LTE Solutions LE 5.0 Release Training Catalog

LTE Solutions LE 5.0 Release Training Catalog Date of Issue: February 2013 Copyright 2013 by Alcatel-Lucent. All Rights Reserved. About Alcatel-Lucent Alcatel-Lucent (Euronext Paris and NYSE: ALU) provides solutions that enable service providers, enterprises and governments worldwide, to deliver voice, data and video communication services to end-users. As a leader in fixed, mobile and converged broadband networking, IP technologies,

applications, and services, Alcatel-Lucent offers the end-to-end solutions that enable compelling communications services for people at home, at work and on the move. Notice The information contained in this document is subject to change without notice. At the time of publication, it reflects the latest information on Alcatel-Lucent s offer, however, our policy of continuing development may result in improvement or change to the specifications described. Trademarks Alcatel, Lucent Technologies, Alcatel-Lucent and the Alcatel-Lucent logo are trademarks of Alcatel-Lucent. All other trademarks are the property of their respective owners. Alcatel- Lucent assumes no responsibility for inaccuracies contained herein. Purpose This document describes the training portfolio related to the LTE Solution LE 5.0. This catalog has been especially designed to help persons in charge of defining training needs for the LTE LE 5.0 Release. 2 / 51

Contents 1 TRAINING OVERVIEW... 5 TRAINING STRUCTURE... 5 TRAINING DELIVERY... 5 2 JOB-ORIENTED TRAINING PACKAGES... 7 TECHNICAL MANAGER, PROJECT MANAGER, SOLUTION ARCHITECT... 8 Theoretical Introduction into the LTE 5.0... 8 Specific Courses for Solution Architect... 8 LTE ENODE B MAINTENANCE AND FIELD ENGINEER... 9 Theoretical Background Courses... 9 Specific Courses for enode B Maintenance and Field Engineers... 9 LTE ENODE B O&M ENGINEER... 10 Theoretical Background Courses... 10 Specific Courses for enode B O&M Engineers... 10 LTE ENODE B TECHNICAL SUPPORT ENGINEER... 11 Theoretical Background Courses... 11 Specific Courses for enode B Maintenance Technical Support Engineers... 11 RADIO NETWORK PERFORMANCE ANALYZER AND OPTIMIZER... 12 Theoretical Background Courses... 12 Specific Courses for Radio Network Performance Analyzer and Optimizer Engineers... 12 Specific Courses with NPO tool Options:... 12 Specific Courses with WTA tool Options:... 12 RADIO PLANNING AND DIMENSIONING DESIGNER... 13 Theoretical Background Courses... 13 Specific Courses for Radio Planning and Dimensioning Designer... 13 Specific Courses with RNP tool Options:... 13 NETWORK OPERATION CENTER ENGINEER... 14 Theoretical Background Courses... 14 Specific Courses for NOC Engineer... 14 MME TECHNICAL SUPPORT ENGINEER... 15 Theoretical Background Courses... 15 Specific Courses for MME Technical Support Engineer... 15 Specific Courses with WTA tool Options:... 15 PCRF TECHNICAL SUPPORT ENGINEER... 16 Theoretical Background Courses... 16 Specific Courses for PCRF Technical Support Engineer... 16 EPC GATEWAYS TECHNICAL SUPPORT ENGINEER... 17 Theoretical Background Courses... 17 Specific Courses for Mobile Gateways Technical Support Engineer... 17 Specific Courses for SGW Gateways Technical Support Engineer... 17 Specific Courses for PGW Gateways Technical Support Engineer... 17 Specific Courses for GGSN Gateways Technical Support Engineer... 17 SYSTEM NETWORK ADMINISTRATOR... 18 Theoretical Background Courses... 18 Specific Courses for SAM System Administrator... 18 Specific Courses with NPO tool Options:... 18 3 COMPLETE LE 5.0 TRAINING COURSES... 20 TMO21054/TMO21054W LTE Overview Erreur! Signet non défini. TMO18373 9400 LTE E2E Solution Architecture 22 TMO18213 9400 LTE RAN (T)LA5.0 Technical Overview 23 TMO18311 9400 enode B (T)LA5.0 Maintenance 24 TMO18448 9400 enodeb (T)LA5.0 Integration and Configuration via 5620 SAM 25 TMO18235 9400 enodeb (T)LA5.0 Supervision via 5620 SAM 26 TMO18313 9952 WPS (Wireless Provisioning System) (T)LA5.0 Configuration 27 TMO18214 9400 LTE RAN Radio Principles Description 28 TMO18315 9400 LTE LA5.0 Radio Algorithms and Parameters Description 29 3 / 51

