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www.mpirical.com
MPIRICAL
Mpirical Training and Development
2015 Catalogue
-
Mpirical Training and Development
For up to date news on what we can offer, please visit mpirical.com2
-
Catalogue 2015
Email: [email protected] 3
Plan the very best training for you and your team.The challenges facing telecoms organizations today mean that networks need to be more efficient than ever.
Keeping staff skills at the correct level when networks are evolving at an unprecedented rate is a challenge that cannot be underestimated.
Ensuring you and your team have the tools they need to drive your network to its most efficient is vital to your success.
One size does not fit all.One style of training does not work for everybody. We have a range of training delivery options to meet your needs.
LiveOnsiteFor courses, such as those investigating in-depth fault finding and troubleshooting then our trainer will need to be onsite with your team so they can really get into the technical detail.
LiveOnlineWhere a formal face-to-face training session is not essential then a really effective option is our LiveOnline delivery. Students interact live with other students and the trainer from their desktop.
OnlineAnytimeFor those who cant spare the time, or like to learn at their own pace then our OnlineAnytime. option is ideal. The training is video based and you can access it where and when you want. Its full of exercises and activities to keep it engaging.
The LearningZoneIn a fast paced world, flexible accessible learning is essential. Our award-winning Learning Management System ties together all the elements of your end to end learning to ensure this is so.
With the LearningZone you get access to your resources 24/7.
On your pc, tablet or smartphoneAll your online resources are formatted so you can access them from all your devices.
E-Book Format - Our e-book format means its fully referenced, searchable and always handy when you need it.
On The Cloud - We also store a copy for you on The Cloud, so should you ever lose it there will always be a copy you can access.
Student Guides - Detailed explanations and carefully colour coded diagrams make difficult concepts easy to understand. Your student guide is a reference book you will come back to again and again.
Student Exercises - To understand difficult technical concepts you need to do it for yourself. All our courses come with a complete suite of exercises for you to do. Learn the theory, see it for real and then have a go yourself. You will be amazed at what you can achieve.
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Mpirical Training and Development
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Table of Contents 4
GSM and GPRS 6GSM & GPRS System Engineering 6
GSM and GPRS Air Interface 7
Evolved EDGE 8
UMTS and HSPA+ 10UMTS System Engineering 10
Analysing the 2G and 3G Core Network 11
UMTS Air Interface 14
Analyzing HSPA+ 15
UMTS Radio Planning 16
Analyzing the UTRAN 17
LTE Core Technology 20LTE System Engineering 20
Analyzing the EPC 21
Troubleshooting the EPC 24
Roaming in LTE 24
VoLTE 25
LTE RAN Technology 28Analyzing the E-UTRAN 28
Troubleshooting the E-UTRAN 29
LTE Air Interface 30
LTE Radio Planning 33
Self Organizing Networks 34
IMS and PCC 35IMS and PCC System Engineering 35
Policy and Charging Control 36
Analyzing the IMS 37
Rich Communication Services 38
IP and Protocols 40IP for Next Generation Networks 40
IPv6 40
IP Network Security 41
Packet Transport Networks 42
Delivering IPTV 44
SS7 and Sigtran 45
Emerging Technologies 48
An Introduction to Network Functions Virtualization 48
An Introduction to Cloud Computing 49
Wi-Fi Offload 49
Deploying Small Cells 50
OnlineAnytime End to End Courses 51GSM & GPRS System Engineering 51
UMTS System Engineering 51
LTE System Engineering 51
IMS and PCC System Engineering 51
Wi-Fi General Operation 52
Mobile Telecoms Fundamentals 52
LTE Protocols 52
Packet Transport Networks 52
Self Organizing Networks 53
Table of Contents
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Catalogue 2015
Email: [email protected] 5
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GSM
and
GPR
S
GSM and GPRS
GSM & GPRS System Engineering
Duration: 2 days or 12 hours. Delivery Options: LiveOnsite, LiveOnline. Prerequisites: General knowledge of telecoms.
This course will contain the following sections:
GSM & GPRS Architecture
Duration: 1 hour.
Topic areas covered include:
GERAN Architecture: MS, BTS, BSC and PCU.
Core Network Architecture: MSC Server, MGW, SGSN and GGSN.
Network Databases: VLR, HLR, EIR and AuC.
GSM & GPRS Air Interface
Duration: 1 hour.
Topic areas covered include:
GSM & GPRS Frequency Bands. Modulation Techniques and Coding. TDMA and Frequency Reuse. GSM & GPRS Frame Structures:
Frames and Multiframes.
GSM & GPRS Initial Procedures
Duration: 2.5 hours.
Topic areas covered include:
Mobility Management: Idle, Dedicated, Standby and Ready. Cell Selection and Re-selection.
GSM Attach: HPLMN and VPLMN. Pooling.
GPRS Attach: HPLMN and VPLMN. Combined Attach.
Activity: signalling analysis of an IMSI Attach and GPRS Attach procedure using Mpiricals NetX.
GSM & GPRS Security
Duration: 1 hour.
Topic areas covered include:
GSM & GPRS Authentication. GSM & GPRS Encryption. Activity: signalling analysis of GSM & GPRS security
procedures using Mpiricals NetX.
GSM Circuit Switched Operation
Duration: 2.5 hours.
Topic areas covered include:
GSM Mobile Originated Call Setup. HPLMN and VPLMN.
GSM Mobile Terminated Call Setup: HPLMN and VPLMN.
Text Messaging: Mobile Originated SMS. Mobile Terminated SMS.
Activity: signalling analysis of a GSM Mobile Originated and Mobile Terminated Call Setup procedure using Mpiricals NetX.
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Catalogue 2015
Email: [email protected] 7
GSM
and GPRS
GPRS Packet Switched Operation
Duration: 2.5 hours.
Topic areas covered include:
Session Management. GPRS PDP Context Management:
Activate, Modify and Delete. GPRS Data Transfer:
Gi, Gn/Gp, Gb and Um. Circuit Switched Interworking:
Suspend and Resume. Dual Transfer Mode.
Activity: signalling analysis of a GPRS PDP Context Activation procedure using Mpiricals NetX.
GSM & GPRS Mobility
Duration: 1.5 hours.
Topic areas covered include:
GSM Mobility: Location Area Update. Handover.
GPRS Mobility: Cell Re-selection. Routing Area Update. Packet Handover.
GSM & GPRS Roaming. Activity: signalling analysis of a GSM Handover and
GPRS Routing Area Update procedure using Mpiricals NetX.
GSM and GPRS Air Interface Duration: 2 days or 12 hours. Delivery Options: LiveOnsite, LiveOnline. Prerequisites: GSM and GPRS System Engineering, or
equivalent knowledge.
This course will contain the following sections:
The GSM/EGPRS Air Interface
Duration: 2 hours.
Topic areas covered include:
Frequency Allocations around the World - GSM, E-GSM, GSM-R.
Frequency Reuse and Cell Planning Issues. Modulation Techniques - GMSK and 8PSK. TDMA - Frames, Multiframes and Superframes. Burst Formats - Frequency Correction, Synchronization,
Access, Normal (GMSK / 8PSK) and Dummy.
GSM Air Interface Protocols
Duration: 2 hours.
Topic areas covered include:
Air Interface Signalling - Dedicated and Common Channel.
Layer 2 Protocols - LAPDm, Type A, B, Bbis and C. Link Layer Procedures - Frame Formats, SAPIs and SMS
support. Layer 3 Protocols - RR and DTAP. RR and DTAP - Operation and Messages.
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GSM
and
GPR
S
GSM Air Interface Procedures
Duration: 2 hours.
Topic areas covered include:
Power On - Frequency and Time Synchronization. GSM System Information Message Analysis. Cell Selection - C1 Parameters. IMSI Attach. Mobile Originated and Terminated Call Setup -
detailed analysis of signalling over the air interface. Measurement Reports, Power Control and Timing
Advance. Channel Optimization - Frequency Hopping and DTX. Supplementary Services - Procedures for Call Related
and Call Independent. SMS Transfer and SMS Protocols - SM-CP, SM-RP and
SM-TP. Activity: detailed analysis of the IMSI Attach
procedureusing Mpiricals NetX.
GSM Mobility
Duration: 2 hours.
Topic areas covered include:
Mobility in Idle Mode - Cell Re-selection, C2 parameters and Location Updates.
Mobility in Dedicated Mode - Handovers, Handover Triggers and Thresholds.
Handover Types - Non-synchronized, Pseudo-synchro-nized, Finely-synchronized and Pre-synchronized.
GSM Handover Procedures. Interworking with UMTS - Handovers and Relocations. Activity: detailed analysis of GSM Handovers using
Mpiricals NetX.
GPRS Air Interface Procedures
Duration: 1.5 hours.
Topic areas covered include:
The GPRS Air Interface Protocols Part 1 - SNDCP and LLC.
GPRS Signalling Procedures - GPRS Attach. GPRS Timing Advance Operation. Activity: detailed analysis of the GPRS Attach proce-
dure using Mpiricals NetX.
GPRS Resource Allocation & Operation
Duration: 2 hours.
Topic areas covered include:
The GPRS Air Interface Protocols Part 2 - RLC and MAC. Uplink and Downlink Resource Allocation - Dynamic,
Extended and Exclusive. Uplink and Downlink Packet Data Transfer - TBF and
Packet Ack / Nack. Error Coding - CS1 to CS4.
EDGE Resource Allocation & Operation
Duration: 0.5 hours.
Topic areas covered include:
EDGE - Introducing 8PSK Modulation. The Modified GPRS Air Interface Protocols - RLC and
MAC. EGPRS Operation - Modifications and Capabilities.
Evolved EDGE Duration: 1 days or 6 hours. Delivery Options: LiveOnsite, LiveOnline. Prerequisites: GSM and GPRS Air Interface, or
equivalent knowledge.
This course will contain the following sections:
Introduction to EGPRS2
Duration: 2 hours.
Topic areas covered include:
Evolved EDGE - The Commercial Drivers and Implications.
Evolved EDGE - Feature Set Review and Upgrade Path Options.
Performance Analysis - EGPRS, HSPA, HSPA+ and LTE.
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Catalogue 2015
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GSM
and GPRS
The Feature Set
Duration: 2 hours.
Topic areas covered include:
Latency Reduction - Fast Ack / Nack and Piggy Backing.
Downlink Dual Carrier - Impact on MS and BTS. Higher Order Modulation - 16QAM and 32QAM. Increased Symbol Rate - EGPRS2-A and EGPRS2-B. Receiver Diversity in the Mobile.
