/580 operation and
maintenance engineer
Prerequisites
Completion of OTA45 Hybrid MSTP
Technology Introduction course or having basic
knowledge on SDH technology
Content
OptiX OSN 500/550/580 Product Introduction
OptiX OSN 500/550/580 Chassis
Hybrid MSTP Boards
Hybrid MSTP Features supported by the
equipment
Hybrid MSTP Networking
Hybrid MSTP Service Introduction
Training Methods
Lecture
Duration
1.5 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 152
1.5.39 OTA65 OptiX OSN 500/550/580 (Packet) Routine & Maintenance
Objectives
On completion of this course, the participants will
be able to:
Outline the operation environment of OptiX
OSN 500/550/580 series Equipment
List the status description of OptiX OSN
500/550/580 Equipment indicators
List the maintenance items of OptiX OSN
500/550/580 Equipment
Perform the basic maintenance operations of
OptiX OSN 500/550/580 Equipment
Complete the maintenance records of OptiX
OSN 500/550/580 Equipment
Target Audience
OptiX OSN 500/550/580 operation and
maintenance engineer
Prerequisites
Completion of OTA45 Hybrid MSTP
Technology Introduction course or having basic
knowledge on SDH technology
Content
Safety labels
Laser precautions
Electrical precautions
Precautions for Board Handling
Precautions for Fiber Handling
Equipment Operation Environment Monitoring
Equipment Maintenance Operation
Equipment Maintenance Records
NMS Side Routine Maintenance Items
Daily Maintenance Items
Monthly Maintenance Items
Quarterly Maintenance Items
Other NMS Side Operation
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 153
1.5.40 OTA66 OptiX OSN 500/550/580 (Packet) Service & Configuration
Objectives
On completion of this course, the participants will
be able to:
Master packet services on OSN 500/550/580
Target Audience
OptiX OSN 500/550/580 operation and
maintenance engineer
Prerequisites
Completion of OTA45 Hybrid MSTP
Technology Introduction course or having basic
knowledge on SDH technology
Content
Protection attributes configuration
CES service configuration
E-Line service configuration
VPLS service configuration
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 154
1.5.41 OTA67 OptiX OSN 500/550/580 (Packet) Special Topic
Objectives
On completion of this course, the participants will
be able to:
Describe QoS basic concepts
Outline the QoS model
Outline the key technology in QoS
Describe the typical QoS application in OSN
500/550/580 network
Describe the working mechanism and
application of MPLS OAM
Describe the working mechanism and
application of MPLS PW OAM
Describe the working mechanism and
application of MPLS-TP OAM
Describe the working mechanism and
application of MPLS-TP PW OAM
Target Audience
OptiX OSN 500/550/580 operation and
maintenance engineer
Prerequisites
Completion of OTA45 Hybrid MSTP
Technology Introduction course or having basic
knowledge on SDH technology
Content
QoS Overview
QoS Models
QoS Technology
Application of QoS on OSN 500/550/580
Equipment
MPLS OAM
MPLS –TP OAM
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 155
1.5.42 OTA68 OptiX OSN 500/550/580 (Packet) Troubleshooting
Objectives
On completion of this course, the participants will
be able to:
Be familiar with common methods of locating
faults on a PSN
Know the procedure for locating a fault
Handle common faults on a PSN
Target Audience
OptiX OSN 500/550/580 operation and
maintenance engineer
Prerequisites
Completion of OTA45 Hybrid MSTP
Technology Introduction course or having basic
knowledge on SDH technology
Content
OptiX Hybrid MSTP troubleshooting
preparation
OptiX Hybrid MSTP troubleshooting method
OptiX Hybrid MSTP troubleshooting analyze
ideas
OptiX Hybrid MSTP troubleshooting case study
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 156
1.5.43 OTA69 OptiX OSN 500/550/580 (TDM+Packet) Service & Configuration
Objectives
On completion of this course, the participants will
be able to:
Explain OptiX OSN 500/550/580 (TDM)
Service & Configuration
Master packet services on OSN 500/550/580
Target Audience
OptiX OSN 500/550/580 operation and
maintenance engineer
Prerequisites
Completion of OTA45 Hybrid MSTP
Technology Introduction course and OTA01
SDH Principle course or having basic
knowledge on SDH technology
Content
Protection attributes configuration
TDM service configuration
Protection attributes configuration
CES service configuration
E-Line service configuration
VPLS service configuration
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
1.5 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 157
1.6 RTN Training Course Descriptions
1.6.1 OTF01 Digital Microwave Communication Basics
Objectives
On completion of this course, the participants will
be able to:
Describe the concept and characters of digital
microwave communication
Describe the theory and function of every part
in the digital microwave system
List the networking application for digital
microwave system
List the fadings in microwave propagation
List the common technologies of antifading
Target Audience
OptiX RTN series operation and maintenance
engineer
Prerequisites
Having the basic knowledge about
telecommunications network
Content
Concept and characters of digital microwave
communication
Theory and function of every part in the digital
microwave system
Networking application for digital microwave
system
Fadings in microwave propagation
Common technologies of antifading
Training Methods
Lecture
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 158
1.6.2 OTF02 OptiX RTN 600 Hardware and Network Application
Objectives
On completion of this course, the participants will
be able to:
Describe the main characteristics of OptiX RTN
600
Describe the system structure and software
and hardware structure of OptiX RTN 600
List the types and features of the IDU
List the functions of boards in the IDU, ODU,
Hybrid coupler and antenna
Explain the protection mode of OptiX RTN 600
Explain the functions of AM and Hybrid
Microwave
List the common network types of OptiX RTN
600
Describe the network application of the OptiX
RTN 600
List the network and equipment protection
schemes supported by the OptiX RTN 600
Describe the configuration requirements of all
types of protection mode in OptiX RTN 600
Target Audience
OptiX RTN 600 series operation and maintenance
engineer
Prerequisites
NA
Content
Main characteristics of OptiX RTN 600
system structure and software and hardware
structure of OptiX RTN 600
Types and features of the IDU
Functions of boards in the IDU, ODU, Hybrid
coupler and antenna
Protection modes of OptiX RTN 600
Functions of AM and Hybrid Microwave
Network Application and Networking Modes of
the OptiX RTN 600
Service Protection and Equipment Protection
Schemes of the OptiX RTN 600
Training Methods
Lecture
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 159
1.6.3 OTF03 OptiX RTN 600 Operation & Maintenance
Objectives
On completion of this course, the participants will
be able to:
Describe the functions of the T2000 and the
T2000 Web LCT
Install the T2000 Web LCT
Configure services and protection by using the
T2000 and the T2000 Web LCT
List the routine maintenance items of OptiX
RTN 600
Implement the maintenance operation of OptiX
RTN 600
Judge the common faulty in OptiX RTN 600
Target Audience
OptiX RTN 600 series operation and maintenance
engineer
Prerequisites
Completion of Digital Microwave
Communication Basics and OptiX RTN 600
Hardware and Network Application courses
Content
Functions of the T2000 and the T2000 Web
LCT
Installation of the T2000 Web LCT
Services and protection configuration via using
the T2000 and the T2000 Web LCT
Radio link configuration
TDM services configuration
EPL/EVPL/EPLAN services configuration
Routine maintenance items of OptiX RTN 600
Maintenance operation of OptiX RTN 600
Common faulty handling in OptiX RTN 600
Practice on routine maintenance items of OptiX
RTN 600
Practice on maintenance operation of OptiX
RTN 600
Training Methods
Lecture, Hands-on exercise
Duration
2.5 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 160
1.6.4 OTF05 OptiX RTN 600 Field Maintenance
Objectives
On completion of this course, the participants will
be able to:
List the routine maintenance items of OptiX
RTN 600
Implement the maintenance operation of OptiX
RTN 600
Judge the common faulty in OptiX RTN 600
Target Audience
OptiX RTN 600 series field maintenance engineer
Prerequisites
Completion of OptiX RTN 600 Hardware and
Network Application course or having
equivalent knowledge
Content
Routine maintenance items of OptiX RTN 600
Maintenance operation of OptiX RTN 600
Common faulty handling in OptiX RTN 600
Practice on routine maintenance items of OptiX
RTN 600
Practice on maintenance operation of OptiX
RTN 600
Training Methods
Lecture, Hands-on exercise
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 161
1.6.5 OTF06 OptiX RTN 600 Troubleshooting