TMO18483 9400 LTE TLA5.0 Radio Algorithms and Parameters Description 30 TMO18416 9400 LTE (T)LA5.0 Introduction to Radio QoS and Traffic Monitoring Description 31 TMO18048 9959 NPO (Network Performance Optimizer) M5 Standard Operations 32 TMO18316 9959 NPO (Network Performance Optimizer) M5 LTE Advanced Operation (T)LA5.0 33 TMO18355 9959 NPO Platform Administration 34 TMO54093W 9400 RNP (Radio Network Planning) Fundamentals LTE 35 TMO54090W 9955 RNP (Radio Network Planning) V7.1 Operation 36 TMO54085 9955 RNP (Radio Network Planning) V7.1.2 Operation LTE 37 TMO21040W Alcatel-Lucent 9958 Wireless Trace Analyzer R8.2 Overview 38 TMO21041W Alcatel-Lucent 9958 Wireless Trace Analyzer R8.2 OA&M 39 TMO21026 EPC LE5.0 Technical Overview 40 TOS36033 5620 SAM (Service Aware Manager) R10.0 Fundamentals 41 TOS36035 5620 SAM (Service Aware Manager) System Administration 42 TER36066W SROS (Service Router Operating System) Fundamentals 43 TER36036 Mobile Gateway (SGW/PGW) R4.0 Operations and Maintenance 44 TER36041 7750 MG SGW (Serving Gateway) R4.0 Operations and Maintenance 45 TER36045 7750 MG PGW (PDN Gateway) R4.0 Operations and Maintenance 46 TER36053 7750 GGSN Provisioning and OAM 47 TMO21024 9471 WMM MME (Mobility Management Entity) Technical Overview for WM6.0 48 TMO21025 9471 WMM MME (Mobility Management Entity) Operations and Maintenance for WM6.0 49 TOS36071 5780 DSC5 Wireless Operations and PCRF Overview 50 TOS36072 5780 DSC5 Wireless Operations and Maintenance 51 4 / 51

1 Training Overview Training Structure Job-Oriented Training Multi-Customer Training Ordering Training The training portfolio is job-oriented. It provides the sets of modules packaged to fulfill the needs of each job. These packages have been carefully designed to cover all the educational aspects of Small Cell Solution operators. A complete description of each module is given in Section 2. Multi-customer sessions are organized throughout the year. You can find the schedule of these sessions on the extranet. NOTE: The sessions are confirmed when there are at least four (4) participants. The sequences can be ordered globally as described in this document, but they can also be built by combining elementary training modules. NOTE: When ordering several sequences for the same trainees, check there are no duplicate modules. The same module can be part of several sequences. Training Delivery Teaching Language Training Documentation Training Location Number of Participants Training Platforms Training Prerequisites All training courses can be delivered in. Most of them can also be delivered in other languages. Please refer to the individual training module description to check in what language the training module can be delivered. All training documentation given with the training course is only available in. All training modules can be delivered either at Alcatel-Lucent premises or on the customer s site. As a general rule, the number of participants is 12 for theoretical training and 8 for practical training. For practical training, the number of participants depends on the amount of equipment required. When the training is requested on the customer s site, please check what equipment is available. Alcatel-Lucent has its own training platform for practice. When practical training is delivered on site, it is the responsibility of the customer to provide access to platforms. For each module, prerequisites are specified; please make sure the trainees fulfill them. 5 / 51

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2 Job-Oriented Training Packages For each job profile, the following information is given: Course Number Course Title Duration, indicated in hours (1 day is equivalent to 6 hours training). (if any) The column is composed of: C: c-learning, classroom training V: v-learning, virtual class I: i-learning, individual training (web-based training) The type of training is classified as follows: T: Theory P: 7 / 51

Job Profile Technical Manager, Project Manager, Solution Architect Telecom and Radio Background, 2G and/or 3G Network Architecture and Signaling, TCP/IP basic knowledge Theoretical Introduction into the LTE 5.0 TMO21054/TMO21054W LTE Overview 6 hours I, V, C T TMO18213 TMO21026 9400 LTE RAN (Radio Access Network) (T)LA5.0 Technical Overview EPC (Evolved Packet Core) LE5.0 Technical Overview 6 hours V, C T 6 hours V, C T Specific Courses for Solution Architect TMO18373 9400 LTE E2E Solution Architecture 12 hours C, V T 8 / 51

Job Profile LTE enodeb Maintenance and Field Engineer Telecom and Radio Background, 2G and/or 3G Network Architecture and Signaling, TCP/IP basic knowledge Theoretical Background Courses TMO21054/TMO21054W LTE Overview 6 hours I, V, C T TMO18213 9400 LTE RAN (Radio Access Network) (T)LA5.0 Technical Overview 6 hours C, V T Specific Courses for enodeb Maintenance and Field Engineers TMO18311 9400 enodeb (T)LA5.0 Maintenance 6 hours C P 9 / 51

Job Profile LTE enodeb O&M Engineer Telecom and Radio Background, 2G and/or 3G Network Architecture and Signaling, TCP/IP basic knowledge Theoretical Background Courses TMO21054/TMO21054W LTE Overview 6 hours I, V, C T TMO18213 9400 LTE RAN (Radio Access Network) (T)LA5.0 Technical Overview TOS36033 5620 SAM (Service Aware Manager) R10.0 Fundamentals 6 hours C, V T 18 hours C,V T Specific Courses for enodeb O&M Engineers TMO18235 9400 enodeb (T)LA5.0 Supervision via 5620 SAM TMO18448 TMO18313 9400 enodeb (T)LA5.0 Integration and Configuration via 5620 SAM 9952 WPS (Wireless Provisioning System) (T)LA5.0 Configuration 6 hours C P 12 hours C P 12 hours C P 10 / 51

Job Profile LTE enodeb Technical Support Engineer Telecom and Radio Background, preferred 2G/3G Network Architecture and Signaling, basic TCP/IP knowledge Theoretical Background Courses TMO21054/TMO21054W LTE Overview 6 hours I, V, C T TMO18213 9400 LTE RAN (Radio Access Network) (T)LA5.0 Technical Overview TOS36033 5620 SAM (Service Aware Manager) R10.0 Fundamentals 6 hours C, V T 18 hours C,V T Specific Courses for enodeb Technical Support Engineers TMO18311 9400 enode B (T)LA5.0 Maintenance 6 hours C P TMO18235 9400 enodeb (T)LA5.0 Supervision via 5620 SAM TMO18448 TMO18313 9400 enodeb (T)LA5.0 Integration and Configuration via 5620 SAM 9952 WPS (Wireless Provisioning System) (T)LA5.0 Configuration 6 hours C P 12 hours C P 12 hours C P 11 / 51