EGPRS2 Resource Allocation and Operation
Duration: 2 hours.
Topic areas covered include:
The Modified GPRS Air Interface Protocols - RLC and MAC.
EGPRS2 Operation - Modifications and Capabilities. Coding Puncturing and Interleaving - DAS, DBS, UAS
and UBS.
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UM
TS a
nd H
SPA
+
UMTS and HSPA+
UMTS System Engineering Duration: 2 days or 12 hours. Delivery Options: LiveOnsite, LiveOnline. Prerequisites: General knowledge of telecoms.
This course will contain the following sections:
UMTS Architecture
Duration: 1 hour.
Topic areas covered include:
UTRAN Architecture: UE, Node B and RNC. Femto Cells.
Core Network Architecture: MSC Server, MGW, SGSN and GGSN.
Network Databases: VLR, HLR, EIR and AuC.
UMTS Air Interface
Duration: 1 hour.
Topic areas covered include:
UMTS Frequency Bands. Modulation Techniques and Coding. CDMA Basics:
Spreading and Scrambling Codes. UMTS Frame Structures. HSPA+.
UMTS Initial Procedures
Duration: 2.5 hours.
Topic areas covered include:
UMTS Mobility Management: Detached, Connected and Idle. Cell Selection and Re-selection:
RRC Connection Establishment. Circuit Switched Attach:
HPLMN and VPLMN. Pooling.
Packet Switched Attach: HPLMN and VPLMN. Combined Attach.
Activity: signalling analysis of an IMSI Attach and PS Attach procedure using Mpiricals NetX.
UMTS Security
Duration: 1 hour.
Topic areas covered include:
UMTS Authentication. UMTS Encryption. Activity: signalling analysis of UMTS security
procedures using Mpiricals NetX.
UMTS Circuit Switched Operation
Duration: 2.5 hours.
Topic areas covered include:
UMTS Mobile Originated Call Setup: HPLMN and VPLMN.
UMTS Mobile Terminated Call Setup: HPLMN and VPLMN.
Delivering SMS: Mobile Originated SMS. Mobile Terminated SMS.
Activity: signalling analysis of a UMTS Mobile Originat-ed and Mobile Terminated Call Setup procedure using Mpiricals NetX.
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Catalogue 2015
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UM
TS and HSPA
+
UMTS Packet Switched Operation
Duration: 2 hours.
Topic areas covered include:
UMTS Session Management: Activate, Modify and Delete. Direct Tunnel Mode.
UMTS Packet Data Transfer: Gi, Gn/Gp, Iu-PS and Uu.
Activity: signalling analysis of a UMTS PDP Context Activation procedure using Mpiricals NetX.
UMTS Mobility
Duration: 1 hour.
Topic areas covered include:
Soft Handover: Active Set Update.
Hard Handover. RNC Relocation. Roaming. Activity: signalling analysis of an Active Set Update and
RNC Relocation procedures using Mpiricals NetX.
Interworking with GSM and GPRS
Duration: 1 hour.
Topic areas covered include:
Interworking with GSM and GPRS: Circuit Switched Operation. Packet Switched Operation. Packet Switched Handover.
Analysing the 2G and 3G Core Network
Duration: 3 days or 18 hours. Delivery Options: LiveOnsite, LiveOnline. Prerequisites: UMTS System Engineering, or equivalent
knowledge.
This course will contain the following sections:
Carrier Grade IP
Duration: 1.5 hours.
Topic areas covered include:
The Voice and Packet Core. Migration to a Packet Switched Transport Network -
ARPU, OPEX, CAPEX. Motivation for the IP Soft Switch. Soft Switch Advantages and Disadvantages. Voice Core Protocol Placement:
BICC, Sigtran, SIP, H.248, MGCP, RTP/RTCP, MAP etc. Overall Operation - High Level Call Flow.
Packet Core Protocol Placement. GTP User and Control Plane, MAP. Overall Operation Data Session Establishment.
IP Transmission and Switching
Duration: 1.5 hours.
Topic areas covered include:
IP Transport Network Basics. MPLS and its Key Features:
Concepts of operation. Traffic Engineering, Resiliency and Redundancy,
Traffic Separation. Carrier Ethernet.
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UM
TS a
nd H
SPA
+
IP Signalling Aspects
Duration: 1.5 hours.
Topic areas covered include:
Sigtran Components: SGW, STP, SCTP, User Adaptation.
SCTP Architecture: Associations, Endpoints, Streams, Chunks.
SCTP Association Establishment: INIT, INIT-ACK, COOKIE-ECHO, COOKIE-ACK.
SCTP Data Transmission and Acknowledgement: TSN, SSN, SID, SACK.
User Adaptation Layers: SUA, IUA, M3UA, M2UA, M2PA.
Activity: signalling analysis of Sigtran traffic using Mpiricals NetX.
Media Description
Duration: 1 hour.
Topic areas covered include:
SDP Composition: Session and Media Level Parameters.
SDP Transport Options: SIP, H.248, BICC etc.
Session Level Parameters. Media Level Parameters.
IP Traffic Aspects
Duration: 1.5 hours.
Topic areas covered include:
RTP and RTCP Overview. RTP Key Functionality:
RTP Header Fields. RTP and Voice Codecs. Compression. RTCP Reports and their Key Components - Sender,
Receiver, SDES, Bye, App.
Quality of Service Issues
Duration: 1 hour.
Topic areas covered include:
Problems in IP Networks for QoS: Jitter, dropped packets, delay, mis-sequencing etc.
QoS Mechanisms for IP: IntServ and RSVP. DiffServ.
Additional QoS Mechanisms for Packet Networks: 802.1p, MPLS-TE, BFD, SBCs etc.
Media Gateway Control Protocols
Duration: 1 hour.
Topic areas covered include:
H.248 Protocol Architecture - Capabilities and Features. H.248 Transactions - Contexts, Terminations, Com-
mands, Descriptors. H.248 Packages - Specific packages employed in the
3GPP Release 5 architecture. Message Flow for Call Establishment and Termination. MGCP Architecture - Differences between H.248 and
MGCP. Activity: analysis of real network traces using Mpiricals
NetX.
Bearer Independent Call Control
Duration: 1 hour.
Topic areas covered include:
BICC CS1 and CS2. BICC CS2 Key Functions:
CSF, BCF, MCF etc. ISUP Message Format. IPBCP. BICC Call Establishment. Activity: signalling analysis of BICC based call proce-
dures using Mpiricals NetX.
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Catalogue 2015
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UM
TS and HSPA
+
Session Initiation Protocol
Duration: 2.5 hours.
Topic areas covered include:
SIP Capabilities. SIP Identities and Functional Elements:
AoR, Proxy, Registrar, Redirect. Methods:
Register, Invite, Ack, Cancel, Bye, Options. SIP Registration and Registration Security. SIP Session Establishment. Development of SIP:
SIP Working Groups, SIMPLE, SIPPING. Areas of Development:
Header Fields, Methods, Warning Codes, Security Mechanisms.
Additional Methods: Publish, Subscribe, Notify, Prack, Info, Update,
Message, Refer. Problems associated with Firewalls and NAT. NAT Traversal Techniques:
UPnP, ICE, SBC. Activity: signalling analysis of SIP Registration and
Session Establishment using Mpiricals NetX.
End to End Call Procedures
Duration: 1.5 hours.
Topic areas covered include:
Protocol Interoperation during Call Establishment. Interaction with the UTRAN - Key RANAP messages. Mobility Database Interrogation - Key MAP messages. Mobility and the Core Network. Activity: analysis of real network traces using Mpiricals
NetX.
GPRS Packet Core Fundamentals
Duration: 2 hours.
Topic areas covered include:
PS Operation Concepts: SGSN, GGSN, APN.
GPRS Attach and Combined Attach. PDP Contexts:
Activation, Modification and Deactivation. Mobility Concepts. Secondary PDP Contexts.
Activation, TFT, Packet Filters. Mobility Database Interrogation - Key MAP messages. Activity: signalling analysis of PDP Context Activation
using Mpiricals NetX.
Future Core Networks
Duration: 2 hours.
Topic areas covered include:
Requirements and Market Drivers for the EPC / SAE. Positioning of the EPC / SAE within the overall LTE
architecture. 3GPP Standards Process. SAE Principles of Operation.
-
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UM
TS a
nd H
SPA
+
UMTS Air Interface Duration: 3 days or 18 hours. Delivery Options: LiveOnsite, LiveOnline. Prerequisites: UMTS System Engineering, or equivalent
knowledge.
This course will contain the following sections:
UMTS Structure & Channels
Duration: 2 hours.
Topic areas covered include:
UMTS Air Interface Architecture - NAS, AS. Logical Channels - BCCH, PCCH, CCCH, DCCH, CTCH,
DTCH. Transport - RACH, BCH, PCH, FACH, DCH, HS-DSCH,
E-DCH. Physical Channels. HSDPA and HSUPA Enhancements. Channel Mapping.
UMTS Physical Interface
Duration: 2 hours.
Topic areas covered include:
Spread Spectrum - Channel Requirements, Channel Rates, Spreading, DSSS, Despreading.
UMTS Codes - PSCH, SSCH. Scrambling Codes - Scrambling Code Groups. Spreading Codes - Code Allocation. Basic DSS System. Rake Receiver. Uplink and Downlink Code Processing. Timing - Frame, Node B, Cell, UE.
UMTS Physical Channels
Duration: 2 hours.
Topic areas covered include:
Uplink and Downlink Physical Channels. CPICH Measurements. Downlink Format - P-SCH, S-SCH, CPICH, P-CCPCH,
S-CCPCH, PICH, AICH, DPCH, DPCCH, HS-SCCH, HS-PDSCH, E-HICH, E-RGCH, E-AGCH and F-DPCH.
Uplink Format - PRACH, DPCCH, E-DPCCH, E-DPDCH, HS-DPCCH.
Transmission Gap Position. Compressed Mode.
UMTS Radio Resource Control
Duration: 3.5 hours.
Topic areas covered include:
RRC - Functions and Architecture. Radio Bearer Control, Measurement, Connection
Mobility and General Procedures. Radio Bearers and Signalling Radio Bearers. Broadcast System Information - System Information
Blocks, System Information and Paging. RRC in Connected Mode - UE Modes and Radio
Network Temporary Identities. RRC Procedures - Connecting, Direct Transfer, Paging
and RAB Establishment. Activity: signalling analysis of key RRC procedures
using Mpiricals NetX.
