Transmission Network - Huaweie-learning.huawei.com/zone/pub/lsportal/en/pdf/Network/2014... ·...

Customer Training Catalog Course Descriptions

COMMERCIAL IN CONFIDENCE 1


Transmission Network

HUAWEI Learning Service

2014



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



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



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



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


1.6.12 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


1.6.29 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



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



1.6.39 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



1.12.1 OTA19 All IP Transport Network Solution ................................................................................... 229


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


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


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＆


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


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


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 ＆


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


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


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


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


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


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


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


1.2.2 OTA44 OptiX MSTP Network Design

Objectives


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



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


1.2.3 OTA47 OptiX Hybrid MSTP Network Design

Objectives


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


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



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


1.2.4 OTC03 OptiX WDM Network Design

Objectives


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


1.2.5 OTC31 OptiX NG WDM Network Design

Objectives


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




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


1.2.6 OTC36 OptiX NG WDM ASON Network Planning ＆ Design

Objectives


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


1.2.7 OTC47 OptiX WDM/NG WDM Network Design Basics

Objectives


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


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


1.2.8 OTC53 OptiX OSN 3800A/6800A Network Planning ＆ Design

Objectives


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


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


1.2.9 OTC74 iManager MDS 6600 WDM Planner Operation

Objectives


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


against one cable faults at the electrical layer


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


1.2.10 OTC75 iManager MDS 6600 WDM Designer Operation

Objectives


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


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


Duration

1 working day

Class Size

Min 6, max 12


1.2.11 OTC76 OptiX NG WDM 40G Network Design

Objectives


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


Prerequisites




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


designing exercises


design summary and share

Training Methods

Lecture, Case-study

Duration

2 working days

Class Size

Min 6, max 12


1.3 WDM Training Course Descriptions

1.3.1 OTC01 WDM Basics

Objectives


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


1.3.2 OTC02 WDM Optical Power Management Topic

Objectives


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


Duration

2 working days

Class Size

Min 6, max 12


1.3.3 OTC04 OptiX WDM Installation

Objectives


be able to:


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


1.3.4 OTC05 OTN Basics

Objectives


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


1.3.5 OTC06 OptiX BWS 1600G System Description

Objectives


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


1.3.6 OTC07 OptiX BWS 1600G Hardware Description ＆ Application

Objectives


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


1.3.7 OTC08 OptiX WDM Products Configuration

Objectives


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


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


Duration

2.5 working days

Class Size

Min 6, max 12


1.3.8 OTC09 Metro OTN Solution

Objectives


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


1.3.9 OTC10 OptiX BWS 1600G Commissioning

Objectives


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


Duration

2 working days

Class Size

Min 6, max 12


1.3.10 OTC11 OptiX WDM Equipment Field Maintenance

Objectives


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


System Description course or having basic

knowledge on WDM technology

Content

Basic operation precautions

OptiX BWS 1600G equipment basic

maintenance operation

Training Methods


Duration

1 working day

Class Size

Min 6, max 12


1.3.11 OTC12 OptiX WDM System Troubleshooting

Objectives


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


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


Duration

2 working days

Class Size

Min 6, max 12


1.3.12 OTC24 OptiX NG WDM System Description

Objectives


be able to:

Describe the position of OptiX OSN

3800/6800/8800(OTN) systems in an optical

transport network


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


1.3.13 OTC25 OptiX OSN 3800/6800/8800(OTN) Hardware Description & Application

Objectives


be able to:


OptiX OSN 3800/6800/8800(OTN) systems





network elements of OptiX OSN

3800/6800/8800(OTN) systems



Target Audience

OptiX NG WDM equipment operation and


Prerequisites



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


1.3.14 OTC26 OptiX OSN 3800/6800/8800(OTN) Products Configuration

Objectives


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


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


equipment


validity

Target Audience

OptiX NG WDM equipment operation and


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


Duration

3.5 working days

Class Size

Min 6, max 12


1.3.15 OTC27 OptiX WDM Testing

Objectives


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


Prerequisites


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 system

Training Methods


Duration

0.5 working day

Class Size

Min 6, max 12


1.3.16 OTC28 OptiX NG WDM Commissioning

Objectives


be able to:

Check the equipment running condition such


mounted boards, etc

Outline and perform the commissioning

procedure for OptiX OSN

3800/6800/8800(OTN) equipment


OptiX OSN 3800/6800/8800(OTN) equipment


channel


OSN 3800/6800/8800(OTN) equipment



Eliminate the fault occurring during the


Target Audience

OptiX NG WDM commissioning engineer

Prerequisites



＆ Application course or having basic


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


Duration

2.5 working days

Class Size

Min 6, max 12


1.3.17 OTC29 OptiX NG WDM(OTN) Field Maintenance

Objectives


be able to:

Describe the status of OptiX OSN

3800/6800/8800(OTN) products alarm

indicators


OSN 3800/6800/8800(OTN) products




OptiX OSN 3800/6800/8800(OTN) products,

such as board replacement, fiber connection,

optical power adjusting, etc



Outline the common menus of OptiX iManager

U2000/Web LCT



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





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


Duration

1.5 working days

Class Size

Min 6, max 12


1.3.18 OTC30 NG WDM(OTN) System Troubleshooting

Objectives


be able to:


for OptiX OSN 3800/6800/8800(OTN) products

Illustrate basic operation for OptiX OSN

3800/6800/8800(OTN) troubleshooting



OptiX OSN 3800/6800/8800(OTN) products



Target Audience

OptiX NG WDM equipment 2nd Line Maintenance

Engineer

Prerequisites


OptiX OSN 3800/6800/8800(OTN) Hardware

Description ＆ Application and OTC26 OptiX

OSN 3800/6800/8800(OTN) Products



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


Duration

2.5 working days

Class Size

Min 6, max 12


1.3.19 OTC32 OptiX NG WDM Ethernet Operation&Maintenance

Objectives


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


Prerequisites



＆ Application and OTC26 OptiX OSN

3800/6800/8800(OTN) Products



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


Duration

3 working days

Class Size

Min 6, max 12


1.3.20 OTC35 OptiX WDM System Advanced Troubleshooting

Objectives


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


Analyze and locate the complex fault of OptiX

WDM network



Target Audience

OptiX WDM network senior operation and

maintance engineer

Prerequisites


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


Duration

3 working days

Class Size

Min 6, max 12


1.3.21 OTC37 OTN 1588V2 Feature Introduction

Objectives


be able to:

Describe the principle and the application of

1588V2 in OTN network

Target Audience

WDM series equipment operation and


Prerequisites



＆ Application course or having basic


Content

1588V2 Background

1588V2 Priciple Description

OTN 1588V2 Application

Training Methods

Lecture

Duration

0.5 working day

Class Size

Min 6, max 12


1.3.22 OTC46 OptiX OSN 1800 Operation＆Maintenance

Objectives


be able to:


OptiX OSN 1800



OSN 1800


network elements of OptiX OSN 1800


OSN 1800



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


equipment


validity


OptiX OSN 1800


OSN 1800



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


Analyze and locate the complex fault of OptiX

WDM network



Target Audience

OptiX OSN 1800 operation and maintenance

engineer

Prerequisites



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


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



OptiX OSN 1800 equipment basic maintenance

operation

OptiX OSN 1800 NMS basic maintenance

operation

OptiX OSN 1800 troubleshooting

Training Methods


Duration

4 working days

Class Size

Min 6, max 12


1.3.23 OTC48 OptiX OSN 8800 (OCS) Hardware Description ＆ Application

Objectives


be able to:


OptiX OSN 8800(OCS) system



OSN 8800(OCS) system


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


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


1.3.24 OTC49 OptiX OSN 8800 (OCS) Product Configuration

Objectives


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


Prerequisites

Completion of OTC48 OptiX OSN 8800 (OCS)



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


Duration

2.5 working days

Class Size

Min 6, max 12


1.3.25 OTC50 OptiX OSN 8800 (OCS) Field Maintenance

Objectives


be able to:

Describe the status of OptiX OSN 8800(OCS)

product indicators

Describe the operation environment of OptiX

OSN 8800(OCS) equipment


configuration, service provisioning and

protection configuration for equipment via NMS

Perform the routine maintenance via NMS


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)



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


Duration

1 working day

Class Size

Min 6, max 12


1.3.26 OTC54 OptiX OSN 3800A/6800A Hardware Description ＆ Application

Objectives


be able to:


OptiX OSN 3800A/6800A systems



OSN 3800A/6800A systems


network elements of OptiX OSN 3800A/6800A

systems


OSN 3800A/6800A systems

Target Audience

OptiX OSN 3800A/6800A operation and


Prerequisites

NA

Content

OptiX OSN 3800A6800A network application

OptiX OSN 3800A6800A product functions


OptiX OSN 3800A6800A product architecture

and hardware


OptiX OSN 3800A6800A node types

OptiX OSN 3800A6800A network applications

Training Methods

Lecture

Duration

1 working day

Class Size

Min 6, max 12


1.3.27 OTC55 OptiX OSN 3800A/6800A Products Configuration

Objectives


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


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


equipment


validity

Target Audience



Prerequisites


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


Duration

3 working days

Class Size

Min 6, max 12


1.3.28 OTC56 OptiX OSN 3800A/6800A Equipment Commissioning

Objectives


be able to:



mounted boards, etc


procedure for OptiX OSN 3800A/6800A

equipment


OptiX OSN 3800A/6800A equipment


channel


OSN 3800A/6800A equipment





Target Audience

OptiX OSN 3800A/6800A commissioning engineer

Prerequisites




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


Duration

1 working day

Class Size

Min 6, max 12


1.3.29 OTC57 OptiX OSN 3800A/6800A Field Maintenance

Objectives


be able to:

Describe the status of OptiX OSN

3800A/6800A products alarm indicators






OptiX OSN 3800A/6800A products, such as

board replacement, fiber connection, optical

power adjusting, etc



Outline the common menus of iManager U2000



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




knowledge

Content

OptiX OSN 3800A6800A basic operation

precautions

OptiX OSN 3800A6800A equipment basic

maintenance operation

Training Methods


Duration

1 working day

Class Size

Min 6, max 12


1.3.30 OTC58 OptiX OSN 3800A/6800A System Maintenance and Troubleshooting

Objectives


be able to:


for OptiX OSN 3800A/6800A products

Illustrate basic operation for OptiX OSN

3800A/6800A troubleshooting



OptiX OSN 3800A/6800A products



Target Audience



Prerequisites



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


Duration

1 working day

Class Size

Min 6, max 12


1.3.31 OTC59 OptiX BWS 1600S Operation and Maintenance

Objectives


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



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


Duration

2 working days


Class Size Min 6, max 12


1.3.32 OTC60 OptiX NPE (OSN 3500/7500/9500) Operation and Maintenance

Objectives


be able to:


of OptiX NPE equipment

Explain the functions and specifications of

different boards

Outline the capacity and ability of OptiX NPE

equipment



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



browsing, parameters setting, etc


troubleshooting methods, such as loop-back,

testing, alarm and performance events analysis,

replacement, etc



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




Troubleshooting Preparation

Troubleshooting Idea and Methods

Classified Troubleshooting Examples


Equipment Maintenance Operations

Equipment Operation and Maintenance Guide

Training Methods



Duration

3 working days

Class Size

Min 6, max 12


1.3.33 OTC61 OptiX SLM 1630/RPT 1660 Operation and Maintenance

Objectives


be able to:


of OptiX SLM/RPT equipment

Describe the functions and specifications of

different boards



mechanisms



browsing, parameters setting, etc

Implement the equipment hardware

configuration

Implement data configuration through

iManager U2000


troubleshooting methods



Target Audience

OptiX SLM/RPT equipment operation and


Prerequisites

Completion of OTC59 OptiX BWS 1600S



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


Duration

1 working day

Class Size

Min 6, max 12


1.3.34 OTC62 OptiX OSN 3800/6800/8800 (OTN) Protection

Objectives


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



＆ 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


Duration

3 working days

Class Size

Min 6, max 12


1.3.35 OTC64 OptiX OSN 3800/6800/8800 (OTN) Advanced Troubleshooting

Objectives


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



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


Duration

3.5 working days

Class Size

Min 6, max 12


1.3.36 OTC65 OptiX NG WDM ASON Operation&Maintenance

Objectives


be able to:





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


Prerequisites




3800/6800/8800(OTN) Products


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 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 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


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


Duration

3 working days

Class Size

Min 6, max 12


1.3.37 OTC66 OptiX NG WDM 40G OTU System Operation＆Maintenance

Objectives


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





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


Prerequisites




3800/6800/8800(OTN) Products


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



Adjusting 40G OTU Dispersion Compensation


Preparations

OSC Commissioning



items





Training Methods


Duration

3 working days

Class Size

Min 6, max 12


1.3.38 OTC67 OptiX NG WDM Features Special Topics

Objectives


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



Prerequisites




3800/6800/8800(OTN) Products


knowledge

Content


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


Principle of ALC

Configuration of ALC

Creating ALC Link Nodes

Checking ALC Links

Starting Automatic Link Adjustment

Training Methods


Duration

1 working day

Class Size

Min 6, max 12


1.3.39 OTC68 OptiX NG WDM Ethernet Protection Configuration

Objectives


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



Prerequisites




3800/6800/8800(OTN) Products


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


Duration

2 working days

Class Size

Min 6, max 12


1.3.40 OTC69 OptiX BWS 1600G 40G OTU System Operation＆Maintenance

Objectives


be able to:

Describe the 40G system key technology, such

as encoding scheme technology, dispersion

management, AFEC and OTN


OptiX BWS 1600G 40G OTU system

Describe the main functions of the 40G OTU

boards


BWS 1600G 40G OTU system


network elements of OptiX BWS 1600G 40G

OTU system



Implement the configuration of 40G service

with OptiX BWS 1600G product



mounted boards, etc


procedure for OptiX BWS 1600G 40G OTU

equipment


OptiX BWS 1600G 40G OTU equipment


channel


BWS 1600G 40G OTU equipment



List the daily and periodic maintenance items

and illustrate the basic operations of OptiX


Implement the routine maintenance and

troubleshooting of OptiX BWS 1600G 40G

OTU system

Target Audience

OptiX WDM system senior Operation and


Prerequisites


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






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


Duration

3 working days

Class Size

Min 6, max 12


1.3.41 OTC71 OptiX BWS 1600S(unrepeatered) Planning and Design

Objectives


be able to:


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


Prerequisites


Network Design Basics course or having


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


1.3.42 OTC80 OptiX OSN 3800A/6800A System Network Commissioning

Objectives


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



Target Audience

OptiX OSN 3800A/6800A network commissioning

engineer

Prerequisites




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


Duration

1 working day

Class Size

Min 6, max 12


1.3.43 OTC81 OptiX WDM 40G100G Coherent OTU Technology

Objectives


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


1.3.44 OTC82 OptiX NG WDM PID Special Topic

Objectives


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


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


Duration

1 working day

Class Size

Min 6, max 12


1.3.45 OTC85 OptiX NG WDM Packet Technology Introduction

Objectives


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


1.3.46 OTC86 OptiX OSN 8800 (Packet) Hardware, Networking & Application

Introduction

Objectives


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


engineer

Prerequisites


network


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


1.3.47 OTC87 OptiX OSN 8800 Packet Service Configuration

Objectives


be able to:

Implement the data configuration through

iManager U2000 for OSN 8800 packet service

and protection

Target Audience


engineer

Prerequisites


network


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


Duration

2 working days

Class Size

Min 6, max 12


1.3.48 OTC88 OptiX OSN 8800 Packet Features

Objectives


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


engineer

Prerequisites


network


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


Duration

1.5 working days

Class Size

Min 6, max 12


1.3.49 OTC89 OptiX OSN 8800 (Packet) Routine Maintenance

Objectives


be able to:

Implement the NMS side routine maintenance

for OSN 8800 (Packet)

Target Audience


engineer

Prerequisites


network


equipment

Content

NMS Side Routine Maintenance Items

Daily Maintenance Items

Monthly Maintenance Items

Quarterly Maintenance Items

Other NMS Side Operation

Training Methods


Duration

1 working day

Class Size

Min 6, max 12


1.3.50 OTC90 OptiX OSN 8800 (Packet) System Troubleshooting

Objectives


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


troubleshooting methods for packet network

Analyze common faulty of the OSN 8800

(Packet) network

Target Audience


engineer

Prerequisites


network


equipment

Content

OptiX OSN 8800 Packet troubleshooting

preparation


method


analyze ideas

OptiX OSN 8800 Packet troubleshooting case

study

Training Methods


Duration

1 working day

Class Size

Min 6, max 12


1.3.51 OTC110 OptiX NG WDM Packet Network Planning and Design

Objectives


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


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


1.3.52 OTC111 OptiX OSN 1800 System Introduction

Objectives


be able to:


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


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


1.3.53 OTC112 OptiX OSN 1800 Packet Service Configuration

Objectives


be able to:

Describe OSN 1800 product feature (packet)

Master packet services configuration

Outline the configuration of protection for OSN

1800 (packet)

Target Audience


engineer

Prerequisites


of WDM products


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


Duration

1.5 working days

Class Size

Min 6, max 12


1.3.54 OTC113 OptiX OSN 1800 Packet Features

Objectives


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


engineer

Prerequisites


of WDM products


Content

QoS Overview

QoS Models

QoS Technology

Application of QoS in OSN 1800 Equipment

QoS Configuration Practice in OSN 1800

Ethernet Port OAM


MPLS-TP OAM

Ethernet Port OAM Configuration Practice

Ethernet Service OAM Configuration Practice

MPLS-TP OAM Configuration Practice

OAM testing

Training Methods


Duration

1 working day

Class Size

Min 6, max 12


1.3.55 OTC114 OptiX OSN 1800 (Packet) Routine Maintenance

Objectives


be able to:

List the items of routine maintenance


U2000


Target Audience


engineer

Prerequisites


of WDM products


Content

Equipment Side Routine Maintenance






Training Methods


Duration

0.5 working day

Class Size

Min 6, max 12


1.3.56 OTC115 OptiX OSN 1800 (Packet) System Troubleshooting

Objectives


be able to:








Analyze common faulty of the OSN 1800

(Packet) network

Target Audience


engineer

Prerequisites


of WDM products


Content


preparation


method


analyze ideas

OptiX OSN 1800 Packet troubleshooting case

study

Training Methods


Duration

0.5 working day

Class Size

Min 6, max 12


1.3.57 OTC116 OptiX OSN 9800 Hardware Description & Application

Objectives


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


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



Perform the operations related to the OSN

9800 product protection

Configure client 1+1 protection and ODUk

subnet connection protection (SNCP)

Target Audience


engineer

Prerequisites


of WDM products


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


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


1.3.58 OTC117 OptiX OSN 9800 Products Configuration

Objectives


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.


U2000


on NMS side

Target Audience


engineer

Prerequisites


of WDM products


Content


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




Semiyearly Maintenance Items


Optical Power Management

Alarm Management

Performance Management

DCN Management


Trail Management

Report Management

Training Methods


Duration

2.5 working days

Class Size

Min 6, max 12


1.3.59 OTC118 OptiX OSN 9800 Commissioning

Objectives


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


engineer

Prerequisites


of WDM products


Content


Basic concepts


Power calculation of OptiX NG WDM main Path



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


Duration

1.5 working days

Class Size

Min 6, max 12


1.3.60 OTC119 OptiX OSN 9800 System Troubleshooting

Objectives


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


engineer

Prerequisites


of WDM products


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


Duration

1 working day

Class Size

Min 6, max 12


1.3.61 OTC120 OptiX OSN 9800 Hardware Description & Application Overview

Objectives


be able to:


OSN 9800

Outline the layout of OptiX OSN 9800 subrack



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



Perform the operations related to the OSN

9800 product protection

Configure client 1+1 protection and ODUk

subnet connection protection (SNCP)

Target Audience


engineer

Prerequisites


of WDM products


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


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


1.3.62 OTC121 OptiX OSN 9800 Products Configuration Overview

Objectives


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


Replace the boards

List the items of routine maintenance.