Objectives
On completion of this course, the participants will
be able to:
List the common analysis methods of fault
locating
Outline the Fault Handling Flow
Analyze the typical faults: traffic interruption,
error bit, etc
Target Audience
OptiX RTN 600 series maintenance engineer
Prerequisites
Completion of OptiX RTN 600 Hardware and
Network Application and OptiX RTN 600
Operation & Maintenance courses or having
equivalent knowledge
Content
Troubleshooting Tasks in the lab
Common analysis methods of fault locating
Fault Handling Flow
Typical faults analysis: traffic interruption, error
bit, etc
Training Methods
Lecture, Case-study
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 162
1.6.6 OTF07 OptiX RTN 600 Installation
Objectives
On completion of this course, the participants will
be able to:
Describe the relation among the different parts
of OptiX RTN 600
Illustrate the installation procedures and steps
of antenna, ODU/hybrid coupler and IDU
Implement the outdoor and indoor components
installation of OptiX RTN 600
Describe the installation criterions for each part
of OptiX RTN 600
Target Audience
OptiX RTN 600 series installation engineer
Prerequisites
NA
Content
NA
Relation among the different parts of OptiX
RTN 600
Installation procedures and steps of antenna,
ODU/hybrid coupler and IDU
Outdoor and indoor components installation of
OptiX RTN 600
Installation criterions for each part of OptiX
RTN 600
Training Methods
Lecture, Multi-media
Duration
0.5 working day
Class Size
No limit
COMMERCIAL IN CONFIDENCE 163
1.6.7 OTF08 OptiX RTN 600 Commissioning
Objectives
On completion of this course, the participants will
be able to:
Finish proper preparations before the
commissioning
Performing NE commissioning of the OptiX
RTN 600
Performing hop commissioning of the OptiX
RTN 600
Target Audience
OptiX RTN 600 series commissioning engineer
Prerequisites
Completion of OptiX RTN 600 Hardware and
Network Application course or having
equivalent knowledge
Content
Proper preparations before the commissioning
NE commissioning items of the OptiX RTN 600
Hop commissioning items of the OptiX RTN
600
Proper preparations before the commissioning
NE commissioning items of the OptiX RTN 600
Hop commissioning items of the OptiX RTN
600
Training Methods
Lecture, Hands-on exercise
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 164
1.6.8 OTF14 OptiX RTN 900 V100R001 Field Operation & Maintenance
Objectives
On completion of this course, the participants will
be able to:
Describe the main characteristics of OptiX RTN
900 include the AM function
Describe the system structure of OptiX RTN
900
List the functions and features of the boards in
IDU, ODU, Hybrid coupler and antenna
Explain the protection mode of OptiX RTN 900
Describe the classification of the services in the
OptiX RTN 900 network
Describe the networking application of OptiX
RTN 900
List out the protection technologies in OptiX
RTN 900 network
Describe the features and applications of the
protection technologies
List the routine maintenance items of OptiX
RTN 900
Implement the maintenance operation of OptiX
RTN 900
Judge the common faulty in OptiX RTN 900
Target Audience
OptiX RTN 900V100R001 field engineer
Prerequisites
Having the general knowledge of IP, MPLS and
QinQ
Content
Routine maintenance items of OptiX RTN
910/950
Maintenance operation introduction of OptiX
RTN 910/950
Common faulty analysis in OptiX RTN 910/950
Practice on routine maintenance items of OptiX
RTN 910/950
Training Methods
Lecture, Hands-on exercise
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 165
1.6.9 OTF15 OptiX RTN 900 V100R001 Operation & Maintenance
Objectives
On completion of this course, the participants will
be able to:
Complete iManager T2000 ( Web LCT)
software installation
Apply all menus in iManager T2000 (Web LCT)
Implement data configuration and maintenance
operations for OptiX RTN 900 series through
iManager T2000 (Web LCT)
List out the contents, meaning and operation
methods of all the OptiX RTN 900 series
maintenance items
Complete data configuration and daily
maintenance for OptiX RTN 900 series
Explain reasons of OptiX RTN 900 series
common faults and outline the common
methods for troubleshooting
Analyze the common faults of OptiX RTN 900
series and perform the troubleshooting
Target Audience
OptiX RTN 900V100R001 series operation and
maintenance engineer
Prerequisites
Completion of OptiX RTN 900 V100R001
Hardware & Network Application course or
having equivalent knowledge
Content
Steps of RTN910950 service configuration
Ethernet service/CES service /ATM/IMA
services configuration via NMS
Parameters' meaning in service configuration
Ethernet service/CES service /ATM/IMA
services configuration via NMS
Basic concepts of QoS and ETH-OAM
Working principles of QoS
QoS functions of the Ethernet service boards
on the OptiX RTN 910950
Planning principles of QoS
Configuration flow of QoS
Usage of ETH-OAM
State the purpose of Ethernet performance
testing
List the common indices of Ethernet service
performance testing
Explain the concepts of common testing
indices
Outline the testing methods of Ethernet service
performance testing
Categories of Ethernet
Basic principle of Ethernet
Ethernet port Technology
VLAN basis & L2 Switching
Proper preparations before the commissioning
NE commissioning items of the OptiX RTN
910/950
Hop commissioning items of the OptiX RTN
910/950
Network commissioning of the OptiX RTN
910/950
Proper preparations before the commissioning
NE commissioning items of the OptiX RTN
910/950
Hop commissioning items of the OptiX RTN
910/950
Network commissioning of the OptiX RTN
910/950
Troubleshooting flow of OptiX RTN 910/950
Alarms and their causes of OptiX RTN910/950
Troubleshooting handling flow for OptiX RTN
910/950
Troubleshooting Tasks in the lab
Ethernet performance testing and analyzing
Training Methods
Lecture, Hands-on exercise
COMMERCIAL IN CONFIDENCE 166
Duration
7 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 167
1.6.10 OTF17 OptiX RTN 900 V100R002 Hardware & Network Application
Objectives
On completion of this course, the participants will
be able to:
Describe the main characteristics of OptiX RTN
900
Describe the system structure, software and
hardware structure of OptiX RTN 900
List the types and features of the IDU
List the functions of boards in the IDU
List the functions of ODU, Hybrid coupler and
antenna
Explain the protection mode of OptiX RTN 900
Explain the functions of AM and Hybrid
Microwave
Describe the networking application under
PDH/SDH and hybrid microwave modes
List out the protection technologies in OptiX
RTN 900 network
Describe the features and applications of the
protection technologies
Explain the application of OptiX RTN 900
Ethernet services
Target Audience
OptiX RTN 900V100R002 series operation and
maintenance engineer
Prerequisites
NA
Content
Main characteristics of OptiX RTN 910/950
System structure, software and hardware
structure of OptiX RTN 910/950
Types and features of the IDU
Functions of boards in the IDU
Functions of ODU, Hybrid coupler and antenna
Protection mode of OptiX RTN 910/950
Functions of AM and Hybrid Microwave
Describe the networking application under
PDH/SDH and hybrid microwave modes
List out the protection technologies in OptiX
RTN 910/950 network
Describe the features and applications of the
protection technologies
Explain the application of OptiX RTN 910/950
Ethernet services
Training Methods
Lecture
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 168
1.6.11 OTF18 OptiX RTN 900 Installation
Objectives
On completion of this course, the participants will
be able to:
Describe the relation among the different parts
of OptiX RTN 900
Illustrate the installation procedures and steps
of antenna, ODU/hybrid coupler and IDU
Implement the outdoor and indoor components
installation of OptiX RTN 900
Describe the installation criterions for each part
of OptiX RTN 900
Target Audience
OptiX RTN 900 series installation engineer
Prerequisites
NA
Content
Relation among the different parts of OptiX
RTN 900
Installation procedures and steps of antenna,
ODU/hybrid coupler and IDU
Outdoor and indoor components installation of
OptiX RTN 900
Installation criterions for each part of OptiX
RTN 900
Training Methods
Lecture
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 169
1.6.12 OTF19 OptiX RTN 900 V100R002 Commissioning
Objectives
On completion of this course, the participants will
be able to:
Finish proper preparations before the
commissioning
Perform site commissioning of the OptiX RTN
900
Perform system commissioning of the OptiX
RTN 900
Target Audience
OptiX RTN 900 series commissioning engineer
Prerequisites
Completion of OTF17 OptiX RTN 900
V100R002 Hardware & Network Application
course or having equivalent knowledge
Content