Job Profile Radio Network Performance Analyzer and Optimizer Telecom and Radio Background, preferred 2G/3G Network Architecture and Signaling, basic TCP/IP knowledge Theoretical Background Courses TMO21054/TMO21054W LTE Overview 6 hours I, V, C T TMO18213 9400 LTE RAN (Radio Access Network) (T)LA5.0 Technical Overview 6 hours C, V T Specific Courses for Radio Network Performance Analyzer and Optimizer Engineers TMO18214 9400 LTE RAN Radio Principles Description 18 hours C, V T TMO18315 TMO18483 TMO18416 9400 LTE LA5.0 FDD Radio Algorithms and Parameters Description (1) 9400 LTE TLA5.0 TDD Radio Algorithms and Parameters Description (2) 9400 LTE (T)LA5.0 Introduction to Radio QoS and Traffic Monitoring Description (1) For LTE Network based on FDD radio access technicians (2) For LTE Network based on TD-LTE radio access technicians Specific Courses with NPO tool Options: 24 hours C, V T 24 hours C, V T 12 hours C, V T TMO18048 TMO18316 9959 NPO (Network Performance Optimizer) Standard Operations 9959 NPO (Network Performance Optimizer) M5 LTE Advanced Operation (T)LA5.0 18 hours C P 12 hours C P Specific Courses with WTA tool Options: TMO21040W TMO21041W Alcatel-Lucent 9958 Wireless Trace Analyzer R8.2 Overview Alcatel-Lucent 9958 Wireless Trace Analyzer R8.2 OA&M 4 hours I T 8 hours I P 12 / 51

Job Profile Radio Planning and Dimensioning Designer Telecom and Radio Background, preferred 2G/3G Network Architecture and Signaling, basic TCP/IP knowledge Theoretical Background Courses TMO21054/TMO21054W LTE Overview 6 hours I, V, C T TMO18213 9400 LTE RAN (Radio Access Network) (T)LA5.0 Technical Overview 6 hours C, V T Specific Courses for Radio Planning and Dimensioning Designer TMO18214 9400 LTE RAN Radio Principles Description 18 hours C, V T TMO54093W 9400 RNP (Radio Network Planning) Fundamentals LTE 5 hours I T Specific Courses with RNP tool Options: TMO54090W 9955 RNP (Radio Network Planning) Operation 5 hours I T TMO54085 9955 RNP (Radio Network Planning) Operation LTE 12 hours C, V P 13 / 51

Job Profile Network Operation Center Engineer Telecom and Radio Background, preferred 2G/3G Network Architecture and Signaling, basic TCP/IP knowledge Theoretical Background Courses TMO21054/TMO21054W LTE Overview 6 hours I, V, C T TMO18213 9400 LTE RAN (Radio Access Network) (T)LA5.0 Technical Overview 6 hours C, V T TMO21026 epc LE5.0 Technical Overview 6 hours C, V T Specific Courses for NOC Engineer TOS36033 5620 SAM (Service Aware Manager) R10.0 Fundamentals 18 hours C,V T 14 / 51

Job Profile MME Technical Support Engineer Telecom and Radio Background, preferred 2G/3G Network Architecture and Signaling, basic TCP/IP knowledge Theoretical Background Courses TMO21054/TMO21054W LTE Overview 6 hours I, V, C T TMO21026 epc LE5.0 Technical Overview 6 hours C, V T TOS36033 5620 SAM (Service Aware Manager) R10.0 Fundamentals 18 hours C,V T Specific Courses for MME Technical Support Engineer TMO21024 TMO21025 9471 WMM MME (Mobility Management Entity) Technical Overview for WM6.0 9471 WMM MME (Mobility Management Entity) Operations and Maintenance for WM6.0 Specific Courses with WTA tool Options: 12 hours C, V T 30 hours C P TMO21040W TMO21041W Alcatel-Lucent 9958 Wireless Trace Analyzer R8.2 Overview Alcatel-Lucent 9958 Wireless Trace Analyzer R8.2 OA&M 4 hours I T 8 hours I T 15 / 51

Job Profile PCRF Technical Support Engineer Telecom and Radio Background, preferred 2G/3G Network Architecture and Signaling, basic TCP/IP knowledge Theoretical Background Courses TMO21054/TMO21054W LTE Overview 6 hours I, V, C T TMO21026 epc LE5.0 Technical Overview 6 hours C, V T TOS36033 5620 SAM (Service Aware Manager) R10.0 Fundamentals 18 hours C,V T Specific Courses for PCRF Technical Support Engineer TOS36071 TOS36072 5780 DSC5 Wireless Operations and PCRF Overview 5780 DSC5 Wireless Operations and Maintenance 12 hours C, V T 18 hours C P 16 / 51