UMTS Operational Procedures
Duration: 3 hours.
Topic areas covered include:
Cell Selection Procedures. System Information. Common Channel Procedures. HSDPA and HSUPA Operation - upto Release 6. HARQ Configuration. MAC-ehs and MAC-e/es. Activity: signalling analysis of system information
messages using Mpiricals NetX.
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Catalogue 2015
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UM
TS and HSPA
+
Power Control
Duration: 1 hour.
Topic areas covered include:
Closed Loop Power Control - Uplink Single Channels, Uplink Multiple Channels, Downlink Control.
UMTS Mobility and Interworking
Duration: 2.5 hours.
Topic areas covered include:
Mobility Modes - Detached Mode, Connected Mode and Idle Mode.
Idle Mode Mobility. Modes for RRC Connection - RRC Idle Mode, RRC Con-
nected Mode. UMTS Mobility, Cell Reselection. Measurement Reporting. Handover Procedures - Soft, Softer, Hard, Inter-fre-
quency Handover Triggers. Circuit Switched Connected Mode Interworking Proce-
dures. Packet Switched Connected Mode Interworking Proce-
dures. Activity: signalling analysis of measurement and Mobil-
ity procedures using Mpiricals NetX.
Introducing HSPA
Duration: 2 hours.
Topic areas covered include:
Evolution to 3GPP Release 6. HSDPA Release 5 Operation - HS-DSCH, HS-SCCH,
HS-DPCCH, Scheduling, Feedback, MAC-hs, HARQ, H-RNTI.
HSUPA Release 6 Operation - E-DCH, MACe/es, E-AGCH, E-HICH, E-RGCH, E-DPCCH, Feedback.
Release 6 HSPA Enhancements - F-DPCH and HARQ Preamble/Postamble.
HSPA + R7 and R8 Features.
Analyzing HSPA+ Duration: 2 days or 12 hours. Delivery Options: LiveOnsite, LiveOnline. Prerequisites: UMTS Air Interface, or equivalent
knowledge.
This course will contain the following sections:
HSPA
Duration: 1 hour.
Topic areas covered include:
Evolution to 3GPP Release 6. HSDPA Release 5 Operation - HS-DSCH, HS-SCCH,
HS-DPCCH, Scheduling, Feedback, MAC-hs, HARQ, H-RNTI.
HSUPA Release 6 Operation - E-DCH, MACe/es, E-AGCH, E-HICH, E-RGCH, E-DPCCH, Feedback.
Release 6 HSPA Enhancements - F-DPCH and HARQ Preamble/Postamble.
HSPA+ Features upto Release 11. UE Categories - upto Release 11.
Throughput Enhancement Methods
Duration: 3 hours.
Topic areas covered include:
High Order Modulation. 64QAM for HSDPA - 21.6Mbps Operation. 4PAM (16QAM) for HSUPA. MIMO Antennas - STC and Spatial Multiplexing. MIMO Open Loop and Closed Loop Diversity. 2x2 MIMO in Release 7 - 16QAM Configuration -
28.8Mbps Operation. 2x2 MIMO in Release 8 - 64QAM Configuration -
42Mbps Operation. HS-DSCH Category for Combined MIMO and Downlink
64QAM. F-DPCH Enhancements. Enhancements to RLC Layer - Flexible RLC. RLC TM Mode Allowing for HS-DSCH. Enhancements to MAC - ehs-MAC. DC-HSDPA - Dual Cell Operation - E1a and Active Set
Update, Dual Cell Information. UE Categories for Dual Cell HSDPA.
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UM
TS a
nd H
SPA
+
Latency and Power Enhancements
Duration: 3 hours.
Topic areas covered include:
DTX, DRX and HS-SCCH Less Operation. Parameters Relevant for DTX Operation. New Uplink DPCCH Slot Format. E-DCH Tx Start Time Restrictions. Enhanced Cell_FACH. HS-DSCH Reception in CELL_PCH and URA_PCH. E-DCH Transmission in CELL_FACH State. Comparison of HS-SCCH Type 1 and 2. Direct Tunnel Operation. HSPA VoIP.
HSPA+ Session
Duration: 2.5 hours.
Topic areas covered include:
Session Establishment. HSPA+ Configuration Parameters. Optimized Support of Voice Services - CS over HSPA. Mobility for HSPA+ Devices. HS Serving Cell Change.
HSPA+ Operational Procedures
Duration: 2.5 hours.
Topic areas covered include:
Pre-coding Control Information. CQI Reporting in HSPA+. Feedback in CELL_FACH State. H-ARQ Feedback Enhancements. HS-SCCH Type 3. Type A and Type B CQI. BCCH Reception in Enhanced CELL_FACH State. Uplink and Downlink Data Transfer. Iub Frame Protocols - HS-DSCH Data Frame Type 1,
Type 2 and Type 3. Interworking with Legacy and Future Systems - 2.5G,
HSPA and LTE.
UMTS Radio Planning Duration: 2 days or 12 hours. Delivery Options: LiveOnsite, LiveOnline. Prerequisites: UMTS Air Interface or equivalent knowl-
edge.
This course will contain the following sections:
Radio Planning and Deployment Process
Duration: 1.5 hours.
Topic areas covered include:
Factors for Dimensioning and Optimization - Capacity, Costs, Flexibility, Reliability.
Initial Planning. Dimensioning - Soft Handover Gain, Interference
Margin, Fast Fading Margin. Detailed Planning - Combined Capacity and Coverage,
Code and Frequency, Configuration. Results Analysis. Continuous Optimization.
Traffic and QoS Considerations
Duration: 1.5 hours.
Topic areas covered include:
UMTS Services - Multimedia, Packet Data. HSDPA, HSUPA, HSPA and HSPA+. UMTS Traffic Characteristics. Service Characteristics, Traffic Total. Radio Propagation Environment. Radio Propagation Channel. Impact to Services.
Planning Tools
Duration: 1 hour.
Topic areas covered include:
Key Requirements of Planning Tools. Planning Tool Types - Initial, Coverage, Capacity,
Scrambling Code etc. Planning Tool Input Requirements. Optimization Tools.
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Catalogue 2015
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UM
TS and HSPA
+
UMTS Coverage and Capacity Planning
Duration: 4.5 hours.
Topic areas covered include:
RF and Service Capabilities of the UE and Node B. UMTS Link Budget - Max Cell Range and Sizes. UMTS Propagation Environment. UMTS Capacity and Coverage Planning. Traffic Disruption. Planning Issues. Activity: Excel Link Budget Examples.
Antenna Selection
Duration: 1.5 hours.
Topic areas covered include:
Base Station Configuration. Antenna Selection and Antenna Line Configuration. Antenna Characteristics. Antenna Diversity - Space, Polarization. Site Configuration - Sectorization, Antenna Beam
Width. Antenna Implementation - Height, Down Tilt.
Planning and Optimizing Handovers
Duration: 2 hours.
Topic areas covered include:
Mobility - in Connected Mode. Handovers and Handover Triggers. Measurement Reporting - Intra and Inter Frequency,
Inter RAT. UE Internal Measurement Reporting. Soft Handover Settings. Handover Procedures - Common Channel Procedures.
Analyzing the UTRAN Duration: 3 days or 18 hours. Delivery Options: LiveOnsite, LiveOnline. Prerequisites: UMTS System Engineering, or equivalent
knowledge.
This course will contain the following sections:
UTRAN Interfaces
Duration: 1.5 hours.
Topic areas covered include:
UTRAN Architecture - UMTS Stratums, UTRAN Interface Model, Radio Network User and Control Planes.
Transport Network User and Control Planes. Iub Interface - Iub Protocol Architecture, Radio and
Transport Network, Node B Application Part, Framing Protocols, ALCAP.
Iur, IuCS and IuPS Interfaces and Architecture. Cell Broadcast and Multicast Interfaces and
Architecture.
IP Operation in the UTRAN
Duration: 1.5 hours.
Topic areas covered include:
Carrying Signalling over IP - Sigtran, SCTP and User Adaptation Layers.
Circuit Emulation - IP / MPLS solutions for transport of real time services.
HSDPA and IP traffic over Ethernet and MPLS. Challenges - QoS, Capacity Planning and Timing.
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UM
TS a
nd H
SPA
+
Logical and Transport Channels
Duration: 2 hours.
Topic areas covered include:
Air Interface Architecture - Non Access Stratum and Access Stratum.
Logical Channel Architecture - DCCH, PCCH, DCCH, CCCH.
Transport Channel Architecture - RACH, BCH, PCH, FACH, DCH.
Transport Channel Formatting - Transport Blocks and TTI (Transmission Time Interval), Transport Formats, TFCI, CTFC.
Air Interface Physical Layer - Physical Layer Functions, Frame Structure.
Downlink Physical Channels and Uplink Physical Channels.
Channel Mapping - FDD Channel Mapping and TDD Channel Mapping.
Node B Setup Procedures
Duration: 1 hour.
Topic areas covered include:
Node B Requirements, Cell States, Node B Ports. Cell Setup Procedure, System Information Update
Procedure. Common Transport Channel Setup. Idle State Procedures and Paging. Cell Broadcast Service. Synchronization - Node B Synchronization and Cell
Synchronization.
Connected State Procedures
Duration: 3 hours.
Topic areas covered include:
Connection Identities - s-RNTI, u-RNTI, c-RNTI, d-RNTI. RRC Connection Procedure and Message Transfer. Iub Procedures - RRC Connection Establishment with
DCH Establishment. RRC Connection Establishment with RACH/FACH
Establishment. Radio Bearers in UMTS - Signalling Radio Bearers and
Radio Access Bearers. RRC Procedures - Connection Management, Bearer
Control, Mobility and Measurement. Activity: signalling analysis of RRC Connection and
Radio Bearer procedures using Mpiricals NetX.
Circuit Switched Operation
Duration: 3 hours.
Topic areas covered include:
Location Updating - RRC and RANAP procedures, messages and key identities.
Call Procedures - Mobile Originated Call, Mobile Terminated Call.
Iu-CS Interface - Signalling Establishment, Connection-less Signalling.
Speech and Data Transfer - RAB Sub-flows, RAB Sub-flow Combination Indicator.
Iu User Plane Protocol - Transparent Mode and Support Mode for predefined SDU size.
Iub and Iur Interfaces - Transport Channel Timing, Receiving Window.
Activity: signalling analysis of location update and Call procedures using Mpiricals NetX.
Packet Switched Operation
Duration: 3 hours.