Practice on site and system commissioning
Proper preparations before the commissioning
Site commissioning items of the OptiX RTN
910/950
System commissioning items of the OptiX RTN
910/950
Training Methods
Lecture, Hands-on exercise
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 170
1.6.13 OTF20 OptiX RTN 900 V100R002 Field Maintenance
Objectives
On completion of this course, the participants will
be able to:
Outline the general safety precautions of OptiX
RTN 900
List the routine maintenance items of OptiX
RTN 900
Implement the maintenance operation of OptiX
RTN 900
Judge the common faulty in OptiX RTN 900
Target Audience
OptiX RTN 900V100R002 field maintenance
engineer
Prerequisites
Be familiar with RTN 900 V100R002 hardware
Content
General safety precautions of OptiX RTN
910/950
Routine maintenance items of OptiX RTN
910/950
Maintenance operation of OptiX RTN 910/950
Common faulty analysis in OptiX RTN 910/950
Practice on routine maintenance items of OptiX
RTN 910/950
Training Methods
Lecture, Hands-on exercise
Duration
1.5 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 171
1.6.14 OTF21 OptiX RTN 900 V100R002 Data Configuration
Objectives
On completion of this course, the participants will
be able to:
Configure radio links of the OptiX RTN 910950
Configure TDM services of the OptiX RTN
910950
Configure Ethernet services of the OptiX RTN
910950
Target Audience
OptiX RTN 900V100R002 series operation and
maintenance engineer
Prerequisites
Completion of OTF17 OptiX RTN 900
V100R002 Hardware & Network Application
course or having equivalent knowledge
Content
Radio links configuration of the OptiX RTN
910950
TDM services configuration of the OptiX RTN
910950
Ethernet services configuration of the OptiX
RTN 910950
Practice on radio links configuration of the
OptiX RTN 910950
Practice on TDM services configuration of the
OptiX RTN 910950
Practice on Ethernet services configuration of
the OptiX RTN 910950
Training Methods
Lecture, Hands-on exercise
Duration
2 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 172
1.6.15 OTF22 OptiX RTN 900 V100R002 Troubleshooting
Objectives
On completion of this course, the participants will
be able to:
Describe the general troubleshooting flow of
OptiX RTN 900
Outline the methods of faults analyzing and
locating
Perform the common troubleshooting for OptiX
RTN 900
Target Audience
OptiX RTN 900V100R002 series operation and
maintenance engineer
Prerequisites
Completion of OTF17 OptiX RTN 900
V100R002 Hardware & Network Application
and OTF21 OptiX RTN 900 V100R002 Data
Configuration courses or having equivalent
knowledge
Content
General troubleshooting flow of OptiX RTN
910/950
Methods of faults analyzing and locating
Common troubleshooting processing for OptiX
RTN 910/950
Troubleshooting Tasks in the lab
Training Methods
Lecture, Hands-on exercise
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 173
1.6.16 OTF23 Hybrid Services Testing
Objectives
On completion of this course, the participants will
be able to:
Outline the types and applications of Ethernet
Know the technical background of the Ethernet
and its basic concepts
Draw the Ethernet frame structure
Describe the function of VLAN and L2
switching
State the purpose of Ethernet performance
testing
List the common indices of Ethernet service
performance testing
Explain the concept of common testing indices
Outline the testing methods of Ethernet service
performance testing
Target Audience
OptiX RTN 900 series senior operation and
maintenance engineer
Prerequisites
NA
Content
Ethernet performance testing and analyzing
State the purpose of Ethernet performance
testing
List the common indices of Ethernet service
performance testing
Explain the concepts of common testing
indices
Outline the testing methods of Ethernet service
performance testing
Categories of Ethernet
Basic principle of Ethernet
Ethernet port Technology
VLAN basis & L2 Switching
Categories of Ethernet
Basic Principle of Ethernet
Ethernet Port Technology
VLAN Basis & L2 Switching
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
1.5 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 174
1.6.17 OTF24 OptiX RTN 900 V100R002 QOS & OAM Technology
Objectives
On completion of this course, the participants will
be able to:
Outline the basic concepts of QoS and
ETH-OAM
Describe the working principles of QoS
Outline the QoS functions of the Ethernet
service boards on the OptiX RTN 900
List the planning principles of QoS
Describe the configuration flow of QoS
Describe the usage of ETH-OAM
Target Audience
OptiX RTN 900V100R002 series senior operation
and maintenance engineer
Prerequisites
Completion of OTF17 OptiX RTN 900
V100R002 Hardware & Network Application
and OTF21 OptiX RTN 900 V100R002 Data
Configuration courses or having equivalent
knowledge
Having the general knowledge of IP, MPLS and
QinQ
Content
Basic concepts of QoS and ETH-OAM
Working principles of QoS
QoS functions of the Ethernet service boards
on the OptiX RTN 910950
Planning principles of QoS
Configuration flow of QoS
Usage of ETH-OAM
Practice on QoS such as shaping, queue etc
Practice on ETH-OAM such as service OAM
and port OAM
Training Methods
Lecture, Hands-on exercise
Duration
1.5 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 175
1.6.18 OTF25 OptiX RTN 900 V100R002 Clock & DCN Processing
Objectives
On completion of this course, the participants will
be able to:
Manage and configure ECC link
Configure extended ECC
Enable/disable ECC link
Configure IP over DCC
Configure DCC transparent transmission
Configure clock tracing
Configure clock protection
Configure SSM byte in RTN 900
Check clock status in RTN 900 network
Target Audience
OptiX RTN 900V100R002 series senior operation
and maintenance engineer
Prerequisites
Completion of OTF17 OptiX RTN 900
V100R002 Hardware & Network Application
course or having equivalent knowledge
Content
Management and configuration on ECC link
Extended ECC configuration
ECC link enable/disable
IP over DCC configuration
DCC transparent transmission configuration
Clock tracing configuration
Clock protection configuration
SSM byte configuration in RTN 900
Clock status checking in RTN 900 network
Training Methods
Lecture, Hands-on exercise
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 176
1.6.19 OTF26 OptiX RTN 900 V100R002 Troubleshooting Case Study
Objectives
On completion of this course, the participants will
be able to:
Read the actual faulty cases of OptiX RTN 900
Analyze the causes of fault that occurs in
actual network
Improve the competency of troubleshooting
Practice the troubleshooting skills in the lab
Target Audience
OptiX RTN 900V100R002 series senior operation
and maintenance engineer
Prerequisites
Completion of OTF22 OptiX RTN 900
V100R002 Troubleshooting course or having
equivalent knowledge
Content
Actual faulty cases of OptiX RTN 900
Causes study of fault that occurs in actual
network
Competency improving of troubleshooting
Troubleshooting skills practice in the lab
Training Methods
Lecture, Hands-on exercise
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 177
1.6.20 OTF29 OptiX RTN 900 Data Configuration (Packet Domain)
Objectives
On completion of this course, the participants will
be able to:
Describe the basic concepts of IP & MPLS
Outline the steps of RTN 900 service
configuration in packet plane
Implement Ethernet service / CES service /
ATM / IMA services configuration in packet
plane via NMS
Describe the parameters' meaning in service
configuration of packet plane
Target Audience
OptiX RTN 900 series operation, maintenance and
commissioning engineer
Prerequisites
Completion of OTF47 OptiX RTN 900 System
Description and OTF32 OptiX RTN 900
Network Application or having equivalent
knowledge
Content
Classification of IP addresses
Basic principle of IP routing
Basic concept of MPLS
MPLS tunnel (LSP) creation procedure
MPLS OAM functions
Basic concept of PWE3
Typical PWE3 encapsulation format for TDM
Ethernet and ATM services
PWE3 application scenarios of OptiX RTN
series product
Practice on Ethernet service / CES service /
ATM / IMA services / Ethernet service / CES
service / ATM / IMA services by Web LCT
Configuration tasks
Training Methods
Hands-on exercise,E-lab
Duration
2 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 178
1.6.21 OTF30 OptiX RTN 900 System Control Unit and IF Feature Topic
Objectives
On completion of this course, the participants will
be able to:
Describe system architecture and functions of
the SCC unit
Outline the new features supported by OptiX
RTN 900
Describe the function and application of the
new features
Target Audience
OptiX RTN 900 series senior operation and
maintenance engineer
Prerequisites
Completion of OTF47 OptiX RTN 900 System
Description and OTF32 OptiX RTN 900
Network Application or having equivalent
knowledge
Content