Job Profile epc Gateways Technical Support Engineer Telecom and Radio Background, preferred 2G/3G Network Architecture and Signaling, basic TCP/IP knowledge Theoretical Background Courses TMO21054/TMO21054W LTE Overview 6 hours I, V, C T TMO21026 epc LE5.0 Technical Overview 6 hours C, V T TOS36033 5620 SAM (Service Aware Manager) R10.0 Fundamentals 18 hours C,V T Specific Courses for Mobile Gateways Technical Support Engineer TER36066W SROS Fundamentals 12 hours I P TER36036 Mobile Gateway (SGW/PGW) Operations and Maintenance 30 hours C P Specific Courses for SGW Gateways Technical Support Engineer TER36066W SROS Fundamentals 12 hours I P TER36041 7750 MG SGW (Serving Gateway) Operation and Maintenance 30 hours C P Specific Courses for PGW Gateways Technical Support Engineer TER36066W SROS Fundamentals 12 hours I P TER36045 7750 MG PGW (PDN Gateway) Operation and Maintenance 12 hours C P Specific Courses for GGSN Gateways Technical Support Engineer TER36053 7750 GGSN Provisioning and OAM 24 hours C P 17 / 51

Job Profile System Network Administrator Telecom and Radio Background, preferred 2G/3G Network Architecture and Signaling, basic TCP/IP knowledge Theoretical Background Courses TMO21054/TMO21054W LTE Overview 6 hours I, V, C T TOS36033 5620 SAM (Service Aware Manager) R10.0 Fundamentals 18 hours C,V T Specific Courses for SAM System Administrator TOS36035 5620 SAM (Service Aware Manager) System Administrator 24 hours C P Specific Courses with NPO tool Options: TMO18355 9959 NPO Platform Administration 12 hours C P 18 / 51

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3 Complete LE 5.0 Training Courses For each training course, the following information is given: Course Title Course Number Duration, indicated in hours (1 day is equivalent to 6 hours training) The column is composed of: C: c-learning, classroom training V: v-learning, virtual class I: i-learning, individual training (web-based training) The type of training is classified as follows: T: Theory P: The maximum number of participant Applicable to c-learning and v-learning only Not applicable to i-learning : the job profiles for which the course has been designed : A brief description of the skills participants will acquire during the course (if any) General areas of knowledge and/or specific Alcatel-Lucent training course(s) Course content: a brief description of the topics presented during the course and the areas covered by the component modules 20 / 51

TMO21054/TMO21054W LTE Overview Standard Duration 6 6 6 Theory Theory Theory Maximum Participants N/A 12 N/A This course is an end-to-end overview of LTE networks, targeted toward a broad audience, including individuals in design, test, sales marketing system engineering and deployment roles. Upon completion of this course, participants will be able to: - List the key goals, trends and requirements of LTE networks - Describe the system architecture evolution to LTE. - Identify the Radio Access Network (eutran) Nodes functions and Interfaces - Define the key features of the LTE air interface. - Identify the Evolved Packet Core (epc) Nodes functions and Interfaces - Explain the call flows from mobile switch-on to end-to-end call. General knowledge of mobility telecommunications topics TTP108070W : LTE Awareness (flash: 17 min) Module 1 : LTE Introduction 1.1 Why 4G LTE? 1.2 LTE goals and trends 1.3 Standards requirements of LTE Module 2 : Architecture Evolution 2.1 LTE All-IP Architecture 2.2 Key Architectural Elements 2.3 4G Services and QoS Module 3 : LTE eutran (Evolved Universal Terrestrial Radio Access Network) 3.1 eutran Overview 3.2 LTE Air interface 3.2.1 OFDMA Basic Concepts 3.2.2 MIMO and Transmitter/Receiver 3.3 enodeb functions and interfaces Module 4 : LTE epc (Evolved Packet Core) 4.1 EPC Overview 4.2 MME functions and interfaces 4.3 SGW/PGW functions and interfaces 4.4 PCRF functions and interfaces Module 5 : Session Scenario 5.1 LTE Mobile initial access and registration 5.2 EPS Bearer for Data Transmission 5.3 Idle and Connected Mode Activities 5.4 Mobility and Handover in LTE 5.5 VoIP with IMS Module 6 : Additional topics (Apply depending Customers & Markets) 6.1 HxPA+ vs. LTE 6.2 EvDO+ vs LTE 6.3 WiMAX vs. LTE 6.4 Interworking of LTE with 3GPP and non 3GPP networks 21 / 51

TMO18373 9400 LTE E2E Solution Architecture Standard Duration N/A 12 12 N/A Theory Theory Maximum Participants N/A 12 N/A This training is intended for people involved in LTE business, focused on E2E topics: QoS and voice services. Upon completion of this course, participants will be able to: - Describe 3GPP And 3GPP2 Network Architectures - List the different nodes of every part of the network - Describe the protocol used over each interface - Describe LTE Architecture and LTE Transport Network - Explain the security functions within LTE network - Identify the security vectors used for LTE authentication procedure - Detail the different steps of the Attach and detach procedure in connected mode - Describe idle mode and associated procedures such as tracking area update, paging and service request - Detail the QOS mechanism and its associated parameters - Describe the inter RAT interfaces and Inter RAT mobility mechanisms - Explain how voice and data services are delivered and compare between the different approaches. TMO21054/TMO21054W LTE Overview 1. LTE Network Architecture 2. LTE Network Architecture And Interfaces 3. Network Security 4. User Equipment And HSS And Authentication 5. LTE Network Procedures 6. Basic Procedures 7. LTE QoS Management 8. QOS Management 9. LTE Network Services 10. Voice Service 11. Packet Service 22 / 51