U2000


on NMS side

Target Audience


engineer

Prerequisites


of WDM products


Content


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


Cross-Connection


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


Basic Maintenance Operations

Replacing Boards and Components

Equipment Routine Maintenance Items







Alarm Management


DCN Management


Trail Management

Report Management

Training Methods


Duration

2 working days

Class Size

Min 6, max 12


1.3.63 OTC123 OptiX MDS 6630(Optical Power Commissioning)

Objectives


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


of WDM products


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


Duration

2 working days

Class Size

Min 6, max 12


1.3.64 OTC128 OptiX OSN 68008800 100G Operation and Maintenance

Objectives


be able to:

Describe the position and networking ability of

OptiX OSN 6800/8800

Outline the layout of OptiX OSN 6800/8800

subrack


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


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;


U2000


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


Cross-Connection


Basic Concepts of the Electrical Layer

Grooming

Boards Involved in Electrical Layer Grooming

WDM Services Configuring Example






Basic Concept


NE Optical Power Commissioning

100G Coherent/Mixed System Optical Power

Commissioning

Network Testing Items


Troubleshooting Methods Review

Cases Discussion

Training Methods


Duration

5 working days

Class Size

Min 6, max 12


1.3.65 OTC122 OptiX OSN 3800/6800/8800 Hardware Description & Signal Flow

Review

Objectives


be able to:

Describe the position and networking ability of

OptiX OSN 3800/6800/8800


OSN 3800/6800/8800



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


1.4 OSS Training Course Descriptions

1.4.1 ONU12 iManager U2000 LCT Operation

Objectives


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


1.4.2 OTD00 Solaris ＆ Sybase Basics

Objectives


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


Duration

1 working day

Class Size

Min 6, max 12


1.4.3 OTD01 OptiX iManager T2000 Basic Operation

Objectives


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


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


Duration

1 working day

Class Size

Min 6, max 12


1.4.4 OTD02 OptiX iManager Security ＆ Database Management

Objectives


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


Prerequisites


Content

NE Security Management

NMS Security Management

Operation Log Management

NE Data Management

NM Data Management

Training Methods


Duration

1 working day

Class Size

Min 6, max 12


1.4.5 OTD03 OptiX iManager T2000 Routine Maintenance ＆ Troubleshooting

Objectives


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


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


Duration

1 working day

Class Size

Min 6, max 12


1.4.6 OTD06 OptiX iManager T2000 Veritas Standby System Operation ＆

Maintenance

Objectives


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




Sybase Introduction


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


Incremental Synchronization

Full Synchronization

Routine Maintenance

Troubleshooting

Installation Preparations

Installation Procedure

Checking the Correctness of Installation

Training Methods


Duration

4 working days

Class Size

Min 2, max 6


1.4.7 OTD07 OptiX iManager T2000V2R7 Delta

Objectives


be able to:


T2000V2



Grasp T2000 V2R7 new function


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





Features of T2000V2





NE Management



Clock Management

Fault Management



DCN Management


ASON Management





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


Duration

2 working days

Class Size

Min 6, max 12


1.4.8 OTD08 U2100 System Operation and Maintenance

Objectives


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




Sybase Introduction


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


Duration

5 working days

Class Size

Min 6, max 12


1.4.9 OTD80 OptiX iManager T2000 System Introduction

Objectives


be able to:


T2000V2





T2000V2R7



Target Audience


Prerequisites


Content





Features of T2000V2





NE Management



Clock Management

Fault Management



DCN Management


ASON Management





Training Methods

Lecture

Duration

0.5 working day

Class Size

Min 6, max 12


1.5 MSTP Training Course Descriptions

1.5.1 OTA08 Hybrid MSTP Network Overview

Objectives


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


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


1.5.2 OTA09 Introduction to OptiX Products

Objectives


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


1.5.3 OTA10 OptiX SDH Ethernet Operation and Maintenance

Objectives


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


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)


testing


performance testing


indices


performance testing

Categories of Ethernet

Basic principle of Ethernet


Ethernet port Technology

VLAN basis ＆ L2 Switching

Ethernet performance testing and analyzing

Training Methods


Duration

3 working days

Class Size

Min 6, max 12


1.5.4 OTA12 ASON Operation and Maintenance

Objectives


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


Duration

2 working days

Class Size

Min 6, max 12


1.5.5 OTA13 OptiX SDH Network Design Basics

Objectives


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


Duration

1 working day

Class Size

Min 6, max 12


1.5.6 OTA14 OptiX SDH System Troubleshooting

Objectives


be able to:


locating


Analyze the typical faults: traffic interruption,

error bit, etc




replacement, etc

Analyze common faulty of the network consist

of OptiX NG SDH ＆ OCS series



Target Audience

SDH series equipment operation and maintenance

engineer

Prerequisites

Completion of OTA01 SDH Principle course or


Completion of OTA31 OptiX NG SDH ＆ OCS

Products Configuration course or having

working experience on OptiX SDH Products

Content







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


Duration

2 working days

Class Size

Min 6, max 12


1.5.7 OTA15 OptiX Metro 100/500 Operation and Maintenance

Objectives


be able to:

Describe the network applications of the OptiX

Metro 100


the OptiX Metro 100


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


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


Login Web-LCT

Configure NE Through Web-LCT

Maintenance NE Through Web-LCT

Training Methods


Duration

1 working day

Class Size

Min 6, max 12


1.5.8 OTA16 OptiX Metro 1000 First Line Maintenance

Objectives


be able to:


155/622H(Metro 1000) V300


the OptiX 155/622H(Metro 1000) V300


OptiX 155/622H(Metro 1000) V300


OptiX 155/622H(Metro 1000) V300


1000 equipment

List the maintenance tasks of OptiX Metro 1000

equipment


of OptiX Metro 1000 equipment

Outline the function of basic menus of OptiX

iManager T2000 LCT

Create topology including create NE/Link/NM


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


Equipment Level and Network Level Protection




Starting and Shutting Down the T2000-LCT

Opening/Closing the Online Help

Selecting Operation Objects

Setting Parameters in the List


Configure Services

Maintenance

Training Methods


Duration

1 working day

Class Size

Min 6, max 12


1.5.9 OTA17 OptiX Metro 1000 Commissioning

Objectives


be able to:


155/622H(Metro 1000) V300




OptiX 155/622H(Metro 1000) V300


OptiX 155/622H(Metro 1000) V300

Complete hardware and software

commissioning of OptiX Metro 1000 equipment

Interconnect all the equipment and perform



iManager T2000 LCT







LCT

Target Audience

OptiX Metro 1000 commissioning engineer

Prerequisites



Content


Sub-rack

Equipment Cards



Preparations before Commissioning

Single Station Commissioning

Network Commissioning






Configure Services

Maintenance

Training Methods


Duration

4 working days

Class Size

Min 6, max 12


1.5.10 OTA18 OptiX Metro 1000 Second Line Maintenance

Objectives


be able to:


155/622H(Metro 1000) V300




OptiX 155/622H(Metro 1000) V300


OptiX 155/622H(Metro 1000) V300


1000 Equipment

List the maintenance tasks of OptiX Metro 1000

Equipment


of OptiX Metro 1000 Equipment



T2000V2R7



Accomplish the network creation and SDH

service configuration of OptiX

155/622(H)(Metro 1000) equipment


locating



error bit, etc

Target Audience

OptiX Metro 1000 operation and maintenance

engineer

Prerequisites



Content


Sub-rack

Equipment Cards










Features of T2000V2





NE Management



Clock Management

Fault Management



DCN Management


ASON Management





Engineering Requirement

Engineering Planning

Engineering Preparation

Configuration Process





Training Methods


Duration

4 working days

Class Size

Min 6, max 12


1.5.11 OTA26 OptiX NG SDH ＆ OCS Installation

Objectives


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


Duration

2 working days

Class Size

Min 6, max 12


1.5.12 OTA27 OptiX NG SDH ＆ OCS Product Overview

Objectives


be able to:

List the function of transmission network



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


1.5.13 OTA28 OptiX NG SDH ＆ OCS System Description

Objectives


be able to:

Illustrate the networking applications of the

OptiX NG SDH ＆ OCS equipment


the OptiX NG SDH ＆ OCS equipment

Outline the system protection schemes of the


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


1.5.14 OTA29 OptiX NG SDH ＆ OCS Hardware Description （TDM）

Objectives


be able to:


NG SDH ＆ OCS equipment


the OptiX NG SDH ＆ OCS equipment





Target Audience

OptiX NG SDH ＆ OCS operation and


Prerequisites



Content

OptiX OSN 1500250035007500 Product

Introduction

The Cabinet, Sub-rack of OptiX OSN

1500250035007500

The Boards of OptiX OSN 1500250035007500


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


1.5.15 OTA30 OptiX SDH Equipment Operation and Maintenance

Objectives


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


OptiX SDH series equipment



Target Audience

OptiX SDH operation and maintenance engineer

Prerequisites



knowledge on SDH technology

Content

Safety labels

Laser precautions










Training Methods


Duration

0.5 working day

Class Size

Min 6, max 12


1.5.16 OTA31 OptiX NG SDH ＆ OCS Products Configuration

Objectives


be able to:

Accomplish the network protection and SDH

service configuration through NMS

Target Audience

OptiX NG SDH ＆ OCS operation and


Prerequisites

Completion of OTA01 SDH Principle and

OTA29 OptiX NG SDH ＆ OCS Hardware

Description （TDM） courses or having


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


1.5.17 OTA32 OptiX NG SDH ＆ OCS Commissioning

Objectives


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


Target Audience

OptiX NG SDH ＆ OCS commissioning engineer

Prerequisites


OTA29 OptiX NG SDH ＆ OCS Hardware

Description （TDM） courses or having


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


Duration

2 working days

Class Size

Min 6, max 12


1.5.18 OTA34 OptiX NG SDH ＆ OCS Features and Application

Objectives


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


Prerequisites


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


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


Duration

3 working days

Class Size

Min 6, max 12


1.5.19 OTA35 OptiX SDH Equipment Field Maintenance

Objectives


be able to:


iManager T2000 LCT







LCT

Target Audience

OptiX SDH field operation and maintenance

engineer

Prerequisites




Content






Configure Services

Maintenance

Training Methods


Duration

0.5 working day

Class Size

Min 6, max 12


1.5.20 OTA36 OptiX SDH Special Topics

Objectives


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



Prerequisites



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


Duration

2 working days

Class Size

Min 6, max 12


1.5.21 OTA37 OptiX SDH System Advanced Troubleshooting

Objectives


be able to:

Get further understand of the feature of OptiX


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



Prerequisites

Completion of OTA14 OptiX SDH System

Troubleshooting course or having basic


Content




Get further understand of the feature of OptiX




Locate the faulty of the failed network and

summarize the key point of troubleshooting



Training Methods

Lecture, Hands-on exercise, Discussion

Duration

2.5 working days

Class Size

Min 6, max 12


1.5.22 OTA39 OptiX OSN 2000 Operation ＆ Maintenance

Objectives


be able to:

Appreciate the networking applications of the

OptiX OSN 2000


the OptiX OSN 2000

Describe the main functions of the boards used

on the OptiX OSN 2000


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



T2000V2R7





List the status description of OptiX SDH series

equipment indicators

List the maintenance items of OptiX SDH

series equipment









Know the operation environment of NMS

List the maintenance tasks


Complete the maintenance records




locating



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


engineer

Prerequisites



Content

OptiX OSN 2000 Product Introduction

Cabinet、Subrack and Boards

Features



Sub-networks


Types of protection

Configuring SDH/PDH Services

Configuring Services in Different Protection

Schemes

Configuring Ethernet Services

Configuring the DCN






Features of T2000V2





NE Management



Clock Management

Fault Management



DCN Management


ASON Management





Safety labels

Laser precautions










Routine Maintenance for NMS

Routine Maintenance Operations for Network

through NMS

Browsing and Analyzing NE Alarms

Browsing Performance

Checking Networkwide Maintenance ＆

Switching Status




Service interruption case analyze

Bit error case analyze

Protection fault case analyze

Service instantaneous interruption case

analyze

Training Methods


Duration

8 working days

Class Size

Min 6, max 12


1.5.23 OTA40 OptiX SDH Equipment NMS Side Maintenance

Objectives


be able to:

Know the operation environment of NMS

List the maintenance tasks



Target Audience

OptiX SDH field operation and maintenance

engineer

Prerequisites




Content



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


1.5.24 OTA42 OptiX SDH Ethernet Advanced Operation ＆ Maintenance

Objectives


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


Prerequisites

Completion of OTA10 OptiX SDH Ethernet



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




Locate the trouble

Test the service

Summary

Ethernet Port OAM


ETH OAM Configuration and testing

Ethernet Port OAM



Ethernet troubleshooting cases analyze

Training Methods


Duration

4 working days

Class Size

Min 6, max 12


1.5.25 OTA45 Hybrid MSTP Technology Introduction

Objectives


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


OTA03 Ethernet Basics courses or having


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


1.5.26 OTA46 Hybrid MSTP Network Application

Objectives


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


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


1.5.27 OTA48 OptiX Hybrid MSTP Hardware Description

Objectives


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


OptiX OSN 1500/3500/7500/7500II

Target Audience


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


1.5.28 OTA49 OptiX Hybrid MSTP Products Configuration

Objectives


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


Prerequisites

Completion of OTA48 OptiX Hybrid MSTP

Hardware Description course or having basic


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


1.5.29 OTA50 OptiX Hybrid MSTP Features Application

Objectives


be able to:

Outline the QoS model

Describe QoS basic concepts


Describe the typical QoS application in Hybrid

MSTP network

Configure QoS in Hybrid MSTP system


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


application scene of MPLS-TP OAM


application scene of PW OAM

Accomplish the OAM testing

Locate the fault position when error reports

Target Audience


Prerequisites

Completion of OTA45 Hybrid MSTP Basics and

OTA49 OptiX Hybrid MSTP Products



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


MPLS OAM

MPLS-TP OAM

MPLS OAM

MPLS-TP OAM

MPLS OAM Configuration and testing

MPLS-TP OAM Configuration and testing

Training Methods


Duration

2 working days

Class Size

Min 6, max 12


1.5.30 OTA51 OptiX Hybrid MSTP Equipment NMS Side Operation and Maintenance

Objectives


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


Target Audience


Prerequisites

Have basic knowledge in Hybrid MSTP

equipment

Content






Training Methods


Duration

1 working day

Class Size

Min 6, max 12


1.5.31 OTA52 OptiX Hybrid MSTP Commissioning

Objectives


be able to:

Check the equipment condition such as power

connections, fiber connections, mounted

boards, etc


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




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)


Per-NE Commissioning

System Commissioning

Training Methods


Duration

2 working days

Class Size

Min 6, max 12


1.5.32 OTA53 OptiX Hybrid MSTP Field Maintenance

Objectives


be able to:

Outline the function of basic menus of

iManager U2000 LCT

Create topology including create NE/Link


configuration, and service dispatching and


iManager U2000 LCT

Perform the routine maintenance via U2000

LCT

Target Audience


Prerequisites




Content

OptiX iManager U2000 LCT menu

Create NE and Topology

Configure the NE service Create protection

subnet

Routine maintenance operation

Training Methods


Duration

0.5 working day

Class Size

Min 6, max 12


1.5.33 OTA54 OptiX Hybrid MSTP System Troubleshooting

Objectives


be able to:








Analyze common faulty of the Hybrid MSTP

network

Target Audience


Prerequisites


Hardware Description and OTA49 OptiX Hybrid

MSTP Products Configuration courses or


Content

OptiX Hybrid MSTP troubleshooting

preparation

OptiX Hybrid MSTP troubleshooting method

OptiX Hybrid MSTP troubleshooting analyze

ideas

OptiX Hybrid MSTP troubleshooting case study

NA




Locate the classified trouble, include Ethernet

service interrupt, packet loss, etc)

Summary

Training Methods


Duration

1.5 working days

Class Size

Min 6, max 12

Training Methods


Duration

7 working days

Class Size

Min 6, max 12


1.5.34 OTA60 OptiX OSN 500/550/580 (TDM) Hardware ＆ Networking

Objectives


be able to:


OptiX OSN 500/550/580 (TDM)


the OptiX OSN 500/550/580 (TDM)


on the OptiX OSN 500/550/580 (TDM)


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


Prerequisites



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



Sub-networks


Types of protection

Training Methods

Lecture

Duration

1.5 working days

Class Size

Min 6, max 12


1.5.35 OTA61 OptiX OSN 500/550/580 (TDM) Routine ＆ Maintenance

Objectives


be able to:


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


OptiX OSN 500/550/580 equipment


OSN 500/550/580 equipment

Target Audience



Prerequisites



Content

Safety labels

Laser precautions









through NMS

Training Methods


Duration

0.5 working day

Class Size

Min 6, max 12


1.5.36 OTA62 OptiX OSN 500/550/580 (TDM) Service ＆ Configuration

Objectives


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



Prerequisites



Content

Basic Concepts

EPL

EVPL

EPLAN

EVPLAN

Protection attributes configuration

TDM service configuration

EVPL service configuration

EPLAN service configuration

Training Methods


Duration

1.5 working days

Class Size

Min 6, max 12


1.5.37 OTA63 OptiX OSN 500/550/580 (TDM) Troubleshooting

Objectives


be able to:


locating

Outline the Fault Handling Flow


error bit, etc

Target Audience



Prerequisites



Content




Training Methods


Duration

0.5 working day

Class Size

Min 6, max 12


1.5.38 OTA64 OptiX OSN 500/550/580 (Packet) Hardware ＆ Networking

Objectives


be able to:


OptiX OSN 500/550/580(Packet)


the OptiX OSN 500/550/580 (Packet)


on the OptiX OSN 500/550/580(Packet)


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



Prerequisites




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


1.5.39 OTA65 OptiX OSN 500/550/580 (Packet) Routine ＆ Maintenance

Objectives


be able to:


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


OptiX OSN 500/550/580 Equipment


OSN 500/550/580 Equipment

Target Audience



Prerequisites




Content

Safety labels

Laser precautions












Training Methods


Duration

1 working day

Class Size

Min 6, max 12


1.5.40 OTA66 OptiX OSN 500/550/580 (Packet) Service ＆ Configuration

Objectives


be able to:

Master packet services on OSN 500/550/580

Target Audience



Prerequisites




Content


CES service configuration

E-Line service configuration

VPLS service configuration

Training Methods


Duration

1 working day

Class Size

Min 6, max 12


1.5.41 OTA67 OptiX OSN 500/550/580 (Packet) Special Topic

Objectives


be able to:

Describe QoS basic concepts

Outline the QoS model


Describe the typical QoS application in OSN

500/550/580 network


application of MPLS OAM


application of MPLS PW OAM


application of MPLS-TP OAM


application of MPLS-TP PW OAM

Target Audience



Prerequisites




Content

QoS Overview

QoS Models

QoS Technology

Application of QoS on OSN 500/550/580

Equipment

MPLS OAM

MPLS –TP OAM

Training Methods


Duration

1 working day

Class Size

Min 6, max 12


1.5.42 OTA68 OptiX OSN 500/550/580 (Packet) Troubleshooting

Objectives


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



Prerequisites




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


Duration

0.5 working day

Class Size

Min 6, max 12


1.5.43 OTA69 OptiX OSN 500/550/580 (TDM+Packet) Service ＆ Configuration

Objectives


be able to:

Explain OptiX OSN 500/550/580 (TDM)

Service ＆ Configuration

Master packet services on OSN 500/550/580

Target Audience



Prerequisites


Technology Introduction course and OTA01

SDH Principle course or having basic


Content


TDM service configuration


CES service configuration

E-Line service configuration

VPLS service configuration

Training Methods


Duration

1.5 working days

Class Size

Min 6, max 12


1.6 RTN Training Course Descriptions

1.6.1 OTF01 Digital Microwave Communication Basics

Objectives


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


1.6.2 OTF02 OptiX RTN 600 Hardware and Network Application

Objectives


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


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


1.6.3 OTF03 OptiX RTN 600 Operation & Maintenance

Objectives


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


RTN 600

Implement the maintenance operation of OptiX

RTN 600

Judge the common faulty in OptiX RTN 600

Target Audience


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


Duration

2.5 working days

Class Size

Min 6, max 12


1.6.4 OTF05 OptiX RTN 600 Field Maintenance

Objectives


be able to:


RTN 600


RTN 600


Target Audience

OptiX RTN 600 series field maintenance engineer

Prerequisites

Completion of OptiX RTN 600 Hardware and

Network Application course or having


Content

Routine maintenance items of OptiX RTN 600

Maintenance operation of OptiX RTN 600

Common faulty handling in OptiX RTN 600


RTN 600

Practice on maintenance operation of OptiX

RTN 600

Training Methods


Duration

1 working day

Class Size

Min 6, max 12


1.6.5 OTF06 OptiX RTN 600 Troubleshooting

Objectives


be able to:


locating

Outline the Fault Handling Flow


error bit, etc

Target Audience

OptiX RTN 600 series maintenance engineer

Prerequisites


Network Application and OptiX RTN 600

Operation & Maintenance courses or having


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


1.6.6 OTF07 OptiX RTN 600 Installation

Objectives


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


Duration

0.5 working day

Class Size

No limit


1.6.7 OTF08 OptiX RTN 600 Commissioning

Objectives


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




Content

Proper preparations before the commissioning

NE commissioning items of the OptiX RTN 600

Hop commissioning items of the OptiX RTN

600


NE commissioning items of the OptiX RTN 600


600

Training Methods


Duration

1 working day

Class Size

Min 6, max 12


1.6.8 OTF14 OptiX RTN 900 V100R001 Field Operation & Maintenance

Objectives


be able to:


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


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


RTN 900


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


RTN 910/950

Training Methods


Duration

1 working day

Class Size

Min 6, max 12


1.6.9 OTF15 OptiX RTN 900 V100R001 Operation & Maintenance

Objectives


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


Prerequisites

Completion of OptiX RTN 900 V100R001

Hardware & Network Application course or


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


testing


performance testing


indices


performance testing




VLAN basis & L2 Switching


NE commissioning items of the OptiX RTN

910/950


910/950

Network commissioning of the OptiX RTN

910/950


NE commissioning items of the OptiX RTN

910/950


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



Training Methods



Duration

7 working days

Class Size

Min 6, max 12


1.6.10 OTF17 OptiX RTN 900 V100R002 Hardware & Network Application

Objectives


be able to:


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



Microwave

Describe the networking application under

PDH/SDH and hybrid microwave modes


RTN 900 network



Explain the application of OptiX RTN 900

Ethernet services

Target Audience



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



PDH/SDH and hybrid microwave modes


RTN 910/950 network



Explain the application of OptiX RTN 910/950

Ethernet services

Training Methods

Lecture

Duration

1 working day

Class Size

Min 6, max 12



Objectives


be able to:


of OptiX RTN 900


of antenna, ODU/hybrid coupler and IDU

Implement the outdoor and indoor components

installation of OptiX RTN 900


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


1.6.12 OTF19 OptiX RTN 900 V100R002 Commissioning

Objectives


be able to:


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


Site commissioning items of the OptiX RTN

910/950

System commissioning items of the OptiX RTN

910/950

Training Methods


Duration

1 working day

Class Size

Min 6, max 12


1.6.13 OTF20 OptiX RTN 900 V100R002 Field Maintenance

Objectives


be able to:

Outline the general safety precautions of OptiX

RTN 900


RTN 900


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


RTN 910/950

Training Methods


Duration

1.5 working days

Class Size

Min 6, max 12


1.6.14 OTF21 OptiX RTN 900 V100R002 Data Configuration

Objectives


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



Prerequisites




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


Duration

2 working days

Class Size

Min 6, max 12


1.6.15 OTF22 OptiX RTN 900 V100R002 Troubleshooting

Objectives


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



Prerequisites



and OTF21 OptiX RTN 900 V100R002 Data


knowledge

Content

General troubleshooting flow of OptiX RTN

910/950

Methods of faults analyzing and locating

Common troubleshooting processing for OptiX

RTN 910/950


Training Methods


Duration

1 working day

Class Size

Min 6, max 12


1.6.16 OTF23 Hybrid Services Testing

Objectives


be able to:


Know the technical background of the Ethernet

and its basic concepts

Draw the Ethernet frame structure

Describe the function of VLAN and L2

switching


testing


performance testing

Explain the concept of common testing indices


performance testing

Target Audience

OptiX RTN 900 series senior operation and


Prerequisites

NA

Content



testing


performance testing


indices


performance testing




VLAN basis & L2 Switching


Basic Principle of Ethernet

Ethernet Port Technology

VLAN Basis & L2 Switching

Training Methods


Duration

1.5 working days

Class Size

Min 6, max 12


1.6.17 OTF24 OptiX RTN 900 V100R002 QOS & OAM Technology

Objectives


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



and OTF21 OptiX RTN 900 V100R002 Data


knowledge


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


Duration

1.5 working days

Class Size

Min 6, max 12


1.6.18 OTF25 OptiX RTN 900 V100R002 Clock & DCN Processing

Objectives


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



Prerequisites




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


Duration

1 working day

Class Size

Min 6, max 12


1.6.19 OTF26 OptiX RTN 900 V100R002 Troubleshooting Case Study

Objectives


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



Prerequisites


V100R002 Troubleshooting course or having


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


Duration

1 working day

Class Size

Min 6, max 12


1.6.20 OTF29 OptiX RTN 900 Data Configuration (Packet Domain)

Objectives


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


1.6.21 OTF30 OptiX RTN 900 System Control Unit and IF Feature Topic

Objectives


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



Prerequisites




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


1.6.22 OTF31 OptiX RTN 900 Clock & DCN Topic

Objectives


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


Target Audience



Prerequisites

Completion of OptiX RTN 900 Hardware &

Network Application and OptiX RTN 900 Data


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


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


1.6.23 OTF32 OptiX RTN 900 Network Application

Objectives


be able to:


PDH/SDH, hybrid and packet microwave

modes


RTN 900 network



Target Audience


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


1.6.24 OTF33 OptiX RTN 900 Field Operation & Maintenance

Objectives


be able to:

Outline the general safety precautions of OptiX

RTN 900


RTN 900

Implement the maintenance operations of

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


RTN 900

Training Methods


Duration

1 working day

Class Size

Min 6, max 12


1.6.25 OTF34 OptiX RTN 900 NE Database Topic

Objectives


be able to:

Describe the functions of CF card

Routing maintenance of NE database

Backup NE database

Target Audience


engineer

Prerequisites




knowledge

Content

NE Database Introduction

NE Database Common Operations

Training Methods


Duration

0.5 working day

Class Size

Min 6, max 12


1.6.26 OTF35 OptiX RTN 900 Troubleshooting

Objectives


be able to:


OptiX RTN 900


locating


RTN 900

Target Audience


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)


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


1.6.27 OTF36 OptiX RTN 900 QoS & OAM Technology

Objectives


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



Prerequisites


Network Application and OptiX RTN 900 Data


knowledge


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


Duration

1.5 working days

Class Size

Min 6, max 12



Objectives


be able to:


commissioning


900


RTN 900

Target Audience

OptiX RTN 900 series Commissioning engineer

Prerequisites




Content

Practice on site and system commissioning by

Web LCT

Practice on site and system commissioning by

U2000

Training Methods


Duration

1 working day

Class Size

Min 6, max 12


1.6.29 OTF42 OptiX RTN 900 V100R001 Hardware & Network Application

Objectives


be able to:


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


Describe the classification of the services in the

OptiX RTN 900 network

Describe the networking application of OptiX

RTN 900


RTN 900 network



Target Audience



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


1.6.30 OTF44 OptiX RTN 900 V100R002 Data Configuration (Scenarized For Second

Line)

Objectives


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



Prerequisites




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


Duration

0.5 working day

Class Size

Min 6, max 12


1.6.31 OTF45 OptiX RTN 900 V100R002 System Description

Objectives


be able to:


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


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


Training Methods

Lecture

Duration

0.5 working day

Class Size

Min 6, max 12


1.6.32 OTF46 OptiX RTN 900 Data Configuration (Hybrid Domain)

Objectives


be able to:


Configure TDM services of the OptiX RTN 900

Configure Ethernet services of the OptiX RTN

900

Target Audience


engineer

Prerequisites




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


Duration

2 working days

Class Size

Min 6, max 12


1.6.33 OTF47 OptiX RTN 900 System Description

Objectives


be able to:


900


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


1.6.34 OTF48 OptiX RTN Microwave Network Overview

Objectives


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


1.6.35 OTF80 OptiX RTN 300 System Description

Objectives


be able to:


300


application of every unit


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


1.6.36 OTF81 OptiX RTN 300 Feature Description

Objectives


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



Objectives


be able to:

Implement the installation of OptiX RTN 300


of OptiX RTN 300


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



Objectives


be able to:


commissioning


300


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


Duration

1 working day

Class Size

Min 6, max 12


1.6.39 OTF84 OptiX RTN 300 Data Configuration

Objectives


be able to:


Configure services of the OptiX RTN 300

Target Audience


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


Duration

1.5 working days

Class Size

Min 6, max 12


1.6.40 OTF85 OptiX RTN 300 Field Operations & Maintenance

Objectives


be able to:


RTN 300


RTN 300


Target Audience

OptiX RTN 300 field maintenance engineer

Prerequisites

Having a general knowledge of digital


Content

Safety Precautions

Routine Maintenance

Common Maintenance Operations

Common Maintenance Operations Guide

Training Methods


Duration

1.5 working days

Class Size

Min 6, max 12


1.6.41 OTF86 OptiX RTN 300 Maintenance and Troubleshooting

Objectives


be able to:

Implement the routine maintenance via NMS


OptiX RTN 300


locating


RTN 300

Target Audience


engineer

Prerequisites



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


1.7 Planning and Design Training Course Descriptions

1.7.1 OTF40 OptiX RTN Network Planning Basic

Objectives


be able to:

Familiar with the microwave network design

contents

Know the basic information about microwave

planning

Target Audience

Microwave network planning engineer

Prerequisites




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


1.7.2 OTF49 OptiX RTN Network Planning

Objectives


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


Prerequisites

Having a general knowledge of Digital

Microwave Communication


QinQ


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


1.7.3 OTF51 OptiX RTN Clock & DCN Planning

Objectives


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


Prerequisites




QinQ


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


1.7.4 OTF59 OptiX RTN Network Service Planning (Hybrid)

Objectives


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


Prerequisites




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


1.7.5 OTF60 OptiX RTN Network Service Planning (Packet)

Objectives


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


Prerequisites



Having the general knowledge of IP, MPLS


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


1.7.6 OTF61 OptiX RTN Network Planning Case Analysis

Objectives


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


Prerequisites





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


1.7.7 OTF62 OptiX RTN Network QoS Planning

Objectives


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


Prerequisites





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


1.8 Assessment and Optimization Training Course Descriptions

1.8.1 OTF63 Microwave Network Performance Assessment

Objectives


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


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


1.8.2 OTF64 Microwave Network General Assessment

Objectives


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



Prerequisites




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


1.8.3 OTF65 Microwave Network Assessment Case Analysis

Objectives


be able to:


assessment

Complete microwave network capacity

assessment

Complete microwave network frequency

assessment

Complete microwave network reliability

assessment

Complete microwave network NMS DCN

assessment

Target Audience



Prerequisites




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


1.8.4 OTF66 Microwave Network Optimization

Objectives


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



Prerequisites

Be familiar with OptiX RTN equipment



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


1.8.5 OTF67 Microwave Network Optimization Case Analysis

Objectives


be able to:


optimization

Complete microwave network capacity

optimization

Complete microwave network frequency

optimization

Complete microwave network reliability

optimization

Complete microwave network NMS DCN

optimization

Target Audience



Prerequisites

Be familiar with OptiX RTN equipment



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


1.9 Assessment and Optimization Training Course Descriptions

1.9.1 OTA43 SDH Network Expansion ＆ Reconstruction

Objectives


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


Products Configuration and OTA14 OptiX SDH

System Troubleshooting courses or having


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


Duration

3 working days

Class Size

Min 4, max 8


1.9.2 OTA93 SDH Network Assessment

Objectives


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


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


OTA02 SDH Networking and Protection


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


1.9.3 OTA94 SDH Network Optimization

Objectives


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


network security optimization

Describe the measures about SDH survivable

network optimization

List the methods about trail usability

optimization


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


1.9.4 OTC51 OptiX WDM Network Expansion

Objectives


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


Basic concepts


Power calculation of OptiX NG WDM main ath

OptiX WDM network expansion preparative

OptiX WDM network expansion implementation

Training Methods


Duration

2 working days

Class Size

Min 4, max 8


1.9.5 OTC52 OptiX WDM Network Reconstruction

Objectives


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



Prerequisites





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


Duration

3 working days

Class Size

Min 4, max 8


1.9.6 OTC72 OptiX WDM Network Assessment

Objectives


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


Target Audience



Prerequisites





program

Content


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


1.9.7 OTC73 OptiX WDM Network Optimization

Objectives


be able to:

Describe the method for optimizing design


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


Describe the process of optimizing operating


Design solutions to optimizing operating


Target Audience



Prerequisites





program

Content


Overview

Optimization Objectives

Optimization Project Design

Optimization Implementation

Network and Service Introduction

Contents and Objective of Network Design

Performance Optimization

Practice ＆ Summary


Overview

Optimization Objectives

Optimization Project Design

Optimization Implementation

Network and Service Introduction

Contents and Objective of Network Running

Performance Optimization

Practice ＆ Summary

Training Methods


Duration

1 working day

Class Size

Min 4, max 8


1.10 Principle Training Course Descriptions

1.10.1 OTA00 SDH Overview

Objectives


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


1.10.2 OTA01 SDH Principle

Objectives


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


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


1.10.3 OTA02 SDH Networking and Protection

Objectives


be able to:


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


engineer

Prerequisites



Content



Sub-networks


Types of protection

Training Methods

Lecture

Duration

1 working day

Class Size

Min 6, max 12


1.10.4 OTA03 Ethernet Basics

Objectives


be able to:


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



Content


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


1.10.5 OTA07 ASON Basics

Objectives


be able to:





Target Audience

Technical manager, ASON operation and


Prerequisites



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


1.11 Transmission Engineer Certification Training Course Descriptions

1.11.1 OTH01 Transmission Technologies and Device

Objectives


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


and their features

Explain the protection mechanism of

MSP/SNCP


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


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


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


Duration

15 working days

Class Size

Min 6, max 16


1.11.2 OTH02 Building Carrier MSTP Transmission Network

Objectives


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


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


Duration

10 working days

Class Size

Min 6, max 16


1.11.3 OTH03 Building Carrier OTN Transmission Network

Objectives


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




replacement, etc



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


Overview of testing



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


Principle of ALC

Configuration of ALC

Creating ALC Link Nodes

Checking ALC Links

Starting Automatic Link Adjustment


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





maintenance items


items






Alarm Management


Overview



Overview



Overview

Basic Rules and Methods of Fault Locating

Rectifying different types of faults

Training Methods


Duration

10 working days

Class Size

Min 6, max 16


1.12 Evolution and Trends Training Course Descriptions

1.12.1 OTA19 All IP Transport Network Solution

Objectives


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


Prerequisites



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

Transmission Network - Huaweie-learning.huawei.com/zone/pub/lsportal/en/pdf/Network/2014... ·...

Documents

Transcript of Transmission Network - Huaweie-learning.huawei.com/zone/pub/lsportal/en/pdf/Network/2014... ·...