RTN 900 System control unit Introduction
Integrated IP Radio
IF Multimode
E1 Priority and Dynamic Adjustment
Fast Forwarding of High Priority Services
Highly Efficient Encapsulation Mechanism of
Packet Services
Optimization of E1 Clock Transparent
Transmission
Training Methods
Lecture
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 179
1.6.22 OTF31 OptiX RTN 900 Clock & DCN Topic
Objectives
On completion of this course, the participants will
be able to:
Configure clock tracing
Configure clock protection
Configure SSM byte in RTN 900
Check clock status in RTN 900 network
Manage and configure ECC link
Configure extended ECC
Enable/disable ECC link
Configure IP over DCC, inband DCC
Configure DCC transparent transmission
Target Audience
OptiX RTN 900 series senior operation and
maintenance engineer
Prerequisites
Completion of OptiX RTN 900 Hardware &
Network Application and OptiX RTN 900 Data
Configuration courses or having equivalent
knowledge
Content
Clock Synchronization overview
Microwave Clock Transmission Mode
Introduction
Microwave Clock Transmission Application &
Solutions
Configure clock sources of OptiX RTN 900 via
NMS
Configure clock protection of OptiX RTN 900
via NMS
DCN overview
Extended ECC Introduction
Inband DCN Introduction
DCC Transparent Transmission Introduction
DCC Transparent Transmission through the
External Clock Interface Introduction
IP over DCC Introduction
Perform basic DCN operation of OptiX RTN
900 via NMS
Configure extended ECC of OptiX RTN 900 via
NMS
Configure inband DCC of OptiX RTN 900 via
NMS
Configure DCC transparent transmission of
OptiX RTN 900 via NMS
Configure DCC transparent transmission
through the External Clock interface via NMS
Training Methods
Lecture, Hands-on exercise,E-lab
Duration
1.5 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 180
1.6.23 OTF32 OptiX RTN 900 Network Application
Objectives
On completion of this course, the participants will
be able to:
Describe the networking application under
PDH/SDH, hybrid and packet microwave
modes
List out the protection technologies in OptiX
RTN 900 network
Describe the features and applications of the
protection technologies
Target Audience
OptiX RTN 900 series operation and maintenance
engineer
Prerequisites
NA
Content
OptiX RTN 900 Networking Application
Protection Technologies in OptiX RTN 900
Training Methods
Lecture
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 181
1.6.24 OTF33 OptiX RTN 900 Field Operation & Maintenance
Objectives
On completion of this course, the participants will
be able to:
Outline the general safety precautions of OptiX
RTN 900
List the routine maintenance items of OptiX
RTN 900
Implement the maintenance operations of
OptiX RTN 900
Judge the common faulty in OptiX RTN 900
Target Audience
OptiX RTN field maintenance engineer
Prerequisites
Be familiar with RTN 900 hardware
Content
Safety Precautions
Routine Maintenance
Common Maintenance Operations
Practice on routine maintenance items of OptiX
RTN 900
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 182
1.6.25 OTF34 OptiX RTN 900 NE Database Topic
Objectives
On completion of this course, the participants will
be able to:
Describe the functions of CF card
Routing maintenance of NE database
Backup NE database
Target Audience
OptiX RTN 900 series operation and maintenance
engineer
Prerequisites
Completion of OTF47 OptiX RTN 900 System
Description and OTF32 OptiX RTN 900
Network Application or having equivalent
knowledge
Content
NE Database Introduction
NE Database Common Operations
Training Methods
Hands-on exercise, E-lab
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 183
1.6.26 OTF35 OptiX RTN 900 Troubleshooting
Objectives
On completion of this course, the participants will
be able to:
Describe the general troubleshooting flow of
OptiX RTN 900
Outline the methods of faults analyzing and
locating
Perform the common troubleshooting for OptiX
RTN 900
Target Audience
OptiX RTN 900 series operation and maintenance
engineer
Prerequisites
Completion of OTF32 OptiX RTN 900 Network
Application, OTF47 OptiX RTN 900 System
Description and OTF29 OptiX RTN 900 Data
Configuration (Packet Domain) or OTF46 OptiX
RTN 900 Data Configuration (Hybrid Domain)
courses or having equivalent knowledge
Content
Methods of analyzing and locating faults
Classified troubleshooting analysis
Analyze the problems of OptiX RTN 900 that
frequently occur on live networks through the
real cases
Training Methods
Lecture
Duration
1.5 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 184
1.6.27 OTF36 OptiX RTN 900 QoS & OAM Technology
Objectives
On completion of this course, the participants will
be able to:
Outline the basic concept of QoS and
ETH-OAM
Describe the working principles of QoS
Outline the QoS functions of the Ethernet
service boards on the OptiX RTN 900
List the planning principles of QoS
Describe the configuration flow of QoS
Describe the usage of ETH-OAM
Target Audience
OptiX RTN 900 series senior operation and
maintenance engineer
Prerequisites
Completion of OptiX RTN 900 Hardware &
Network Application and OptiX RTN 900 Data
Configuration courses or having equivalent
knowledge
Having the general knowledge of IP, MPLS and
QinQ
Content
Practice on Qos such as shaping, queue etc
Practice on ETH-OAM such as service OAM
and port OAM
Causes study of fault that occurs in actual
network
Competency improving of troubleshooting
Troubleshooting skills practice in the lab
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
1.5 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 185
1.6.28 OTF38 OptiX RTN 900 Commissioning
Objectives
On completion of this course, the participants will
be able to:
Finish proper preparations before the
commissioning
Perform site commissioning of the OptiX RTN
900
Perform system commissioning of the OptiX
RTN 900
Target Audience
OptiX RTN 900 series Commissioning engineer
Prerequisites
Completion of OptiX RTN 900 Hardware &
Network Application course or having
equivalent knowledge
Content
Practice on site and system commissioning by
Web LCT
Practice on site and system commissioning by
U2000
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 186
1.6.29 OTF42 OptiX RTN 900 V100R001 Hardware & Network Application
Objectives
On completion of this course, the participants will
be able to:
Describe the main characteristics of OptiX RTN
900 include the AM function
Describe the system structure of OptiX RTN
900
List the functions and features of the boards in
IDU, ODU, Hybrid coupler and antenna
Explain the protection mode of OptiX RTN 900
Describe the classification of the services in the
OptiX RTN 900 network
Describe the networking application of OptiX
RTN 900
List out the protection technologies in OptiX
RTN 900 network
Describe the features and applications of the
protection technologies
Target Audience
OptiX RTN 900V100R001 series operation and
maintenance engineer
Prerequisites
NA
Content
Main characteristics of OptiX RTN 910/950
include the AM function
System structure of OptiX RTN 910/950
Functions and features of the boards in IDU,
ODU, Hybrid coupler and antenna
Protection modes of OptiX RTN 910/950
Classification of the services in the OptiX RTN
910/950 network
Networking application of OptiX RTN 910/950
Protection technologies in OptiX RTN 910/950
network
Features and applications of the protection
technologies
Training Methods
Lecture
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 187
1.6.30 OTF44 OptiX RTN 900 V100R002 Data Configuration (Scenarized For Second
Line)
Objectives
On completion of this course, the participants will
be able to:
Configure TDM services in mixed networking
Apply the tag attributes in different scenario
Configuration of E-Line Services and E-LAN
Services
Target Audience
OptiX RTN 900V100R002 series operation and
maintenance engineer
Prerequisites
Completion of OTF17 OptiX RTN 900
V100R002 Hardware & Network Application
course or having equivalent knowledge
Content
TDM services configuration in mixed
networking
Tag attributes application in different scenarios
Hybrid Configuration of E-Line Services and
E-LAN Services
Training Methods
Lecture, Hands-on exercise
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 188
1.6.31 OTF45 OptiX RTN 900 V100R002 System Description
Objectives
On completion of this course, the participants will
be able to:
Describe the main characteristics of OptiX RTN
900
Describe the system structure, functions and
application of every units
List all the protection modes which supported
by OptiX RTN 900
Configure the OptiX RTN 900 equipment for all
types of the network application
Explain the functions of AM and Hybrid
Microwave
Target Audience
OptiX RTN 900V100R002 series field engineer
Prerequisites
NA
Content
Main characteristics of OptiX RTN 900
System structure, functions and application of
every units.