TMO18213 9400 LTE RAN (T)LA5.0 Technical Overview Standard Duration N/A 6 6 N/A Theory Theory Maximum Participants N/A 12 N/A The primary audience for this course is engineers involved in LTE deployment focused on the Radio Part. Operation, maintenance and technical support engineers and Radio optimization, quality of service and radio traffic engineering teams are also part of this audience. Upon completion of this course, participants will be able to: - Describe the functions and the architecture of an LTE Access network. - Describe the IP transport layer in the Radio Access Network. - Describe the portfolio of the Alcatel-Lucent LTE Radio equipment. - Describe the e-node B operation and maintenance principles. TMO21054 LTE Overview 1. LTE eutran Overview 2. LTE Transport Overview 3. LTE enodeb Hardware Description 4. LTE eutran OAM Overview 23 / 51

TMO18311 9400 enodeb (T)LA5.0 Maintenance Standard Duration N/A 6 N/A N/A N/A Maximum Participants N/A 8 N/A This training is intended for people involved in LTE access network management: Maintenance engineers and technical support engineers Upon completion of this course, participants will be able to: - Describe Alcatel-Lucent enodeb Architecture - List the main important part of each module involved in OAM tasks. - Describe enodeb Maintenance principles. - Describe and use the network element management (NEM) tool TMO18213 9400 LTE RAN Technical Overview 1. enodeb Maintenance Description 2. enodeb Maintenance Principles 3. NEM Application Description 4. Lab Exercises 24 / 51

TMO18448 9400 enodeb (T)LA5.0 Integration and Configuration via 5620 SAM Standard Duration N/A 12 N/A N/A N/A Maximum Participants N/A 8 N/A Persons integrating and configuring the enodeb via the 5620 SAM and 9952 WPS. Upon completion of this course, participants will be able to: - Integrate into 5620 SAM a running and configured enodeb or a newly commissioned enodeb, - Configure an enodeb and manage workorders, - Upgrade the enodeb software, - Perform Backup and Restore functions. TOS36033 5620 SAM Fundamentals 1. Introduction 2. enodeb Provisioning and Discovery 3. enodeb Online and Offline Configuration 4. enodeb Software Management 5. Features Activation 25 / 51

TMO18235 9400 enodeb (T)LA5.0 Supervision via 5620 SAM Standard Duration N/A 12 N/A N/A N/A Maximum Participants N/A 8 N/A Persons supervising an enodeb via 5620 SAM Upon completion of this course, participants will be able to describe the: - Supervise an enodeb via 5620 SAM, - Manage the alarm surveillance, - Check the enodeb status - Perform the main corrective actions TOS36033 5620 SAM Fundamentals 1. LTE eutran O&M Architecture 2. enodeb Supervision using 5620 SAM - Alarm Surveillance - enodeb Status - Action on enodeb 26 / 51

TMO18313 9952 WPS (Wireless Provisioning System) (T)LA5.0 Configuration Standard Duration N/A 12 N/A N/A N/A Maximum Participants N/A 8 N/A This training is intended for people involved in LTE access network management: Datafill engineers and enodeb Integrators Upon completion of this course, participants will be able to describe the: - Describe the WPS tool, - Identify the components of WPS Workspace, - Create enb using wizard with the help of CIQ, - Handle the different modes of CM data Import / Export, - Create enodeb database from snapshot or from scratch, - Handle the Templates, Datasets and Checks mechanisms. TMO18448 9400 enodeb Integration & Configuration via 5620 SAM 1. 9952 WPS Overview 2. 9952 WPS Network Configuration Case 3. 9952 WPS Application 4. 9952 WPS Provisioning Use Cases 27 / 51

TMO18214 9400 LTE RAN Radio Principles Description Standard Duration N/A 18 18 N/A Theory Theory Maximum Participants N/A 12 N/A The audience for this course is telecommunications personnel who need a strong background about the LTE air interface structure and mechanisms. It is a prerequisite for the personnel in charge of the configuration, optimization and monitoring of a LTE network. After completing the course, students should be able to: - Explain the drivers of LTE and the key differentiators of LTE standard compared to the existing technologies - Explain the principles of Orthogonal Frequency Division Multiple Access (OFDMA). - Describe the structure of the radio frame for FDD and TDD modes - Describe the protocol stack in the air interface and the channels mapping. - List the different logical, transport and physical channels and their mapping. - List and describe the steps of the RRC (Radio Resource Connection) connection - Explain the bearer concept in LTE network - List the bearer establishment steps and how the UE gets services from the packet data network. - Describe the scheduler mechanisms in uplink and downlink for traffic operation management. - List the different transmission modes supported in LTE - Describe multiple inputs multiple outputs (MIMO) antenna technique and its application in LTE - List the mobility scenarios supported in LTE : Handover mechanism when the User Equipment (UE) is connected & Idle mode and paging when the UE is in nonconnected mode TMO18213 9400 LTE RAN Technical Overview GSM, UMTS or WiMAX technology background 1. Introduction 2. OFDMA Principles 3. Air Interface Structure 4. eutran Scenarios 5. LTE Antenna System 6. Mobility Management 7. Specific Services 8. Abbreviations 28 / 51