Topic areas covered include:
Attach and Routing Area Update Procedures. GPRS Session - PDP Context and Secondary PDP
Context Activation. Iu-PS Interface - SCCP Signalling, RANAP Signalling and
UTRAN Interworking. Data Transfer - Packet Data Convergence Protocol. Iub and Iur Interfaces. Dedicated Channel Operation - DCH, DPDCH and
DPCCH. Common Channel Operation - Cell_FACH, Cell_PCH
and URA_PCH. HSDPA and HSUPA. Activity: signalling analysis of Packet Radio Bearer
Setup procedures using Mpiricals NetX.
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Catalogue 2015
Email: [email protected] 19
UM
TS and HSPA
+
Mobility
Duration: 3 hours.
Topic areas covered include:
Connected State Mobility - Cell_DCH, Cell_FACH, Cell_PCH and URA_PCH.
Soft Handover - Measurement Reports, Event Triggers. Mobile Measurements and Dedicated Node B Mea-
surements. Radio Link Setup and Radio Link Deletion. Common Channel and Paging Sub-states - Cell Update
Procedure. Hard Handover. Circuit Switched Relocation, Inter-MSC Relocation and
Inter-System Relocation, Packet Switched Relocation and Inter-SGSN Relocation.
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LTE
LTE Core Technology
LTE System Engineering Duration: 3 days or 18 hours. Delivery Options: LiveOnsite, LiveOnline. Prerequisites: General knowledge of telecoms.
This course will contain the following sections:
LTE Architecture
Duration: 1.5 hours.
Topic areas covered include:
E-UTRAN Architecture: UE and eNodeB. Femto Cells.
EPC Architecture: MME, S-GW and PDN-GW.
LTE Interfaces and Protocols: Uu, X2, S1-MME, S1-U, S5/S8, S11 and SGi.
PCC Architecture: PCRF and PCEF.
IMS Architecture: CSCF, HSS and Media Servers.
LTE Air Interface
Duration: 1.5 hours.
Topic areas covered include:
Frequency Bands. Modulation Techniques and Coding:
QPSK, 16QAM and 64QAM Basics. OFDMA Basics. LTE Frame Structure:
LTE Resource Allocation.
LTE Initial Procedures
Duration: 3 hours.
Topic areas covered include:
LTE Mobility and Session Management: ECM Connected and ECM Idle. EPS Bearer Contexts.
LTE Identities. Radio Resource Control:
Cell Selection, PLMN Selection and Cell Re-selec-tion.
RRC establishment. Initial Attach:
Default EPS Bearer Establishment. Combined Attach.
Activity: signalling analysis of an Initial Attach and Default EPS Bearer Establishment procedure using Mpiricals NetX.
LTE Security
Duration: 1 hour.
Topic areas covered include:
Key Distribution. EPS Authentication and Key Agreement. IPSec and LTE.
Defining EPS Bearers
Duration: 1.5 hours.
Topic areas covered include:
LTE QoS Characteristics: TFTs and Quality of Service.
Establishing EPS Bearers: Network Initiated: Activate, Modify and Delete. Mobile Initiated: Activate, Modify and Delete.
Modifying EPS Bearers. Releasing EPS Bearers. Activity: signalling analysis of EPS Bearer related proce-
dures using Mpiricals NetX.
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Catalogue 2015
Email: [email protected] 21
LTE
Utilizing EPS Bearers
Duration: 1.5 hours.
Topic areas covered include:
Service Request. Paging in LTE. S1 Release:
E-UTRAN and MME triggered. Activity: signalling analysis of Dedicated EPS Bearer
Establishment using Mpiricals NetX.
LTE Mobility
Duration: 2 hours.
Topic areas covered include:
Idle Mode Mobility: Cell Re-selection. Tracking Area Updates.
X2 Handover. S1 Handover.
Mobility within the EPC: GTP Mobility.
Roaming and the IPX. Activity: signalling analysis of a Tracking Area Update
and X2 and S1 Handover procedures using Mpiricals NetX.
Interworking with UMTS and GPRS
Duration: 2 hours.
Topic areas covered include:
Mobility Scenarios: E-UTRAN to UTRAN Packet Switched Handover. E-UTRAN to GERAN Packet Switched Handover. UTRAN to E-UTRAN Packet Switched Handover. GERAN to E-UTRAN Packet Switched Handover.
Circuit Switched Fallback
Duration: 2 hours.
Topic areas covered include:
CSFB Initial Procedures. CSFB Call Procedures:
Mobile Originated and Mobile Terminated. CSFB SMS Procedures:
Mobile Originated and Mobile Terminated CSFB Call Delay Factors. Activity: signalling analysis of a CSFB procedures using
Mpiricals NetX.
VoLTE
Duration: 2 hours.
Topic areas covered include:
VoLTE Registration: SIP Registration
VoLTE Call Procedures: VoLTE Mobile Originated Call Setup. Media Description. VoLTE Mobile Terminated Call Setup.
VoLTE Instant Messaging: Mobile Originated and Mobile Terminated.
SRVCC. Activity: signalling analysis of VoLTE Registration and
VoLTE Call Setup procedure using Mpiricals NetX.
Analyzing the EPC Duration: 3 days or 18 hours. Delivery Options: LiveOnsite, LiveOnline. Prerequisites: LTE System Engineering, or equivalent
knowledge.
This course will contain the following sections:
EPC Concepts
Duration: 1 hour.
Topic areas covered include:
What is the EPC? Market Drivers for EPC.
Defining EPC and LTE - 3GPP Standardization. Positioning EPC within LTE:
E-UTRA, E-UTRAN and EPC. LTE Principles of Operation.
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LTE
EPC Functional Architecture
Duration: 2.5 hours.
Topic areas covered include:
EPC Functional Architecture: MME, S-GW, PDN-GW, PCC, HSS and AAA.
EPC Interfaces: E-UTRAN and EPC Interfaces. Interaction with GPRS. EPC Interacting with Trusted and Untrusted Non
3GPP Access. EPC Interfaces for Roaming.
LTE Protocols: S1AP functions and procedures. GTP GTPv1-U header and procedures, GTPv2-C
message format. Diameter Base Protocol, AVPs and Routing.
EPC Transport Network Architecture
Duration: 1.5 hours.
Topic areas covered include:
Carrier Grade IP Transport: IP Overview, Routing and IPv6.
Multi Protocol Label Switching: Overview, Architecture, Label Format, Traffic Engi-
neering, FRR, PWE3. Carrier Ethernet:
CE in LTE, CE Layered Model, CE Transport. Timing and Synchronization:
Timing over Packet Options, PTP, SyncE.
Registration Procedures
Duration: 1.5 hours.
Topic areas covered include:
Transferring Signalling in the E-UTRAN and EPC: LTE Stratums and NAS Messages.
LTE States: EMM and ECM.
LTE Identities: UE Identities, eNB Identities and EPC Identities.
Detailed Registration Process. Deregistration. Activity: detailed analysis of the Initial Registration
procedure using Mpiricals NetX.
Security in the EPC
Duration: 1.5 hours.
Topic areas covered include:
EPS Authentication and Key Agreement: AKA Principles, AKA in the Attach, AIR and AIA, NAS
Authentication Request. Key Distribution and Security Contexts:
LTE Key Architecture, Security Context Initiation, S1-MME and S1-U Security.
IPSec and IKEv2: AH and ESP, SPD, SAD, SPI and SA Establishment
with IKEv2. Transport Layer Security:
TLS Operation, Handshaking, Cipher Suites, PKI and X.509.
Activity: detailed analysis of security elements of the Registration procedure using Mpiricals NetX.
QoS, Policy and Charging
Duration: 1.5 hours.
Topic areas covered include:
Supporting QoS - Significant Protocols: SCTP and DiffServ.
Policy and Charging Control: PCC Architecture, Principles, PCC and EPC.
PCC Binding Mechanism: Session Binding, Rule Authorization, Bearer Bind-
ing. EPC Charging Architecture:
CTF, CGF, OCS, OFCS, GTP, Diameter Charging Interfaces.
Activity: detailed analysis of Diameter based PCC pro-cedures using Mpiricals NetX.
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Catalogue 2015
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LTE
End to End Session Procedures
Duration: 1.5 hours.
Topic areas covered include:
Dedicated EPS Bearers: TFTs and QCI.
Dedicated Bearer Establishment: Network and UE Initiated Procedures.
Utilizing EPS Bearers: UE Triggered Service Request, Paging.
Bearer Resource Modification Procedures. EPS Bearer Deactivation. Activity: detailed analysis of Network Initiated Dedicat-
ed Bearer Establishment and Modification procedures using Mpiricals NetX.
EPC Mobility and Roaming
Duration: 1.5 hours.
Topic areas covered include:
Tracking Area Update Detailed Analysis. Handover Procedure. EPC Relocation Procedures.:
MME and S-GW Relocation, S1 Based Handover. LTE Roaming Considerations:
Roaming Scenarios, IPX Architecture, DRA, IPX Proxy and Diameter Routing.
Activity: detailed analysis of TAU and Handover proce-dures using Mpiricals NetX.
Circuit Switched Fallback
Duration: 1 hour.
Topic areas covered include:
Supporting CSFB Network Considerations. UE, MME, MSC-S, SGs, SGsAP, S3 (Packet Data).
CSFB Preparation Phase. CSFB MO Call:
Key Stages, Handover and Redirection, SIB Skip-ping/Tunnelling.
CSFB MT Call. Handover vs Redirection. Other CSFB Procedures:
MO/MT SMS, Packet Switched Handover, Network Detach.
Activity: detailed analysis of CSFB MO/MT call using Mpiricals NetX.
Interworking with the PS Domain
Duration: 1 hour.
Topic areas covered include:
Interworking Concepts and Architecture. Registration and Bearer Establishment.:
Establishing the PDP Context and EPS Bearer, Sec-ondary PDP Contexts.
E-UTRAN to GERAN/UTRAN RAU. E-UTRAN to GERAN/UTRAN Handover:
Preparation and Execution.
IMS Fundamentals
Duration: 2 hours.
Topic areas covered include:
IMS Concepts. IMS Architecture:
P, S and I CSCF, HSS, Application Servers, PSTN Breakout and Interworking.
SIP Basics: Protocol Architecture, Methods, Registration and
Session Establishment. IMS Registration and Session Establishment.
Service Delivery
Duration: 1.5 hours.
Topic areas covered include:
VoLTE Fundamentals: GSMA IR.92, Registration, MO and MT Call, SMS.
SRVCC Fundamentals. Architecture and E-UTRAN to GERAN Procedure.