Protection modes which supported by OptiX
RTN 900
OptiX RTN 900 equipment configuration for all
types of the network application
Functions of AM and Hybrid Microwave
Training Methods
Lecture
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 189
1.6.32 OTF46 OptiX RTN 900 Data Configuration (Hybrid Domain)
Objectives
On completion of this course, the participants will
be able to:
Configure radio links of the OptiX RTN 900
Configure TDM services of the OptiX RTN 900
Configure Ethernet services of the OptiX RTN
900
Target Audience
OptiX RTN 900 series operation and maintenance
engineer
Prerequisites
Completion of OTF47 OptiX RTN 900 System
Description and OTF32 OptiX RTN 900
Network Application or having equivalent
knowledge
Content
Practice on radio links configuration of the
OptiX RTN 900
Practice on TDM services configuration of the
OptiX RTN 900
Practice on Ethernet services configuration of
the OptiX RTN 900
Training Methods
Hands-on exercise, E-lab
Duration
2 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 190
1.6.33 OTF47 OptiX RTN 900 System Description
Objectives
On completion of this course, the participants will
be able to:
Describe the main characteristics of OptiX RTN
900
Describe the system structure, functions and
application of every unit
Explain the functions of AM, hybrid, packet
microwave
Target Audience
OptiX RTN 900 series field maintenance engineer
Prerequisites
NA
Content
OptiX RTN 900 Product Overview
OptiX RTN 900 Product Structure
Training Methods
Lecture
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 191
1.6.34 OTF48 OptiX RTN Microwave Network Overview
Objectives
On completion of this course, the participants will
be able to:
List the equipment types of OptiX RTN
Outline main functions of OptiX RTN equipment
Describe typical networking and protection of
OptiX RTN equipment
Know the typical solutions of OptiX RTN
equipment
Target Audience
Personnel who requires a general understanding
of Huawei OptiX RTN equipment and solution
Prerequisites
NA
Content
Microwave Challenges and Trend
Key Features and Highlights
Product Introduction
Successful Story
Training Methods
Lecture
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 192
1.6.35 OTF80 OptiX RTN 300 System Description
Objectives
On completion of this course, the participants will
be able to:
Describe the main characteristics of OptiX RTN
300
Describe the system structure, functions and
application of every unit
Describe the relation among the different parts
of OptiX RTN 300
Target Audience
OptiX RTN 300 field maintenance engineer
Prerequisites
Having equivalent knowledge of digital
microwave communication basics
Content
OptiX RTN 300 product overview
OptiX RTN 300 product structure
OptiX RTN 300 technical specifications
Training Methods
Lecture
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 193
1.6.36 OTF81 OptiX RTN 300 Feature Description
Objectives
On completion of this course, the participants will
be able to:
Describe the features and application of OptiX
RTN 300
Target Audience
OptiX RTN 300 senior operation and maintenance
engineer
Prerequisites
Having equivalent knowledge of digital
microwave communication basics
Content
Microwave features
Ethernet features
Clock features
DCN features
Training Methods
Lecture
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 194
1.6.37 OTF82 OptiX RTN 300 Installation
Objectives
On completion of this course, the participants will
be able to:
Implement the installation of OptiX RTN 300
Describe the installation criterions for each part
of OptiX RTN 300
Illustrate the installation procedures and steps
of antenna, RTN 300 and PI
Target Audience
OptiX RTN 300 installation engineer
Prerequisites
Having basic experience of
telecommunications equipment installation
criterion
Content
OptiX RTN 300 System Hardware Structure
Installation Preparation
Antenna Installation
RTN 300/Hybrid Coupler and Related Cable
Installation
PI and Related Cable Installation
Loading NE data and installation checking
Training Methods
Lecture
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 195
1.6.38 OTF83 OptiX RTN 300 Commissioning
Objectives
On completion of this course, the participants will
be able to:
Finish proper preparations before the
commissioning
Perform site commissioning of the OptiX RTN
300
Perform system commissioning of the OptiX
RTN 300
Target Audience
OptiX RTN 300 commissioning engineer
Prerequisites
Be familiar with windows operating system
Content
Preparations before the commissioning
Site commissioning of the OptiX RTN 300
System commissioning of the OptiX RTN 300
OptiX RTN 300 commissioning operation guide
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 196
1.6.39 OTF84 OptiX RTN 300 Data Configuration
Objectives
On completion of this course, the participants will
be able to:
Configure radio links of the OptiX RTN 300
Configure services of the OptiX RTN 300
Target Audience
OptiX RTN 300 senior operation and maintenance
engineer
Prerequisites
Be familiar with windows operating system
Content
Radio links configuration of the OptiX RTN 300
Ethernet services configuration of the OptiX
RTN 300
Training Methods
Hands-on exercise, E-lab
Duration
1.5 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 197
1.6.40 OTF85 OptiX RTN 300 Field Operations & Maintenance
Objectives
On completion of this course, the participants will
be able to:
List the routine maintenance items of OptiX
RTN 300
Implement the maintenance operation of OptiX
RTN 300
Judge the common faulty in OptiX RTN 300
Target Audience
OptiX RTN 300 field maintenance engineer
Prerequisites
Having a general knowledge of digital
microwave communication
Content
Safety Precautions
Routine Maintenance
Common Maintenance Operations
Common Maintenance Operations Guide
Training Methods
Lecture, Hands-on exercise, E-lab
Duration
1.5 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 198
1.6.41 OTF86 OptiX RTN 300 Maintenance and Troubleshooting
Objectives
On completion of this course, the participants will
be able to:
Implement the routine maintenance via NMS
Describe the general troubleshooting flow of
OptiX RTN 300
Outline the methods of faults analyzing and
locating
Perform the common troubleshooting for OptiX
RTN 300
Target Audience
OptiX RTN 300 senior operation and maintenance
engineer
Prerequisites
Having a general knowledge of digital
microwave communication
Content
General troubleshooting flow of OptiX RTN 300
Methods of faults analyzing and locating
Common troubleshooting processing for OptiX
RTN 300
Routine Maintenance via NMS
Training Methods
Lecture
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 199
1.7 Planning and Design Training Course Descriptions
1.7.1 OTF40 OptiX RTN Network Planning Basic
Objectives
On completion of this course, the participants will
be able to:
Familiar with the microwave network design
contents
Know the basic information about microwave
planning
Target Audience
Microwave network planning engineer
Prerequisites
Having a general knowledge of digital
microwave communication
Having the general knowledge of IP, MPLS and
QinQ
Having the general knowledge of Ethernet and
QoS
Content
RTN Network Planning Process Overview
RTN Network Planning Process Introduction
Preparations
Route Design
Capacity Design
Frequency Design
DCN Design
Interference Analysis
Basic principle of frequency planning and
operation procedure
Skills and methods of how to reduce the relay
station
Training Methods
Lecture
Duration
1.5 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 200
1.7.2 OTF49 OptiX RTN Network Planning
Objectives
On completion of this course, the participants will
be able to:
Familiar with the microwave network design
contents
Describe the theory and function of every part
in the digital microwave system for details
Know the microwave planning principles
Familiar the interference analysis methods
Target Audience
Microwave network planning engineer
Prerequisites
Having a general knowledge of Digital
Microwave Communication
Having the general knowledge of IP, MPLS and
QinQ
Having the general knowledge of Ethernet and
QoS
Content
Network planning preparations
Route Design
Frequency Design
DCN Design
Interference Analysis
Equipment-level protection
Link-level protection
Service-level protection
AM overview
AM planning guidelines
AM planning procedures
AM compatibility
Training Methods
Lecture
Duration
1.5 working days
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 201
1.7.3 OTF51 OptiX RTN Clock & DCN Planning
Objectives
On completion of this course, the participants will
be able to:
Familiar with the working mechanism of clock &
DCN
Know how to select the proper clock & DCN
mode for different scenarios
Familiar with the clock & DCN planning
guidelines
Implement clock & DCN design according to
the guideline to ensure the high and efficient
planning delivery
Target Audience
Microwave network planning engineer
Prerequisites
Having a general knowledge of digital
microwave communication
Having the general knowledge of IP, MPLS and
QinQ
Having the general knowledge of Ethernet and
QoS
Content
Clock transmission overview
Clock Bearer & Injection modes
Clock planning guidelines
DCN overview
HWECC planning
IP over DCC planning
OSI over DCC planning
DCC transparent transmission planning
DCC transmission through the external clock
port planning
Inband DCN planning
L2 DCN planning
Training Methods
Lecture
Duration
1 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 202
1.7.4 OTF59 OptiX RTN Network Service Planning (Hybrid)
Objectives
On completion of this course, the participants will
be able to:
Familiar with the principles for Ethernet service
and TDM service planning
Know how to select the proper equipment type
and functions for different scenarios
Implement network design according to the
guideline to ensure the high and efficient hybrid
service delivery
Target Audience
Microwave network planning engineer
Prerequisites
Having a general knowledge of digital
microwave communication
Having the general knowledge of Ethernet and
TDM
Content
TDM service and networking planning
Ethernet boards selecting
Ethernet service and networking planning
Port parameters for Ethernet boards setting
Protection schemes for Ethernet ports planning
Training Methods
Lecture
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 203
1.7.5 OTF60 OptiX RTN Network Service Planning (Packet)
Objectives
On completion of this course, the participants will
be able to:
Familiar with the principles for Ethernet service,
CES service, ATM/IMA service and MPLS
tunnel planning
Know how to select the proper equipment type
and functions for different scenarios
Implement network design according to the
guideline to ensure the high and efficient
packet service delivery
Target Audience
Microwave network planning engineer
Prerequisites
Having a general knowledge of digital
microwave communication
Having the general knowledge of IP, MPLS
Having the general knowledge of Ethernet and
QoS
Content
Network architecture and type selection
Application scenarios
MPLS tunnel planning
Service planning
Training Methods
Lecture
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 204
1.7.6 OTF61 OptiX RTN Network Planning Case Analysis
Objectives
On completion of this course, the participants will
be able to:
Understand basic principle of frequency
planning and operation procedure.
Master planning to reduce the skills and
methods of relay station.
Master planning method, which design
appropriate SD spacing to improve the
reliability of the link by planning software
antenna.