TMO18315 9400 LTE LA5.0 Radio Algorithms and Parameters Description Standard Duration N/A 24 24 N/A Theory Theory Maximum Participants N/A 12 N/A This training is intended for people involved in LTE access network optimization: Radio optimization, Quality of Service and Radio traffic engineering teams. This course applies to FDD radio access mode. At the end of the training, the trainees will be able to: - understand all the radio features until LA5.0 - understand the associated 3GPP features - understand the technical context of each parameter - understand the role of each parameter - understand the effect of a modification of the parameter value - understand how to optimize a parameter TMO18214 9400 LTE RAN Radio Principles Description This course describes the radio parameters of the enodeb in LA5.0 software release. The technical context of each parameter as well as the effect of a modification of its value is explained. Following main items are highlighted: Radio: MIMO, UL Control information, Power setting, UL Power control, Link adaptation, HARQ process, Session: Random Access procedure, RRC connection management, bearers establishment, Paging, Connection Control Access, Cell outage management, RoHC for VoIP, Mobility: mobility in IDLE mode, Radio Measurements, evolved Multi Carrier Traffic Allocation (emcta), Data flows (intra LTE mobility, inter RAT mobility, CS Fallback, SRVCC), Specific_services: PCI automatic allocation, Automatic Neighbor Relation (ANR), eutra sharing, Waring Systems (CMAS), Multimedia Broadcast Multicast (embms), Location Based Services. 29 / 51

TMO18483 9400 LTE TLA5.0 Radio Algorithms and Parameters Description Standard Duration N/A 24 24 N/A Theory Theory Maximum Participants N/A 12 N/A This training is intended for people involved in LTE access network optimization: Radio optimization, Quality of Service and Radio traffic engineering teams. This course applies to TD-LTE / TDD radio access mode. At the end of the training, trainees will be able to: - Understand all the radio features until TLA5.0, - Understand the associated 3GPP features, - Understand the technical context of each parameter, - Understand the role of each parameter, - Understand the effect of a modification of the parameter value, - Understand how to optimize a parameter. TMO18214 9400 LTE RAN Radio Principles Description 1. eutran Parameters Introduction 2. TDD Mode Radio Resources Management 3. TDD Mode Session Management 4. Mobility Management within TDD 30 / 51

TMO18416 9400 LTE (T)LA5.0 Introduction to Radio QoS and Traffic Monitoring Description Standard Duration N/A 12 12 N/A Theory Theory Maximum Participants N/A 12 N/A Radio optimization, RF Quality of Service and Radio traffic engineering teams At the end of the training, the trainees will be able to: - Introduce the Alcatel-Lucent Monitoring tool for Wireless Standards - Describe the 3GPP metric families for LTE FDD and TDD - Classify the available LTE enodeb metrics to monitor the KPI issues according to the following radio features (accessibility, retainability, mobility, Traffic, radio Quality) - Describe Alcatel-Lucent NPO multi-standard tool role for the LTE plugin - Show interactions with Alcatel-Lucent 5620 SAM O&M, enodeb and MME. - Explain Counters and Indicators processing for QoS analysis. TMO18315 9400 LTE Radio Algorithms and Parameters Description 1. Introduction to QoS Monitoring Tool 2. Service Accessibility 3. Retainability 4. Mobility 5. Traffic Monitoring 6. Quality Monitoring 31 / 51

TMO18048 9959 NPO (Network Performance Optimizer) Standard Operations Standard Duration N/A 18 N/A N/A N/A Maximum Participants N/A 8 N/A Radio Network engineers in charge of radio network optimization using the NPO tool. Upon completion of this course, participants will be able to: - Describe NPO architecture and its main functions - Monitor the Quality of Service - Create QoS Views and Reports - Analyze QOS misbehaviors in the network and solve them - Analyze and check the radio Parameters - Create and use QoS Alerters - Use Web Publish and Web Client modules TMO18315 9400 LTE Radio Algorithms and Parameters Description. 1. Introduction 2. Counters and Indicators 3. Topology and Radio Parameters 4. Basic Quality of Service Analysis 5. Web Access Features 32 / 51

TMO18316 9959 NPO (Network Performance Optimizer) M5 LTE Advanced Operation (T)LA5.0 Standard Duration N/A 12 N/A N/A N/A Maximum Participants N/A 8 N/A The primary audience for this course is Radio Network engineers in charge of radio network optimization using the Network Performance Optimizer (NPO) tool. The intended audience is personnel knowing already NPO in 2G, 3G, WiMAX or in LA4.0 LTE and who need to know LA5.0 LTE specificities. Upon completion of this course, participants will be able to: - Use PCMD modules and PCMD indicators - Use NUART modules and NUART indicators - Use Cartography - Create QoS indicators for customer KPI needs - Use Diagnosis, Object References, Rule & Trend modules TMO18048 9959 NPO (Network Performance Optimizer) Standard Operations 1. Per Call Measurement Data (PCMD) module 2. Network Unavailability and Alarm Reporting Tool (NUART) module 3. Cartography 4. Indicator Creation 33 / 51

TMO18355 9959 NPO Platform Administration Standard Duration N/A 12 N/A N/A N/A Maximum Participants N/A 8 N/A Network Administrators (IT) in charge of System and Platform Administration in the ALU BSS Network. For example: personnel already in charge of maintaining the O&M Servers (OMC-R, WMS, PCMD, SAM, etc.). Upon completion of this course, participants will be able to: - Describe the features, configurations and basic software architecture of NPO - Create & manage the users - Monitor & manage the processes - Manage the scripts and daily routines - Read (some) logfiles - Monitor the used and free disk storage - Configure & check the datasources (OMC-R, RNP) - Verify the data are loaded in NPO - Describe interactions with the ORACLE database - Troubleshoot some frequently met problems on NPO Server - Perform backup/restore operations Good knowledge of UNIX/LINUX commands and Solaris/HP systems. 1. Platform Administration Description 2. User Administration 3. System Monitoring 4. Log files 5. Storage Monitoring 6. Stop and Start Processes 7. Miscellaneous Platform Tasks 8. Data Loading 9. OMC-R / RNP Data Source Management 10. Backup and Restore 11. Annex - Unix commands 34 / 51