OTT Services.
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LTE
Troubleshooting the EPC Duration: 1 day or 6 hours. Delivery Options: LiveOnsite, LiveOnline. Prerequisites: Analyzing the EPC, or equivalent knowl-
edge.
This course will contain the following sections:
EPC Review
Duration: 1 hour.
Topic areas covered include:
Review session on key architectural and procedural aspects.
Focus areas group specific discussion on key areas of concern.
Registration Troubleshooting
Duration: 1.5 hours.
Topic areas covered include:
Detailed tracking of the registration process. Potential failure scenarios:
S6a rejections. S11/S5 failures. PCC based failures. PCO associated failures.
Activity: detailed analysis of registration related proce-dures using Mpiricals NetX.
EPS Bearer Establishment Troubleshooting
Duration: 1.5 hours.
Topic areas covered include:
Detailed tracking of session establishment: S5/S11 based failures. PCC associated failures.
Activity: detailed analysis of EPS Bearer establishment procedures using Mpiricals NetX.
Mobility Troubleshooting
Duration: 1.5 hours.
Topic areas covered include:
Issues related to TAU, including Implicit Detach. X2 Handover failures. S1 Handover failures. Issues with 2G/3G Interworking. Activity: detailed analysis of mobility related proce-
dures using Mpiricals NetX.
CSFB Troubleshooting
Duration: 1.5 hours.
Topic areas covered include:
CSFB points of failure/delay.
Roaming in LTE Duration: 1 day or 6 hours. Delivery Options: LiveOnsite, LiveOnline. Prerequisites: LTE System Engineering, or equivalent
knowledge.
This course will contain the following sections:
Policy and Charging Control Fundamentals
Duration: 1 hour.
Topic areas covered include:
PCC Key Principles. Precursors to PCC:
3GPP Release 5 SBLP and Release 6 FBC. Policy and Charging Control:
PCC Architecture, Principles, PCC and SAE. PCC Binding Mechanism:
Session Binding, Rule Authorization, Bearer Bind-ing.
New
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Catalogue 2015
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LTE
SAE Mobility and Roaming
Duration: 2 hours.
Topic areas covered include:
Roaming Architecture and Interfaces for LTE: LTE Key Nodes, S6a, S8, S9, GSMA IR65 and IR88.
Roaming Scenarios: Home Control and Routing. Home Control and Visited Breakout. Visited Control and Visited Breakout.
LTE Procedural Aspects when Roaming: Attach, EPS Bearer Activation and TAU.
IMS, VoLTE and Roaming: IMS Basic Principles, Roaming Architecture and
VoLTE Call Establishment.
Diameter Fundamentals
Duration: 1 hour.
Topic areas covered include:
Diameter Baseline Protocol: Base Header Fields and Functionality including
AVPs. Diameter Functional Nodes:
Client, Server, Proxy, Relay, Redirect and Translation Agent.
Diameter Routing Agent. Routing Diameter:
Realms, Diameter FQDN and AVPs used for Routing. Diameter Transport:
IP Transport Networks and SCTP. Activity: detailed analysis of the Diameter message
format using Mpiricals NetX.
Roaming and IPX
Duration: 1 hour.
Topic areas covered include:
IPX Functionality and Architecture. IPX Connectivity Options. Diameter and Roaming:
Roaming Architecture, DRA, DNS and Diameter Edge Agents.
SAE Charging Architecture: CTF, CCF, CGF, OCS, OFCS, GTP, Diameter Charging
Interfaces. Charging Identifiers.
Charging Concepts for Roaming: LTE Charging Architecture, TADIG and IREG.
Rich Communication Services
Duration: 1 hour.
Topic areas covered include:
RCS 5 Architecture: Incorporating GSMA IR92, Example End to End RCS
Architecture, RCS Device Modes, Client Types and Device Architecture.
RCS Registration Procedures: IMS Considerations, Registration Optimization,
Capability Management, Security. RCS Services:
Standalone Messaging, 1-to-1 Chat, Group Chat, File Transfer, Content Sharing, Presence, IP Voice, Geolocation.
RCS Inter-Service Provider Interworking Considerations.
VoLTE Duration: 2 days or 12 hours. Delivery Options: LiveOnsite, LiveOnline. Prerequisites: LTE System Engineering, or equivalent
knowledge.
This course will contain the following sections:
VoLTE Overview
Duration: 1 hour.
Topic areas covered include:
LTE and IMS Essentials: Key Concepts and Architecture required for VoLTE.
Drivers for VoLTE. GSMA IR92. VoLTE Capabilities.:
MT and MO Calling, SMS, Call Continuity.
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LTE
LTE Fundamentals
Duration: 1 hour.
Topic areas covered include:
LTE Summary: Design Goals, Capabilities and State of the Market.
LTE Architecture and Interfaces: E-UTRAN, EPC and SAE Principal Components and
Key Interfaces. Policy and Charging Control Concepts:
Rule Creation and Enforcement, PCRF, PCEF, Gx, Rx, AF and SPR.
Utilizing the LTE Bearer Network: Default and Dedicated Bearer Establishment, QoS
Principles. PDN Connectivity Establishment for VoLTE Users.
IMS Architecture
Duration: 1 hour.
Topic areas covered include:
Positioning the IMS. Control and User Planes. Key Nodes:
P-CSCF, S-CSCF, I-CSCF, HSS and Application Serv-ers.
Additional Architectural Elements: PSTN Breakout BGCF, MGCF, MGW and Signalling
Gateway. Interworking IBCF and Session Border Controllers. Multimedia MRFC, MRFP, Media Servers and
Brokers.
SIP Fundamentals
Duration: 1.5 hours.
Topic areas covered include:
SIP Overview. SIP Identities and Functions:
User Agent, Registrar, Proxy, DNS and SIP. Protocol Interface:
Requests and Status Messages, Header Fields, Transactions and Dialogues.
Methods Invite, Register, Ack, Bye, Cancel and Options.
SIP Registration: Registration Expiry, Reregistration and Security.
SIP Session Establishment. SDP Fundamentals.
Enhancements to RFC 3261: Development Bodies, New Methods and Function-
ality.
Security Considerations
Duration: 1 hour.
Topic areas covered include:
Basic Security Principles. EPS Authentication and Key Agreement:
AKA Principles, AKA in the Attach, AIR and AIA, NAS Authentication Request.
IMS Authentication and Key Agreement: Supporting IMS AKA with SIP, Trust Domains.
IPSec and IKEv2: AH and ESP, SPD, SAD, SPI and SA Establishment
with IKEv2. Transport Layer Security:
TLS Operation, Handshaking, Cipher Suites, PKI and X.509.
Secure RTP.
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Catalogue 2015
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LTE
IMS Registration
Duration: 1.5 hours.
Topic areas covered include:
IMS Initial Procedures: IP-CAN Connectivity, P-CSCF Discovery.
IMS Identities: Private and Public User Identities, GRUU, PSI.
Service Profiles and Initial Filter Criteria. Detailed Registration Process.
Including Implicit Registration and Registration Event Subscription.
Activity: detailed analysis of the IMS Registration pro-cedure using Mpiricals NetX.
IMS Session Establishment
Duration: 1 hour.
Topic areas covered include:
Session Policy and Policy Enforcement: PCC Basics and Rx Interface.
SDP Offer/Answer Model. IMS Session Establishment. Charging Concepts:
Offline Charging, Online Charging and Charging Identifiers.
Activity: detailed analysis of an IMS Session Establish-ment procedure using Mpiricals NetX.
VoLTE Specifics
Duration: 2 hours.
Topic areas covered include:
Usage Setting and Voice Domain Preference. VoLTE Detailed Procedures:
GSMA IR92 MT Call, MO Call and MO/MT SMS. Media Considerations:
RTP and RTCP Fundamentals, AMR Codec and ROHC.
Air Interface Considerations: Bearers and Scheduling, LTE TTI and HARQ, SPS, TTI
Bundling. Support for Supplementary Services and Emergency
Services: MMTel Supplementary Services, TAS, E-CSCF, LRF
and PSAP Access. Interworking:
3GPP and non 3GPP. Activity: detailed analysis of VoLTE based call establish-
ment procedures using Mpiricals NetX.
SRVCC Fundamentals
Duration: 1 hour.
Topic areas covered include:
Drivers for Service Continuity. SRVCC Supporting Architecture:
MME and MSC Interaction via Sv, SCC AS. E-UTRAN to GERAN/UTRAN SRVCC Procedure. SRVCC Derivatives:
rSRVCC, eSRVCC, vSRVCC and aSRVCC.
Rich Communication Services
Duration: 1 hour.
Topic areas covered include:
Drivers for RCS: The Rise of OTT Providers.
RCS 5.1 Architecture: Incorporating GSMA IR92, Example End to End
RCS Architecture, RCS Device Modes, Client Types, Device Architecture and the Joyn Initiative.
RCS Registration Procedures: IMS Considerations, Registration Optimization,
Capability Management, Security. RCS Services:
Standalone Messaging, 1-to-1 Chat, Group Chat, File Transfer, Content Sharing, Presence, IP Voice, Geolocation.
RCS Inter-Service Provider Interworking Consider-ations.
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LTE
LTE RAN Technology
Analyzing the E-UTRAN Duration: 3 days or 18 hours. Delivery Options: LiveOnsite, LiveOnline. Prerequisites: LTE System Engineering, or equivalent
knowledge.
This course will contain the following sections:
E-UTRAN Introduction
Duration: 1.5 hours.
Topic areas covered include:
E-UTRA Features: Radio Access, Modulation, Bandwidth and Coding.
E-UTRAN Protocols: NAS, RRC, PDCP, RLC, MAC, S1AP, X2AP and
Transport. UE Capabilities. eNB and HeNB Capabilities. HetNet and Relays. CoMP - Coordinated Multi-Point Transmission and
Reception.
S1 Interface and Operation
Duration: 2 hours.
Topic areas covered include:
S1 Functions and Protocols. S1AP:
Message Format, Messages and Key Parameters. GTPv1-U:
GTPv1-U Header, Messages and Key Parameters. Example S1 Procedures. Activity: detailed analysis of S1AP Parameters using
Mpiricals NetX.
X2 Interface and Operation
Duration: 2 hours.
Topic areas covered include:
X2 Functions and Protocols. X2AP:
Message Format, Messages and Key Parameters. GTPv1-U:
GTPv1-U Header, Messages and Key Parameters. Example X2 Procedures. Activity: detailed analysis of X2AP Parameters using
Mpiricals NetX.