Target Audience
Microwave network planning engineer
Prerequisites
Having a general knowledge of digital
microwave communication
Having the general knowledge of IP, MPLS
Having the general knowledge of Ethernet and
QoS
Content
Basic principle of frequency planning and
operation procedure
Skills and methods of how to reduce the relay
station
Network planning case analysis
Training Methods
Lecture
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 205
1.7.7 OTF62 OptiX RTN Network QoS Planning
Objectives
On completion of this course, the participants will
be able to:
Describe the functions and principles of the
QoS solution
Be familiar with the application scenarios of the
QoS features
Describe the methods for designing different
QoS application
Target Audience
Microwave network planning engineer
Prerequisites
Having a general knowledge of digital
microwave communication
Having the general knowledge of IP, MPLS
Having the general knowledge of Ethernet and
QoS
Content
QoS overview & specifications
QoS planning principles
QoS planning scenarios
Training Methods
Lecture
Duration
0.5 working day
Class Size
Min 6, max 12
COMMERCIAL IN CONFIDENCE 206
1.8 Assessment and Optimization Training Course Descriptions
1.8.1 OTF63 Microwave Network Performance Assessment
Objectives
On completion of this course, the participants will
be able to:
Describe methods of assessing microwave
network performance
Analyze and access microwave network
performance
Complete microwave network performance
assessment
Target Audience
OptiX RTN network optimization engineer or senior
maintenance engineer
Prerequisites
Be familiar with OptiX RTN series equipment
Having working experience with at least 1
years in the maintenance of microwave
transport network
Content
Microwave Network Assessment Overview
Performance Assessment
Training Methods
Lecture
Duration
0.5 working day
Class Size
Min 4, max 8
COMMERCIAL IN CONFIDENCE 207
1.8.2 OTF64 Microwave Network General Assessment
Objectives
On completion of this course, the participants will
be able to:
Describe the methods about capacity
assessment
Describe the methods about frequency
assessment
Describe the methods about reliability
assessment
Describe the methods about NMS DCN
assessment
Target Audience
OptiX RTN network optimization engineer or senior
maintenance engineer
Prerequisites
Be familiar with OptiX RTN series equipment
Having working experience with at least 1
years in the maintenance of microwave
transport network
Content
Microwave Network Assessment Overview
Capacity Assessment
Frequency Assessment
Reliability Assessment
NMS DCN Assessment
Summary
Training Methods
Lecture
Duration
0.5 working day
Class Size
Min 4, max 8
COMMERCIAL IN CONFIDENCE 208
1.8.3 OTF65 Microwave Network Assessment Case Analysis
Objectives
On completion of this course, the participants will
be able to:
Complete microwave network performance
assessment
Complete microwave network capacity
assessment
Complete microwave network frequency
assessment
Complete microwave network reliability
assessment
Complete microwave network NMS DCN
assessment
Target Audience
OptiX RTN network optimization engineer or senior
maintenance engineer
Prerequisites
Be familiar with OptiX RTN series equipment
Having working experience with at least 1
years in the maintenance of microwave
transport network
Content
Assessment Network Introduction
Network Outline
Network Assessment
General Comments
Training Methods
Case Study
Duration
1 working day
Class Size
Min 4, max 8
COMMERCIAL IN CONFIDENCE 209
1.8.4 OTF66 Microwave Network Optimization
Objectives
On completion of this course, the participants will
be able to:
Describe the microwave network optimization
procedure
Complete the solution to the design
performance optimization of a RTN network
Describe how to optimize the capacity of a RTN
network
Describe the methods about frequency
optimization
Describe the methods about topology
optimization
Describe the methods about NMS DCN
optimization
Target Audience
OptiX RTN network optimization engineer or senior
maintenance engineer
Prerequisites
Be familiar with OptiX RTN equipment
Having working experience with at least 2
years in the maintenance of microwave
transport network
Upon completion of OptiX RTN Network
Assessment Training
Content
Microwave Network Optimization Overview
Optimization High Level Design
Optimization Low Level Design
Optimization Solution Implementation
Training Methods
Lecture
Duration
0.5 working day
Class Size
Min 4, max 8
COMMERCIAL IN CONFIDENCE 210
1.8.5 OTF67 Microwave Network Optimization Case Analysis
Objectives
On completion of this course, the participants will
be able to:
Complete microwave network performance
optimization
Complete microwave network capacity
optimization
Complete microwave network frequency
optimization
Complete microwave network reliability
optimization
Complete microwave network NMS DCN
optimization
Target Audience
OptiX RTN network optimization engineer or senior
maintenance engineer
Prerequisites
Be familiar with OptiX RTN equipment
Having working experience with at least 2
years in the maintenance of microwave
transport network
Upon completion of OptiX RTN Network
Assessment Training
Content
Network information Introduction
Defining the Optimization Task List
Given optimization suggestion based on the
network status
Develop the optimization report in RTN network
Training Methods
Case Study
Duration
0.5 working day
Class Size
Min 4, max 8
COMMERCIAL IN CONFIDENCE 211
1.9 Assessment and Optimization Training Course Descriptions
1.9.1 OTA43 SDH Network Expansion & Reconstruction
Objectives
On completion of this course, the participants will
be able to:
Outline the scenario of SDH network expansion
List the key point of network expansion
Interpret the operation of SDH network
expansion
Perform SDH network expansion and verify the
service interconnection
Outline the scenario of SDH network
reconstruction
List the key point of network reconstruction
Interpret the operation of SDH network
reconstruction
Perform SDH network reconstruction and verify
the service interconnection
Target Audience
SDH network senior operation and maintenance
engineer
SDH network optimization engineer
Prerequisites
Completion of OTA31 OptiX NG SDH & OCS
Products Configuration and OTA14 OptiX SDH
System Troubleshooting courses or having
equivalent knowledge
Content
SDH network expansion scenario
Common operation method in SDH network
expansion
SDH network expansion solution production
elements
Adding node in SDH protection subnet
Link capability update in SDH network
Add extended subrack
SDH nework reconstruction scenario
Common operation method in SDH network
reconstruction
SDH network reconstruction solution
production elements
SDH Network from non-protected to protected
ring
SDH ring split
Remove node from SDH network
Training Methods
Lecture, Hands-on exercise
Duration
3 working days
Class Size
Min 4, max 8
COMMERCIAL IN CONFIDENCE 212
1.9.2 OTA93 SDH Network Assessment
Objectives
On completion of this course, the participants will
be able to:
List the main items of SDH network resource
List the main items of SDH network
assessment
Describe the requirement of SDH network
resource assessment
Describe the main contents about SDH service
capacity and efficiency assessment
Describe the items and contents about SDH
network security assessment
Describe the measures about SDH survivable
network assessment
List the methods about trail usability
assessment
Describe the items and contents about SDH
network O&M assessment
Describe the methods about ECC subnetwork
assessment
Describe the methods about clock subnetwork
assessment
Describe the methods about spare part
assessment
Target Audience
Senior SDH network maintenance, optimization or
design engineer
Prerequisites
Above 2 years SDH network operation and
maintenance experience
Completion of OTA01 SDH Principle and
OTA02 SDH Networking and Protection
courses or having equivalent knowledge
Content
Overview
Statistics on Network Resources
Analysis of Service Requirements
Assessment of SDH Network Services
Problems Facing SDH Network Contents of
SDH Network Security Assessment
Items of SDH Network Security Assessment
Process and Tools for SDH Network Security
Assessment
Network Overview
Network Statistic
Assessment and Analysis
SDH Network clock, ECC and DCN support
ability assessment key point
ECC assessment methods
Clock assessment methods
Spare board assessment methods
Assess SDH Network service support capability,
network security, clock survivability, ECC
support ablility, etc
Provide the assessment report based on
network analyze result
Training Methods
Lecture, Case-study
Duration
3 working days
Class Size
Min 4, max 8
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1.9.3 OTA94 SDH Network Optimization
Objectives
On completion of this course, the participants will
be able to:
Describe the causes and effects of discrete
services
Recognize the discrete services of the network
Eliminate discrete services
Optimize the lower level cross-connection of
SDH equipment
Optimize the trails to improve the network
usage efficiency
Describe the items and contents about SDH
network security optimization
Describe the measures about SDH survivable
network optimization
List the methods about trail usability
optimization
Describe the items and contents about SDH
network O&M optimization
Describe the methods about ECC subnetwork
optimization
Describe the methods about clock subnetwork
optimization
Describe the methods about spare part
optimization
Target Audience
Senior SDH network maintenance, optimization or
design engineer
Prerequisites
Above 2 years SDH network operation and
maintenance experience
Completion of OTA93 SDH Network
Assessment course or having basic knowledge
on SDH technology
Content
The formation factors and impact of discreted
service
Discreted service analysis and recognition
Clear-up of discreted service
Optimization for SDH lower order
cross-connection
Trail optimization
SDH network security optimization items and
rules
Network survivability optimization methods
Trail availability optimization methods
SDH network O&Moptimization items and
rules
ECC optimization methods
Clock optimization methods
Spare boards optimization methods
Network information introduction
Given assessment
Given optimization suggestion based on the
network status
Develop the optimization report in network