TMO54093W 9400 RNP (Radio Network Planning) Fundamentals LTE Standard Duration 5 hours N/A N/A Theory N/A N/A Maximum Participants N/A N/A N/A This training is intended for people involved in LTE access network planning: Radio network planner and network design team. Upon completion of this web-based training, participants should be able to: - Explain the process of Radio Network Planning and its major steps - Explain the air interface of LTE and the impacts to Radio Network Planning - Explain multiple antenna techniques used in LTE and their impacts to radio network planning - Describe the link budget for LTE - Describe briefly the structure of a radio network planning tool - Describe the major steps of RF design and the purpose of coverage predictions - Explain different possibilities to configure basic parameters like cell neighbors, physical cell identities and frequency reuse schemes - Identify the factors influencing capacity planning and the purpose of network simulations TMO18214 9400 LTE RAN Radio Principles Description Basic knowledge in GSM/UMTS/WiMAX, mathematics and physics Part 1: 1. LTE Introduction 2. Radio Network Planning Process 3. Air Interface Part 2: 1. Antennas in LTE 2. Radio Network Planning Process Steps 3. Link Budget 4. RNP tool 5. RF Design 6. RF Configuration Parameters 7. Capacity Planning 35 / 51

TMO54090W 9955 RNP (Radio Network Planning) V7.1 Operation Standard Duration 5 hours N/A N/A Theory N/A N/A Maximum Participants N/A N/A N/A Personnel in charge of radio network planning using the 9955 RNP tool Upon completion of this course, participants will be able to: - Use the RNP graphical user interface; - Handle RNP tool & perform the RNP tasks for network design - Handle calculations (radio and traffic predictions) TMO54093W 9400 RNP (Radio Network Planning) Fundamentals LTE 1. Overview 2. Working environment (working with menus, windows, maps, explorer and tables; filtering/grouping/sorting data; managing display) 3. Managing geographic data (coordinate systems; geographic data import/export; managing geographic data properties) 4. Managing radio data (radio data creation and management Network Design) 5. Managing computations (computation and result zones; propagation models; point analysis and coverage predictions) 6. Multi-user features (user configuration; database creation and management; shared matrices) 36 / 51

TMO54085 9955 RNP (Radio Network Planning) V7.1.2 Operation LTE Standard Duration N/A 12 12 N/A N/A Maximum Participants N/A 8 8 Personnel in charge of radio network planning using the 9955 RNP tool for LTE. Upon completion of this course, participants will be able to: - Use the RNP graphical user interface - Handle RNP tool & perform the RNP tasks for LTE network design - Handle calculations for LTE (radio and traffic predictions) TMO54090W 9955 RNP (Radio Network Planning) Operation Familiarity with RNP Fundamentals/Mobile technologies 1. LTE Concepts 2. LTE Planning Overview 3. Modeling an LTE Network 4. LTE Predictions 5. MIMO Modeling in LTE 6. Enhanced Management of Antenna Patterns 7. Static inter-cell interference coordination using fractional frequency reuse (DL) 8. Neighbor Allocation 9. Automatic Resource Planning 10. Frequency Plan Analysis 11. Monte-Carlo Based Simulations 12. Using Drive Tests 13. Terminology and Concepts 37 / 51

TMO21040W Alcatel-Lucent 9958 Wireless Trace Analyzer R8.2 Overview Standard Duration 4 hours N/A N/A Theory N/A N/A Maximum Participants N/A N/A N/A This course is designed for customers who need to perform end-to-end call analysis within their network. Typical users include: - Performance Engineers - Radio Frequency Engineers - Network Operators Upon completion of this course, participants will be able to: - Identify the screen components, menus, and key menu items of the 9958 WTA and their functionality. - Explain the call trace data initiation and collection processes for the 9958 WTA. - Explain how to build a report. Before attending this course, students need to have a good understanding of LTE network elements, architecture and signaling TMO21020/TMO21020W LTE Solution Overview 1. Overview 2. 9958 WTA software interface 3. Data collection 4. Data structure and display 38 / 51

TMO21041W Alcatel-Lucent 9958 Wireless Trace Analyzer R8.2 OA&M Standard Duration 8 hours N/A N/A Theory N/A N/A Maximum Participants N/A N/A N/A The primary audience for this course is Radio Network Engineers, Network Support Engineers, and Service Provider personnel who are new to the 9958 WTA and will be using it to perform call trace collection and analysis. Upon completion of this course, participants will be able to: - Browse and retrieve new and existing call trace files from network elements. - Set up a call trace for the enodeb (via the 5620 SAM) or the 9471 MME. - Use end-to-end call trace analysis capabilities to troubleshoot network issues. TMO21040W 9958 Wireless Trace Analyzer Overview TMO21054/TMO21054W LTE Overview Basic knowledge of wireless systems is required. Knowledge of LTE networks is also recommended. 1. Data collection and filtering 2. Creating and running reports 3. Data analysis 39 / 51

TMO21026 EPC LE5.0 Technical Overview Standard Duration N/A 6 6 N/A Theory Theory Maximum Participants N/A 12 N/A The primary audience for this course is the operation and maintenance personnel who configure, maintain and troubleshoot the Evolved Packet Core (EPC) in a Long Term Evolution (LTE) network. Upon completion of this course, participants will be able to: - Identify the EPC interfaces - Identify the protocols used between EPC interfaces - Describe the messages sent between each EPC interface - Identify examples of end-to-end call flow scenarios - Describe the different OAM interfaces - Identify the OAM management capabilities TMO21054 LTE Overview 1. EPC Overview 2. EPC Interfaces, Protocols and Messages 3. Mobility Management Procedures 4. EPC OAM 40 / 51