E-UTRA RRC
Duration: 2 hours.
Topic areas covered include:
RRC Functions: RRC States.
LTE System Information: MIB and SIBs.
Signalling Radio Bearers: SRB1 and SRB2.
UE Capabilities Exchange. Key Procedures:
RRC Connection. Activity: detailed analysis of RRC Connection and sys-
tem information using Mpiricals NetX.
LTE NAS
Duration: 1.5 hours.
Topic areas covered include:
NAS Functions: NAS States, EMM and ESM. NAS Security.
Example Procedures: EMM and ESM.
Activity: detailed analysis of NAS, EMM and ESM mes-sages using Mpiricals NetX.
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LTE
E-UTRAN Key Procedures
Duration: 2 hours.
Topic areas covered include:
Initial Attach. Dedicated EPS Bearers. UE Capabilities. Modification Procedures. Activity: signalling analysis of RRC and NAS messages
using Mpiricals NetX.
QoS in E-UTRAN
Duration: 1.5 hours.
Topic areas covered include:
Traffic Types. EPS QoS Attributes. DSCP Mapping. L2 QoS. Backhaul Requirements.
SON
Duration: 0.5 hours.
Topic areas covered include:
LTE SON vs LTE-Advanced SON. SON Architecture. Automatic Neighbour Relationship Procedures. Self Healing.
Relays in LTE-Advanced
Duration: 1 hour.
Topic areas covered include:
Relay Classification. LTE-Advanced Relay Protocols:
Subframe Configuration, Backhaul and HARQ. Relay Operational Procedures. Performance.
Intra LTE Mobility
Duration: 2 hours.
Topic areas covered include:
Measurement Configuration: Periodic and Event Based.
Objects and Reporting. Measurement Reports. Intra LTE Handover:
Intra and Inter Frequency Handovers. Carrier Aggregation Mobility. Activity: detailed analysis of Mobility procedures using
Mpiricals NetX.
Interworking with GSM and UMTS
Duration: 2 hours.
Topic areas covered include:
Interworking Methods. Inter-system Measurements.
GERAN and UTRAN measurements. Packet Switched Handovers.
Troubleshooting the E-UTRAN Duration: 2 days or 12 hours. Delivery Options: LiveOnsite, LiveOnline. Prerequisites: Analyzing the E-UTRAN, or equivalent
knowledge.
This course will contain the following sections:
E-UTRAN Review
Duration: 1.5 hours.
Topic areas covered include:
Review session on key architectural and procedural aspects.
Focus areas group specific discussion on key areas of concern.
New
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S1 Troubleshooting
Duration: 2.5 hours.
Topic areas covered include:
Detailed S1 Procedures. S1AP:
KPI and Cause Code Analysis. Root Cause Scenarios.
Activity: detailed analysis of S1 scenarios using Mpiricals NetX.
X2 Troubleshooting
Duration: 2 hours.
Topic areas covered include:
Detailed X2 Procedures. X2AP:
KPI and Cause Code Analysis. Root Cause Scenarios.
Activity: detailed analysis of X2 scenarios using Mpiricals NetX.
RRC Troubleshooting
Duration: 2 hours.
Topic areas covered include:
Detailed RRC Procedures. RRC:
KPI and Cause Code Analysis. Activity: detailed analysis of RRC scenarios using
Mpiricals NetX.
LTE NAS Troubleshooting
Duration: 2 hours.
Topic areas covered include:
Detailed EMM and ESM Procedures. NAS:
KPI and Cause Code Analysis. Root Cause Scenarios. Activity: detailed analysis of NAS scenarios using
Mpiricals NetX.
Troubleshooting LTE Mobility
Duration: 2 hours.
Topic areas covered include:
Detailed LTE and Inter-RAT Procedures. Mobility KPI and Cause Code Analysis. Root Cause Scenarios. Activity: detailed analysis of Mobility Scenarios using
Mpiricals NetX.
LTE Air Interface(including LTE-Advanced to Release 11)
Duration: 3 days or 18 hours. Delivery Options: LiveOnsite or LiveOnline. Prerequisites: LTE System Engineering, or equivalent
knowledge.
This course will contain the following sections:
E-UTRA Introduction
Duration: 1.5 hours.
Topic areas covered include:
E-UTRA Features. Radio Access, Modulation, Bandwidth and Coding.
E-UTRAN Protocols: NAS, RRC, PDCP, RLC, MAC, S1AP, X2AP and
Transport. UE Capabilities. eNB and HeNB Capabilities. HetNet and Relays. CoMP - Coordinated Multi-Point Transmission and
Reception.
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Catalogue 2015
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LTE
E-UTRA Physical Layer
Duration: 4 hours.
Topic areas covered include:
LTE Generic Frame Structure, Type 1 Radio Frames, Slots and Subframes, Type 2 Radio Frames, Slots and Subframes.
Resource Grid and Resource Blocks. The LTE Downlink Physical Channels - PBCH, PCFICH,
PDCCH, EPDCCH, PHICH. The Control Region, Resource Element Groups,
Mapping of RE and RS. Downlink Synchronization Signals: PSS & SSS, Mapping
to Resource Grid. Cell Search, Cell Identities, Cell Identity Group. The LTE Uplink Physical Channels - PRACH, PUCCH,
PUSCH. Uplink Data Transmission. Uplink Reference Signals, Demodulation Reference
Signals and Sounding Reference Signals. Downlink and Uplink Timing. HARQ Operation. Layer 1 Processing:
Scrambling. Modulation Mapping. Pre-coding. RE Mapping.
Carrier Aggregation Operation: Downlink and Uplink Operation.
Transmission Modes and MIMO Modes. Beamforming and Dual Streams:
Multi Antenna Options.
Air Interface Protocols
Duration: 3 hours.
Topic areas covered include:
E-UTRA Protocols: NAS, IP, RRC, PDCP, RLC and MAC.
NAS Control Plane, NAS User Plane, NAS Messages. EMM Messages and ESM Messages. Radio Resource Control:
RRC Messages, RRC States, Establishment of an RRC Connection.
PDCP services and functions: PDCP profiles, compression standards, PDCP
headers and frame formats, ROHC and Lossless Mobility.
RLC Functions and Operation: RLC Transparent Mode, RLC Unacknowledged
Mode and RLC Acknowledged Mode. MAC functions and operation:
MAC Headers, BSR, PHR, Scheduler, Timing Advance, Contention Resolution.
Logical Channels - BCCH, PCCH, CCCH, DCCH, DTCH. Transport Channels - BCH, DL-SCH, PCH, UL-SCH, RACH. Mapping Logical Channels into Transport Channels. RNTI Identities. Random Access Process:
Contention and Non-Contention based Random Access Procedure.
Activity: signalling analysis of RRC and NAS using Mpiricals NetX and Message Analysis using 3GPP specifications and ASN.1.
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Operational Procedures
Duration: 4 hours.
Topic areas covered include:
Contents of RRC MIB and SIB messages, Scheduling Options.
PLMN Selection and Initial Cell Selection algorithms. RRC Connection, Signalling Radio Bearers. Attach, PDN Connectivity and Default and Dedicated
Bearer Establishment. Paging. RRC UE Capability and Security. RRC Messages in Operation:
Measurement Configuration. Mobility Control Information. Radio Resource Configuration.
E-UTRA and LTE Security - Authentication, Algorithms and Keys, Ciphering and Integrity.
MAC Scheduling: Scheduling Uplink and Downlink Users. Scheduling Methods. VoLTE Scheduling, Semi Persistent Scheduling.
DTX and DRX. End to End Downlink and Uplink IP Data Flow. Activity: signalling analysis of RRC Configuration using
Mpiricals NetX.
X2 Interface and Operation
Duration: 0.5 hours.
Topic areas covered include:
X2 Functions and Protocols related to Air Interface: Mobility. CIC and eICIC.
X2AP: Message Format, Messages and Key Parameters.
GTPv1-U. GTPv1-U Header, Messages and Key Parameters.
Activity: signalling analysis of X2AP procedures using Mpiricals NetX.
Air Interface Mobility
Duration: 3.5 hours.
Topic areas covered include:
LTE mobility, LTE deployment options. Mobility functional architecture, role of the eNB and
MME, Tracking Areas. E-UTRA Measurements:
RSSI, RSRP, RSRQ. Idle Mode Procedures. Cell Reselection, Priority based Reselection. Intra-Frequency measurements, Inter-Frequency and
inter-RAT measurements, High and Medium Mobility States.
Tracking Area Update. Configuring Periodic and Event based Reporting:
Timers and Thresholds. Mobility in ECM Connected State, Measurements, Gap
Configurations, Event Triggers, Timing, the Handover Process.
Carrier Aggregation and CA Mobility. Inter-RAT Mobility. Activity: signalling analysis of an RRC mobility proce-
dure using Mpiricals NetX.
Relays in LTE-Advanced
Duration: 1 hour.
Topic areas covered include:
Relay Classification. LTE-Advanced Relay Protocols:
Subframe Configuration, Backhaul and HARQ. Relay Operational Procedures. Performance.
SON
Duration: 0.5 hours.
Topic areas covered include:
LTE SON vs LTE-Advanced SON. SON Architecture. Automatic Neighbour Relationship Procedures. Self Healing.
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Catalogue 2015
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LTE
LTE Radio Planning Duration: 2 days or 12 hours. Delivery Options: LiveOnsite, LiveOnline. Prerequisites: LTE Air Interface, or equivalent
knowledge.
This course will contain the following sections:
LTE Radio Design Process
Duration: 1 hour.
Topic areas covered include:
Introduction to Planning. Initial Planning. Detailed Planning. Optimization.
Services for LTE
Duration: 1 hour.
Topic areas covered include:
LTE Services. QoS Attributes. Managing QoS. Interworking Services with GERAN/UTRAN.
LTE Radio Propagation Basics
Duration: 1 hour.
Topic areas covered include:
E-UTRA Frequencies. Propagation Principles. Propagation Models for LTE. Radio Coverage Planning:
Gains/Losses, Link Budgets.
Antenna Considerations
Duration: 1 hour.
Topic areas covered include:
Antenna Options. Mutli-Band Options. Antenna vs Transmission Modes. Practical Antenna Options.
LTE Coverage Planning
Duration: 3 hours.
Topic areas covered include:
Coverage vs Capacity. LTE Link Budget. Key LTE Coverage Plots:
RSRP, RSRQ, Bearers, etc. Planning Targets and Assumptions:
Practical Planning. Activity: Excel Link Budget Exercise.