security, service and network support field
Training Methods
Lecture, Case-study
Duration
3 working days
Class Size
Min 4, max 8
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1.9.4 OTC51 OptiX WDM Network Expansion
Objectives
On completion of this course, the participants will
be able to:
Illustrate OptiX WDM system optical power
calculation
Outline the process of OptiX WDM network
expansion
Implement the indices testing during network
expansion
Complete the OptiX WDM network service
expansion of OTM/OADM stations
Target Audience
OptiX WDM network optimization engineer or
senior maintenance engineer
Prerequisites
Completion of OptiX OSN
3800/6800/8800(OTN) Second Line
Maintenance Training program or OptiX BWS
1600G Second Line Maintenance Training
program
Content
Review of the OptiX NG WDM signal flow
Basic concepts
Power calculation of OptiX NG WDM OSC
Power calculation of OptiX NG WDM main ath
OptiX WDM network expansion preparative
OptiX WDM network expansion implementation
Training Methods
Lecture, Hands-on exercise
Duration
2 working days
Class Size
Min 4, max 8
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1.9.5 OTC52 OptiX WDM Network Reconstruction
Objectives
On completion of this course, the participants will
be able to:
Describe OptiX WDM system upgrade &
reconstruction methods, which include 2 5G
upgrading to 10G, 10G upgrading to 40G and
400G upgrading to 800G
Describe OptiX WDM equipment software
upgrade methods
Describe OptiX WDM netwok reconstruction
methods, which include the site type
reconstruction, the protection type
reconstruction and wavelength reconstruction
Complete the OptiX WDM network
reconstruction
Target Audience
OptiX WDM network optimization engineer or
senior maintenance engineer
Prerequisites
Completion of OptiX OSN
3800/6800/8800(OTN) Second Line
Maintenance Training program or OptiX BWS
1600G Second Line Maintenance Training
program
Content
OptiX WDM system capacity upgrade
OptiX WDM system bit rate level upgrade
OptiX WDM service type and network function
upgrade
OptiX WDM network protection
reconstruction
OptiX WDM node type reconstruction
OptiX WDM wavelength channel reconstruction
Training Methods
Lecture, Hands-on exercise
Duration
3 working days
Class Size
Min 4, max 8
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1.9.6 OTC72 OptiX WDM Network Assessment
Objectives
On completion of this course, the participants will
be able to:
Describe methods of assessing WDM network
design performance
Analyze and assess WDM network design
performance
Provide suggestions on optimizing WDM
network design performance
Describe methods of assessing running
performance of a WDM network
Analyze and assess running performance of a
WDM network
Provide suggestions for optimizing running
performance of a WDM network
Target Audience
OptiX WDM network optimization engineer or
senior maintenance engineer
Prerequisites
Completion of OptiX OSN
3800/6800/8800(OTN) Second Line
Maintenance Training program or OptiX BWS
1600G Second Line Maintenance Training
program
Content
WDM Network Overview
WDM Network Designing Factors
WDM Network Designing Process Overview
WDM Network Assessment and Optimization
Overview
Split Links
Assess Line Attenuation
Assess Dispersion
Information and Data to Be Obtained Before
Assessment
Dividing Links
Assessing Line Attenuation
Assessing Chromatic Dispersion on a Link
Overview
Assess OA Optical Power of Links
Assess OA Optical Power Flatness of Links
Assess OTU Receiving Performance
Assessing Optical Power of OA Boards on a
Link
Assessing Receive-End Performance of OTU
Boards
Training Methods
Lecture, Case-study
Duration
2 working days
Class Size
Min 4, max 8
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1.9.7 OTC73 OptiX WDM Network Optimization
Objectives
On completion of this course, the participants will
be able to:
Describe the method for optimizing design
performance of a WDM network
Describe the procedure for designing a solution
to design performance optimization of a WDM
network
Complete the solution to the design
performance optimization of a WDM network
Describe how to optimize operating
performance of a WDM network
Describe the process of optimizing operating
performance of a WDM network
Design solutions to optimizing operating
performance of a WDM network
Target Audience
OptiX WDM network optimization engineer or
senior maintenance engineer
Prerequisites
Completion of OptiX OSN
3800/6800/8800(OTN) Second Line
Maintenance Training program or OptiX BWS
1600G Second Line Maintenance Training
program
Content
WDM Network Assessment and Optimization
Overview
Optimization Objectives
Optimization Project Design
Optimization Implementation
Network and Service Introduction
Contents and Objective of Network Design
Performance Optimization
Practice & Summary
WDM Network Assessment and Optimization
Overview
Optimization Objectives
Optimization Project Design
Optimization Implementation
Network and Service Introduction
Contents and Objective of Network Running
Performance Optimization
Practice & Summary
Training Methods
Lecture, Hands-on exercise
Duration
1 working day
Class Size
Min 4, max 8
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1.10 Principle Training Course Descriptions
1.10.1 OTA00 SDH Overview
Objectives
On completion of this course, the participants will
be able to:
Describe the structure of the
telecommunication network
Compare the difference between PDH and
SDH
List the service types that are transported in
SDH network
Illustrate the typical SDH network topologies
Target Audience
A novice at transmission network field
Prerequisites
NA
Content
Telecommunication Overview
SDH Basic Concepts
SDH Network Topology
Training Methods
Lecture
Duration
0.5 working day
Class Size
Min 6, max 12
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1.10.2 OTA01 SDH Principle
Objectives
On completion of this course, the participants will
be able to:
Describe the structure of the SDH frame
Illustrate the multiplexing procedure of PDH
signal to SDH signal
Outline the function of section and path
overhead
Explain the working mechanism of the pointer
Target Audience
SDH series equipment operation and maintenance
engineer
Prerequisites
NA
Content
SDH Overview
Frame Structure & Multiplexing Methods
Overheads & Pointers
mechanism of the pointer
Training Methods
Lecture
Duration
1 working day
Class Size
Min 6, max 12
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1.10.3 OTA02 SDH Networking and Protection
Objectives
On completion of this course, the participants will
be able to:
Describe the common SDH network topologies
and their features
Explain the protection mechanism of linear
MSP
Explain the protection mechanism of MS
shared protection ring
Explain the protection mechanism of SNCP in
ring/mesh topology
Analyze the service signal flow before/after the
protection switch takes place
Target Audience
SDH series equipment operation and maintenance
engineer
Prerequisites
Completion of OTA00 SDH Overview course or
having basic knowledge on SDH technology
Content
Optical networking introduction
Classification of topologies
Sub-networks
Survivable networks introduction
Types of protection
Training Methods
Lecture
Duration
1 working day
Class Size
Min 6, max 12
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1.10.4 OTA03 Ethernet Basics
Objectives
On completion of this course, the participants will
be able to:
Outline the types and applications of Ethernet
Explain the technical background of the
Ethernet and its basic concepts
Illustrate the Ethernet frame structure
Describe the function of VLAN and L2
switching
Outline the classification of Ethernet service
Explain the function and applications of
different types Ethernet service
Outline the basic concepts of data traffic
List basic concepts of network and internet
Describe the applications of familiar protocol
and standard
Illustrate basic structure of IP network
Tell the basic knowledge of IP address
Target Audience
Personnel who requires a general knowledge of
Ethernet over SDH technology
Prerequisites
Completion of OTA00 SDH Overview course or
having basic knowledge on SDH technology
Content
Categories of Ethernet
Basic Principle of Ethernet
Ethernet Port Technology
VLAN Basis & L2 Switching
Basic Concepts
EPL
EVPL
EPLAN
EVPLAN
Data Traffic Basis
Brief Introduction of Network and Internet
Protocol and Standard
Basic Architecture of IP Network
IP Address Introduction
Tell the basic knowledge of IP address
Training Methods
Lecture
Duration
2 working days
Class Size
Min 6, max 12
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1.10.5 OTA07 ASON Basics
Objectives
On completion of this course, the participants will
be able to:
Outline the standards of ASON
Illustrate the structure of ASON
Describe the networking characters of ASON
Explain the service characters of ASON
Target Audience
Technical manager, ASON operation and
maintenance engineer
Prerequisites
Completion of OTA01 SDH Principle course or
having basic knowledge on SDH technology
Content
Background of ASON
System Structure of ASON
Networking Characters of ASON
Service Characters of ASON
ASON Network Functions
Training Methods
Lecture
Duration
1 working day
Class Size
Min 6, max 12
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1.11 Transmission Engineer Certification Training Course Descriptions
1.11.1 OTH01 Transmission Technologies and Device
Objectives
On completion of this course, the participants will
be able to:
Describe SDH working principle
Describe WDM working principle
Describe OTN working principle
Describe Ethernet working principle
Describe the basic concept of MPLS
Describe the basic concept of PWE3
Describe the common SDH network topologies
and their features
Explain the protection mechanism of
MSP/SNCP
Explain the system structure and features of
the OptiX OSN 3500 equipment
State the main functions of the boards in the
OptiX OSN 3500 equipment
Accomplish the SDH network configuration and
monitoring through NMS
Accomplish the PDH service configuration
through NMS
Accomplish the Ethernet service
(EPL/EVPL/EPLAN) configuration through
NMS
List the common analysis methods of fault
locating
Target Audience
Personnel who are going to take HCNA
HTTD(Huawei Certified Network
Associate-Transmission Technologies and Device)
exam.
Personnel who expect to learn about basic optical
transmission principles and Huawei SDH
equipment operation.