LTE Capacity Planning
Duration: 3 hours.
Topic areas covered include:
Capacity Planning: Practical Targets. Cell and eNB Throughput. Factors Impacting Capacity.
Planning Tool Simulations: Configuring Planning Tool.
Activity: Excel Physical Cell Capacity and Site Dimensioning.
Small Cells
Duration: 1 hour.
Topic areas covered include:
What are Small Cells? Impact of Small Cells. Impact to Coverage and Capacity.
Parameters and Optimization
Duration: 1 hour.
Topic areas covered include:
KPIs: Practical Targets.
Coverage Optimization. Capacity Optimization. Key Parameters.
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LTE
Self Organizing Networks Duration: 1 day or 6 hours. Delivery Options: LiveOnsite, LiveOnline. Prerequisites: LTE System Engineering, or equivalent
knowledge.
This course will contain the following sections:
SON Concepts
Duration: 2 hours.
Topic areas covered include:
Self Organizing Networks. Overview of SON concepts.
SON Features: Self Configuration. Self Optimization. Self Healing.
LTE to LTE-Advanced Evolution: CA (Carrier Aggregation). RN (Relay Nodes). MIMO (Multi Input Multiple Output)
enhancements.
SON Operation
Duration: 2.5 hours.
Topic areas covered include:
Self Configuration: Auto-Connectivity and Auto-Commissioning. Dynamic Radio Configuration. PCI (Physical Cell Identity) Planning.
Self Optimization: Mobility Optimisation. MLB (Mobility Load Balancing). MRO (Mobility Robustness Optimization). Energy Saving. ICIC (Inter-Cell Interference Coordination). CCO (Coverage and Capacity Optimization). RACH (Random Access Channel) Optimization. ANR (Automatic Neighbour Relation).
Self Healing: Cell Outage Detection and Compensation. MDT (Minimization of Drive Tests).
HetNets
Duration 1.5 hours.
Topic areas covered include:
The drivers for Heterogeneous networks: Increasing network capacity. Toolbox for higher capacities and data rates.
What does a Heterogeneous network look like: HetNet Architecture. Radio Types. Layers of Capacity.
Challenges and Interference: Optimizing the HetNet. Self Optimization.
New
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IMS and PCC
IMS and PCC
IMS and PCC System Engineering
Duration: 1 day or 6 hours. Delivery Options: LiveOnsite, LiveOnline. Prerequisites: IP for NGN, or equivalent knowledge.
This course will contain the following sections:
IMS Concepts and Architecture
Duration: 2 hours.
Topic areas covered include:
IMS Drivers: Service Drivers, Open Systems and Seamless
Mobility. IMS Fundamental Principles. Specifications and Standards. Interworking with Access Networks. Positioning the IMS. Control and User Planes. IMS Terminal Device Requirements. Key Nodes:
P-CSCF, S-CSCF, I-CSCF, HSS and Application Servers.
Additional Architectural Elements: PSTN Breakout BGCF, MGCF, MGW and Signalling
Gateway. Interworking IBCF and Session Border Controllers. Multimedia MRFC, MRFP, Media Servers and
Brokers.
IMS Protocols
Duration: 1 hour.
Topic areas covered include:
SIP Fundamentals: Methods, network elements, protocol format.
Diameter Fundamentals: Routing, Header Format, Messages and AVPs.
IMS Registration
Duration: 1 hour.
Topic areas covered include:
IMS Initial Procedures: IP-CAN Connectivity, P-CSCF Discovery.
IMS Identities: Private and Public User Identities, GRUU, PSI.
Security considerations. Service Profiles and Initial Filter Criteria. Detailed Registration Process;
Including Implicit Registration. Activity: detailed analysis of the IMS Registration pro-
cedure using Mpiricals NetX.
Policy and Charging Control Fundamentals
Duration: 1 hour.
Topic areas covered include:
QoS in IP Networks. Precursors to PCC:
3GPP Release 5 SBLP and Release 6 FBC. Policy and Charging Control:
PCC Architecture, Principles, PCC and SAE. PCC Binding Mechanism:
Session Binding, Rule Authorization, Bearer Binding.
IMS Session Establishment
Duration: 1 hour.
Topic areas covered include:
Session Policy and Policy Enforcement: PCC and the Rx Interface.
SDP Offer/Answer Model. IMS Session Establishment. Charging Concepts:
Offline Charging, Online Charging and Charging Identifiers.
Activity: detailed analysis of an IMS Session Establish-ment procedure using Mpiricals NetX.
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IMS
and
PCC
Policy and Charging Control Duration: 2 days or 12 hours. Delivery Options: LiveOnsite, LiveOnline. Prerequisites: IMS and PCC System Engineering, or
equivalent knowledge.
This course will contain the following sections:
LTE Fundamentals
Duration: 1 hour.
Topic areas covered include:
LTE Summary: Design Goals, Capabilities and State of the Market.
LTE Architecture and Interfaces: E-UTRAN, EPC and SAE Principal Components and
Key Interfaces. Utilizing the LTE Bearer Network:
Default and Dedicated Bearer Establishment, QoS Principles.
PDN Connectivity Establishment for VoLTE Users.
IMS Fundamentals
Duration: 1 hour.
Topic areas covered include:
IMS Concepts. IMS Architecture:
P, S and I CSCF, HSS, Application Servers, PSTN Breakout and Interworking.
SIP Basics: Protocol Architecture, Methods, Registration and
Session Establishment. IMS Registration and Session Establishment.
Policy and Charging Control Fundamentals
Duration: 1.5 hours.
Topic areas covered include:
Precursors to PCC: 3GPP Release 5 SBLP and Release 6 FBC.
Policy and Charging Control: PCC Architecture, Principles, PCC and SAE.
PCC Binding Mechanism: Session Binding, Rule Authorization, Bearer Bind-
ing.
PCC Architecture
Duration: 1 hour.
Topic areas covered include:
PCC Key Nodes and Functionality: PCRF, PCEF, SPR, BBERF and AF.
PCC Interfaces: Gx, Rx, Sy, Gz, Gy and Sp.
Diameter Fundamentals
Duration: 1.5 hours.
Topic areas covered include:
Diameter Baseline Protocol: Base Header Fields and Functionality including
AVPs. Diameter Functional Nodes:
Client, Server, Proxy, Relay, Redirect and Translation Agent.
Diameter Routing Agent. Routing Diameter:
Realms, Diameter FQDN and AVPs used for Routing. Diameter Transport:
IP Transport Networks and SCTP. Activity: detailed analysis of the Diameter message
format using Mpiricals NetX.
PCC Detailed Procedures
Duration: 1 hour.
Topic areas covered include:
Session Binding. PCC and QoS Rule Authorization:
Inputs for rule creation and PCC rule format. Bearer Binding. Example Procedures:
IP-CAN Session Establishment. IP-CAN Session Modification.
Activity: detailed Analysis of IP-CAN Session Establish-ment and Modification using Mpiricals NetX.
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Catalogue 2015
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IMS and PCC
PCC Applications
Duration: 1 hour.
Topic areas covered include:
SAE Diameter Interfaces and Command Codes: Gx, Rx,S9, Cx, Sh, S6a, S13, Sy and Sd.
Credit Control Application and the Gx Interface. OFCS and OCS Interaction. Utilizing PCC in SAE.
Charging Concepts
Duration: 1 hour.
Topic areas covered include:
SAE Charging Architecture: CTF, CCF, CGF, OCS, OFCS, GTP, Diameter Charging
Interfaces. Charging Identifiers.
Charging Data Generation and Transfer. Credit Management. TADIG and IREG Regulations.
Roaming and IPX
Duration: 1 hour.
Topic areas covered include:
Roaming Scenarios: Home Control and Routing. Home Control and Visited Breakout. Visited Control and Visited Breakout.
IPX Functionality and Architecture. IPX Connectivity Options. Diameter and Roaming:
Roaming Architecture, DNS and Diameter Edge Agents.
Analyzing the IMS Duration: 2 days or 12 hours. Delivery Options: LiveOnsite, LiveOnline. Prerequisites: IMS and PCC System Engineering, or
equivalent knowledge.
This course will contain the following sections:
IMS Review
Duration: 1 hour.
Topic areas covered include:
Recap/review of IMS key concepts. Concepts, architecture, key procedures.
SIP Analysis
Duration: 2.5 hours.
Topic areas covered include:
SIP Fundamentals Recap. SIP Development:
Standardization efforts. Areas of development.
Additional SIP Methods: INFO, REFER, PRACK, MESSAGE, UPDATE, SUB-
SCRIBE, NOTIFY and PUBLISH. Exploring SIP Headers and Parameters:
Compatibility and capability negotiation. Routing. Security. P-headers.
Minimizing Packet Overheads: Compact Form header fields and SIP Compression.
DNS and SIP. Overcoming NAT and Firewall issues.
Firewall and NAT refresher. NAT and SIP Calls. Solutions for NAT Traversal. Focus On SBC operation, including Registration and
Session Establishment involvement. Activity: detailed SIP analysis using Mpiricals NetX.
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IMS
and
PCC
IMS Registration Analysis
Duration: 3.5 hours.
Topic areas covered include:
SIP Registration Step by Step Analysis: Key header fields and parameters.
IMS Security Architecture: Security Principles, Existing 3GPP Security Mecha-
nisms and Diameter. IMS AKA. Protecting SIP Signalling:
IPSec and Transport Layer Security. Trust Domains. Registration Event Subscription. Activity: detailed IMS Registration analysis using
Mpiricals NetX.
IMS Session Analysis
Duration: 3 hours.
Topic areas covered include:
IMS Session Establishment Step by Step Analysis. Key methods, header fields and parameters. Generic, VoLTE, IR.94 Video and Instant Messaging
based examples. Activity: detailed analysis using Mpiricals NetX.
IMS to Legacy Voice Interworking
Duration: 1 hour.
Topic areas covered include:
Soft Switch Architecture: MGCF, MGW and SGW.
IMS to PSTN Call Procedures. MMTel (Multimedia Telephony). Support for Emergency Services. SMS and IP-SM-GW. Activity: detailed IMS to PSTN Interworking analysis
using Mpiricals NetX.
SRVCC Fundamentals
Duration: 1 hour.
Topic areas covered include:
Drivers for Service Continuity. SRVCC Supporting Architecture:
MME and MSC Interaction via Sv, SCC AS. E-UTRAN to GERAN/UTRAN SRVCC Procedure. SRVCC Derivatives:
rSRVCC, eSRVCC, vSRVCC and aSRVCC.
Rich Communication Services Duration: 1 day or 6 hours. Delivery Options: LiveOnsite, LiveOnline. Prerequisites: Analyzing the IMS, or equivalent knowl-
edge.
This course will contain the following sections:
Rich Communication Services
Duration: 1 hour.
Topic areas covered include:
Drivers for RCS: The Rise of OTT Providers, the RCS business model.
RCS 5.1 Architecture: Incorporating GSMA IR92, Example End to End
RCS Architecture, RCS Device Modes, Client Types, Device Architecture and the Joyn Initiative.
RCS Registration Procedures: IMS Considerations, Registration Optimization,
Capability Management, Security. RCS Services:
Standalone Messaging, 1-to-1 Chat, Group Chat, File Transfer, Content Sharing, Presence, IP Voice, Geolocation.
RCS Inter-Service Provider Interworking Consider-ations. GSMA IR90.
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IMS and PCC
39
RCS Supporting Architecture - IMS
Duration: 2 hours.
Topic areas covered include:
IMS Concepts. IMS Architecture:
P, S and I CSCF, HSS, Application Servers, PSTN Breakout and Interworking.
SIP Basics: Protocol Architecture, Methods, Registration and
Session Establishment. IMS Registration and Session Establishment.
RCS Initial Configuration
Duration: 1 hour.
Topic areas covered include:
Initial Procedures: RCS Protocols, RCS and Access Technologies,
Service Provisioning in the IMS. Client Configuration:
Autoconfiguration, HTTP Based Client Configuration.
RCS Specifics for IMS Registration. Addressing and Identities. Capability and User Discovery.
RCS Voice and Messaging Services
Duration: 1 hour.
Topic areas covered include:
Voice Services in RCS: GSMA IR92 (VoLTE), GSMA IR58 (VoHSPA) and Sup-
plementary Services. Typical VoLTE Call Establishment. Video Calling with GSMA IR94.
Multimedia Messaging Services in RCS: OMA CPM, 1-to-1 and Group Chat.
RCS Presence Services.
Roaming and IPX
Duration: 1 hour.
Topic areas covered include:
IPX Functionality and Architecture. IPX Connectivity Options. Diameter and Roaming:
Roaming Architecture, DRA, DNS and Diameter Edge Agents.
SAE Charging Architecture: CTF, CCF, CGF, OCS, OFCS, GTP, Diameter Charging
Interfaces. Charging Identifiers.
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IP a
nd P
roto
cols
IP and Protocols
IP for Next Generation Networks Duration: 1 day or 6 hours. Delivery Options: LiveOnsite, LiveOnline. Prerequisites: None.
This course will contain the following sections:
IP Fundamentals
Duration: 1.5 hours.
Topic areas covered include:
OSI 7 Layer Model and TCP / IP Model. Transport Layer Protocols:
UDP, TCP, SCTP. IP and the Network Layer:
IP Addressing, DHCP, CIDR. Data Link Layer Technologies:
Ethernet, Wi-Fi, IEEE 802 Working Groups. Physical Layer Technologies.
IP Transport Networks
Duration: 1.5 hours.
Topic areas covered include:
Driving Factors for Migration to IP. Routing at Layer 3:
Router Architecture, Routing Tables, Lookup and Forwarding.
Indirect and Direct Routing Procedures. Routing Protocol:
IGP, OSPF, EGP, BGP-4. Packet Transport Architectures.
Introduction to MPLS
Duration: 1.5 hours.
Topic areas covered include:
MPLS Network Architecture and Features: Scalability, Flexibility, Performance, Simplification.
MPLS Network Elements. MPLS Data Forwarding Plane:
FEC to Label Binding, ILM, FTN, NHLFE. LSP Establishment Options. Advantages of MPLS Transport Networks:
FRR, Traffic Engineering, L2 / L3 VPN.
IP in Next Generation Networks
Duration: 1.5 hours.
Topic areas covered include:
IPRAN Architecture: Options for IPRAN Migration Scenarios (PWE3,
MSPP, Ethernet Node B etc). Core Network Soft Switching Architecture:
MSC-S and MGW, SIP and BICC, RTP, H.248. Sigtran.
IPv6 Duration: 1 day or 6 hours. Delivery Options: LiveOnsite, LiveOnline. Prerequisites: IP for NGN, or equivalent knowledge.
This course will contain the following sections:
The Driving Factors for IPv6
Duration: 1 hour.
Topic areas covered include:
Short Term Solutions for IPv4s Problems - NAT and CIDR.
Upgrading to IPv6. Migration Strategies. IPv4 / IPv6 Dual Stack. IPv4 to IPv6 Translation. Tunnelling:
Evaluation of available tunnelling techniques. Focus On Configured Tunnels, 6to4 and 6rd.
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Catalogue 2015
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IP and Protocols
IPv6 Basics
Duration: 1.5 hours.
Topic areas covered include:
IPv6 Address Space: Administration, distribution.
IPv6 Header Format: Header Fields and Functionality.
IPv6 Header Extensions. IPv6 Features:
Autoconfig, Network Renumbering, Neighbour Discovery, Mobile IPv6.
IPv6 Addressing
Duration: 1 hour.
Topic areas covered include:
IPv6 Address Space, Size and Types. Address Notation - Unicast Addressing including Spe-
cialist Address Types. Address Format - Address Aggregation, Global Routing
Prefix, Subnet ID. IPv6/IPv4 Address Embedding. Routing Protocols for IPv6. Anycast and Multicast.
IPv6 Options and Extension Headers
Duration: 30 minutes.
Topic areas covered include:
Fragmentation, Reassembly and Routing. IPv6 in IPv6 Tunnelling. Hop by Hop Options. Destination Options.
Overcoming Problems with IP Transport Networks
Duration: 1.5 hours.
Topic areas covered include:
Security and IP Transport Networks. IPv6 with IPSec - ESP and AH. Implementing QoS - DiffServ and the Traffic Class Field. MPLS and IPV6.
IP Network Security Duration: 2 days or 12 hours. Delivery Options: LiveOnsite, LiveOnline. Prerequisites: None.
This course will contain the following sections:
The Threat Landscape
Duration: 1.5 hours.
Topic areas covered include:
The Global Cybercrime Industry: Cybercrime infrastructure, geopolitical cybercrime.
The Threat Climate: Malicious Software, distribution methodologies. Botnets and Spam distribution. Denial of Service.
Physical Insecurity.
The Principles of Security
Duration: 1.5 hours.
Topic areas covered include:
Data Confidentiality: Encryption techniques, symmetric and asymmetric
encryption, cryptographic keys, Focus On AES. Data Integrity:
Hashing, secure hashing algorithms. Data Authentication:
Digital signatures, digital certificates.
Authentication and Authorization
Duration: 1.5 hours.
Topic areas covered include:
Authentication Techniques: Passwords, password cracking, salting.
AAA: RADIUS, Diameter.
Public Key Infrastructure and X.509 Digital Certificates. Cracking/Hacking Techniques:
Footprinting, reconnaissance, enumeration, pene-tration, clean up.
Common Hacking Tools.
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IP a
nd P
roto
cols
Securing IP Traffic
Duration: 1.5 hours.
Topic areas covered include:
IPSec Basics. IPSec Management Functions:
SPD, SA, SPI, SAD. IPSec AH Operation. IPSec ESP Operation.
IKEv2. Transport Layer Security.
Service Provider Security Mechanisms
Duration: 2 hours.
Topic areas covered include:
Security Features of GSM: 2G Authentication and Ciphering.
Security Features of UMTS: 3G Authentication and Ciphering.
Security Features of LTE: EPS AKA, NAS and RRC security, IPSec in LTE
networks. IMS Security.
Key interfaces.
Protocol Security Considerations
Duration: 1.5 hours.
Topic areas covered include:
Next Generation Networks: Release 4 Core Network, IP Soft Switch
components. R4 Core Protocol Security:
H.248, RTP, SIP, SDP.
Security Solutions for the Network
Duration: 1.5 hours.
Topic areas covered include:
Protecting the Network: Firewalls, IPS/IDS, NAC.
System Hardening. Physical Security Considerations. Protection Against DDoS. Endpoint Protection.
Security Implementation and Management
Duration: 1 hour.
Topic areas covered include:
Security Strategies and Policies. Defense in Depth. Disaster Recovery/Contingency.
Packet Transport Networks Duration: 2 days or 12 hours. Delivery Options: LiveOnsite, LiveOnline. Prerequisites: None.
This course will contain the following sections:
Packet Transport Network Basics
Duration: 1 hour.
Topic areas covered include:
Drivers for Change: Traffic growth forecasts, network optimization,
convergence. Positioning IP in the transport network. IPv4 Capabilities. IP Addressing:
Address format, Interior and Exterior routing protocols.
IPv6 Fundamentals
Duration: 1 hour.
Topic areas covered include:
Driving Factors for IPv6. IPv6 Header Format:
Capabilities, Extensibility. IPv6 Address Format and Address Types. IPV6 Migration Challenges.
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IP and Protocols
MPLS Basics
Duration: 1.5 hours.
Topic areas covered include:
MPLS Network Architecture and Features: Scalability, flexibility, performance, simplification.
MPLS Network Elements: LSR, LER.
MPLS Data Forwarding Plane: FEC to Label Binding, ILM, FTN, NHLFE.
LSP Establishment options: LDP, RSVP, BGP.
MPLS Features
Duration: 1.5 hours.
Topic areas covered include:
MPLS Traffic Engineering: Deployment scenarios, path computation, con-
straint based routing etc. Fast Reroute:
One to One and Facility FRR, path establishment using RSCP.
MPLS Layer 2 VPNs: VPLS, PWE3, control and forwarding plane.
MPLS Layer 3 VPNs: VRF, Route Targets, Route Distinguishers.
Carrier Ethernet
Duration: 1 hour.
Topic areas covered include:
Ethernet basic principles: Frame format, switching process, VLANs.
Introduction to Carrier Ethernet: Key concepts, driving factors.
Carrier Ethernet services: E-Line, E-LAN, E-Tree.
MEF end to end architecture: Key interfaces.
Carrier Ethernet Transport technologies.
Physical Layer Transmission Options
Duration: 1 hour.
Topic areas covered include:
Optical Transport: PON, G.709, IPoDWDM, Next Generation SDH.
Microwave Backhaul: Including Ethernet over Microwave.
xDSL.
Packet Transport and the Mobile Service Provider
Duration: 2 hours.
Topic areas covered include:
Impact on the Mobile Service Pro