Prerequisites
Having a general knowledge of
telecommunications
Content
Basic Knowledge of Fiber
Passive Optical Components for Fiber
Communication
NA
SDH Overview
SDH Frame Structure and Multiplexing
SDH Overhead and Pointers
Logical Function Modules
Networking and Protection
NA
Overview of WDM
Key WDM Technologies
ITU-T Compliance
NA
Overview of OTN
OTN Interface Structure
Mapping and Multiplexing of OTN
OTN Overhead
OTN Trail Layers and Maintenance Signals
Common OTN Alarms
NA
Overview of LAN
Ethernet Principles
About Ethernet QoS
Overview of EoS
Overview of VLAN
NA
Telecommunications Network Overview
IP Addressing
QinQ Technologies
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MPLS Technologies
PWE3 Technologies
NA
System Overview
Cabinets and Subracks
Boards
Hardware Configurations
Functions and Features
Linear MSP
Two-Fiber MSP Rings
Four-Fiber MSP Rings
SNCP
System Structure and Major Features of U2000
Directory Structure of U2000
Major Functions of U2000
Linear MSP Configurations
Two-Fiber MSP Rings Configurations
Four-Fiber MSP Rings
SNCP Configurations
Per-NE Service Configurations
Path-Specific Service Configurations
Ethernet Terms
Ethernet Service Types: EPL,EVPL, EPLAN,
EVPLAN
Ethernet Service Configurations
Ethernet Service Types:
EPL,EVPL,EPLAN,EVPLAN Practice Guide
Training Methods
Lecture, Hands-on exercise
Duration
15 working days
Class Size
Min 6, max 16
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1.11.2 OTH02 Building Carrier MSTP Transmission Network
Objectives
On completion of this course, the participants will
be able to:
Describe the procedure of the SDH equipment
commissioning
Describe the complex Networking of SDH
Replacing the SDH Board
Analyze the discrete services on the NMS
Tests for common ethernet services indicators
Describe the principle of the clock protection
Describes the notes to do the SDH equipment
interconnection
Complete the ECC maintenance
Describes the methods for handling typical
faults and alarms to troubleshoot networks in
practice
Describes the mechanism of pointer
justification
Describes the functions of ASON
Target Audience
Personnel who are going to take HCNP
HTMN(MSTP)(Huawei Certified Network
Professional-Building Carrier MSTP Transmission
Network) exam.
Personnel who expect to learn SDH network
commissioning, maintenance and troubleshooting.
Prerequisites
Pass HCNA HTTD(Huawei Certified Network
Associate-Transmission Technologies and
Device) exam or having equivalent knowledge
Content
Preparations for Equipment Commissioning
Per-NE Commissioning
System Commissioning
The Per-NE Commissioning and System
Commissioning of OptiX OSN Equipment
Tangent Rings
Intersecting Rings
Shared-Fiber Virtual Path Protection
Dual-Plane Optical Transmission Network
Board Replacement/Overview
Replacing Faulty Boards
Board Version Replacement
Board Capacity Expansion
Board Replacement of OptiX NG SDH
Equipment Practice Guide
Concepts of Discrete Services and Paths
Causes of Discrete Services and Handling
Methods
Ethernet Test Description
Tests for Common Ethernet Services Indicators
Common Methods for Testing Ethernet Service
Indicators
Tests for Common Ethernet Service Indicators
Practice Guide
Concepts of Clock Protection
Configuration Principles for Clock Subnetworks
Protection by Using the Standard SSM Protocol
Protection by Using the Extended SSM
Protocol
Clock Protection of OptiX OSN Equipment
Practice Guide
SDH Port Interonnection
PDH Port Interonnection
SDH Equipment Interconnection Practice
Guide
ECC Communication Overview
ECC Networking and Network Division
ECC Extension Applications and
Configurations
ECC Maintenance Practice Guide
Working Principles for Pointer Justification
Handling Pointer Justification Events
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Pointer Justification Practice Guide
Routine Maintenance on Equipment
Routine Maintenance on the NMS
Preparations for Locating Faults on OptiX SDH
Equipment
Methods for Locating Faults on OptiX SDH
Equipment
Analyzing Fault Cases of OptiX SDH
Equipment
ASON Background
ASON Architecture
ASON Features
ASON Service Provisioning
ASON Functions
Training Methods
Lecture, Hands-on exercise
Duration
10 working days
Class Size
Min 6, max 16
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1.11.3 OTH03 Building Carrier OTN Transmission Network
Objectives
On completion of this course, the participants will
be able to:
Describe the function and features of WDM
cabinet, sub-rack and boards
Describe the network topologies and signal
flow
Implement the data configuration through
iManager U2000
Implement the single station and system
commissioning step by step through
iManager U2000
List the common indices of WDM product and
perform the testing
Describe the WDM protection principle
Describe the notice of traffic interconnection
Describe the principle of ALC/IPA/APE
Illustrate the application of common
troubleshooting methods, such as loop-back,
testing, alarm and performance events analysis,
replacement, etc
Locate and eliminate faults, get experience
from troubleshooting practice
Target Audience
Personnel who are going to take HCNP
HTON(OTN)(Huawei Certified Network
Professional-Building Carrier OTN Transmission
Network) exam.
Personnel who expect to learn WDM network
configuration, commissioning, maintenance and
troubleshooting.
Prerequisites
Pass HCNA HTTD(Huawei Certified Network
Associate-Transmission Technologies and
Device) exam or having equivalent knowledge
Content
Huawei NG WDM product overview
OptiX OSN 6800/8800 networking application
and product features
OptiX OSN 6800/8800 cabinet, subrack and
frame
OptiX OSN 6800/8800 boards description
OptiX NG WDM product feature
OptiX NG WDM node type
OptiX NG WDM network applications
Key factors in WDM networking
Preparation for OptiX NG WDM data
configuration
Creating a OptiX NG WDM network
Start NMS
Create NE
Create ONE
Configure NE data
Connect the logic fiber
Basic concepts
Configuring the edge port
Creating OptiX NG WDM single-station optical
cross-connection
Configuring OptiX NG WDM OCh trail
Configure the OCh in the NMS
Basic concepts
Configuring OptiX NG WDM normal
cross-connection Services
Configuring OptiX NG WDM service timeslots
Configuring OptiX NG WDM electrical trail
Configure STM-16,Any and GE level service in
the NMS
Preparations for OptiX NG WDM
commissioning
Configuring OptiX NG WDM NE and network
Commissioning OptiX NG WDM optical power
Commissioning OptiX NG WDM network
Configure the NE and network
Optical power commisssioning
System commissioning
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Overview of testing
Testing of main channel
Testing of OSC channel
Testing of system
OptiX NG WDM equipment level protection
OptiX NG WDM optical layer protection
OptiX NG WDM electrical layer protection
WDM optical layer OLP protection
WDM electical layer ODUk SNCP protection
Introduction of ALC function
Principle of ALC
Configuration of ALC
Creating ALC Link Nodes
Checking ALC Links
Starting Automatic Link Adjustment
Introduction of IPA function
Principle of IPA
Configuration of IPA
Create and enable IPA
Setting IPA Start Delay
Configuring Auxiliary Detect Boards for an IPA
Protection Group
Test and Restart IPA
Introduction of APE function
Principle of APE
Configuration of APE
Creating APE pair
Setting Wavelength Monitoring Parameters
Setting the Standard Power Curve
Starting/Stopping APE Adjustment
Operation precautions
OptiX NG WDM basic maintenance operations
OptiX NG WDM board replacement
OptiX NG WDM equipment routine
maintenance items
OptiX NG WDM NMS side routine maintenance
items
OptiX NG WDM daily maintenance items
OptiX NG WDM monthly maintenance items
OptiX NG WDM semiyearly maintenance items
Other NMS side operation
Optical Power Management
Alarm Management
Performance Management
Overview
Electrical Layer Alarm Signal Flow Analysis
Optical Layer Alarm Signal Flow Analysis
Overview
Electrical Layer Alarm Signal Flow Analysis
Optical Layer Alarm Signal Flow Analysis
Overview
Basic Rules and Methods of Fault Locating
Rectifying different types of faults
Training Methods
Lecture, Hands-on exercise
Duration
10 working days
Class Size
Min 6, max 16
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1.12 Evolution and Trends Training Course Descriptions
1.12.1 OTA19 All IP Transport Network Solution
Objectives
On completion of this course, the participants will
be able to:
Outline the technologies of the transmission
network for All-IP service
Describe the solutions for All-IP network
Compare the All-IP transport solutions and
figure out the difference
Target Audience
Technical manager or key staff
Prerequisites
Having the basic knowledge of
telecommunications and SDH network
Content
Challenge of the transmission network
Technologies of transmission network for All-IP
service
Transmission solution for All-IP network
Training Methods
Lecture
Duration
0.5 working day
Class Size
Min 6, max 12
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