TOS36033 5620 SAM (Service Aware Manager) R10.0 Fundamentals Standard Duration N/A 18 18 N/A Theory Theory Maximum Participants N/A 12 12 This course is intended for technical personnel using the 5620 SAM to monitor the network, report network alarms and monitor performance. Upon completion of this course, participants will be able to: - List the 5620 SAM functions and main features - Identify the components of the 5620 SAM management system - Identify the elements 5620 SAM GUI - Use the 5620 SAM navigation tree views to perform equipment management operations - Discover network element (NE) devices on 5620 SAM - Use 5620 SAM topology maps to manage the network and display the status of network devices and services - Generate file inventory lists for a managed device or for the entire network - Use the 5620 SAM to identify alarms rose against equipment and services, alarm types, severity, status and correlation details - Manage the User activity logs to view information about the actions performed by each 5620 SAM clients - Use the dynamic alarm list to filter and search for alarms, display correlated alarms, view alarm history and open alarm information details - Perform scheduled and on-demand NE backups - Restore NE's configuration using backup files stored in the SAM database - Perform scheduled and on-demand NE software updates - Identify the 5620 SAM statistics collection capabilities - Use the 5620 SAM to collect, display, and save to a file scheduled and on-demand performance statistics in tabular or graphical forms for selected objects - Identify the process to collect accounting statistics Basic understanding of IP Networks Basic understanding of technical 1. Product overview 2. System Overview 3. Network Management 4. Fault Management 5. Network Element Management 6. Performance Management 41 / 51

TOS36035 5620 SAM (Service Aware Manager) System Administrator Standard Duration N/A 24 N/A N/A N/A Maximum Participants N/A 8 N/A System administrators responsible for ensuring the 5620 SAM system is installed, updated, configured and maintained in accordance with operational procedures. Upon completion of this course, participants will be able to: - Describe the Alcatel-Lucent NMS portfolio - Describe the 5620 SAM architecture components, redundant configurations, and hardware and software specifications - Perform 5620 SAM server, database and client installation and upgrade - Perform database backup and restore operations and verify 5620 SAM database integrity - Configure 5620 SAM security by creating SAM users, user groups, scope of command and span of control - Describe the 5620 SAM daily, weekly, monthly routine maintenance and supplemental maintenance tasks - Implement high-level troubleshooting workflows to help identify and isolate problems Familiarity with UNIX commands Basic understanding of technical 1. Network Management System Overview 2. 5620 SAM Architecture 3. 5620 SAM Installation Procedures 4. User Security 5. Routine Maintenance 6. Database Management 7. System Troubleshooting 8. Appendices 9. Labs 42 / 51

TER36066W SROS (Service Router Operating System) Fundamentals Standard Duration 12 N/A N/A Theory N/A N/A Maximum Participants N/A N/A N/A, German Network Operations, Network Provisioning, Network Design and Network Engineering Upon completion of this course, participants will be able to: - Explain where the SR-OS service router is used in a high leverage network - Name the different SR-OS hardware products - Explain the fundamental aspects of IP and MPLS - Understand the key components of a service - Describe the different services - Explain the fundamentals of QoS and Multicast This course is intended for students who have basic IP knowledge 1. High leverage network - FP3 - Service router supported solutions 2. IP/MPLS SR-OS product family 3. CLI 4. Policies 5. IP routing 6. MPLS 7. Introduction to services 8. IES 9. VLL 10. VPLS 11. VPRN 12. PIM 13. QoS 43 / 51

TER36036 Mobile Gateway (SGW/PGW) Operations and Maintenance Standard Duration N/A 30 N/A N/A N/A Maximum Participants N/A 8 N/A, German This primary audience for this course is the operation and maintenance personnel who configure, maintain and troubleshoot the EPC in a LTE network. Upon completion of this course, participants will be able to: - Understand the technical details of interworking with and migrating from 2G/3G to LTE / EPC packet cores - List the key protocols used for signaling and traffic transmission within all IP infrastructure - Describe the fundamental properties of the EPS bearer and describe the structure of an EPS bearer ID - Explain the procedures for the establishment of default and dedicated bearer types and outline their relationship with the service data flow - Understand some of the most important procedures executed over an S1 interface such as paging, context setup, context release, EPS bearer handling, handover and NAS signaling transport - Outline the QoS concepts employed by the EPC gateways and relate these to potential services and EPS bearers the role taken by the S-GW and the role taken by P-GW - Explain the role and the operation of the IMS in respect of the provision of connectivity for offered services - Walk through an LTE session setup by explaining in detail the connection establishment procedures for real time and non real time services as well as resource management and mobility management procedures for the EPC - Provision and troubleshoot the 7750 SR to act as P-GW, S-GW or SGSN to support interworking with other 3GPP and non 3GPP access networks Familiarity with IP Networks, Alcatel-Lucent QoS TER36066 SROS Fundamentals 1. Introduction to Alcatel-Lucent Mobile Gateway 2. EPC Principles and ALU Mobile Gateway Support 3. EPS Procedures 4. 7750 MG 3GPP Profiles 44 / 51

TER36041 7750 MG SGW (Serving Gateway) Operation and Maintenance Standard Duration N/A 30 N/A N/A N/A Maximum Participants N/A 8 N/A This course is intended for personnel involved in designing, maintaining and administering ALU mobile gateway SGW Solution. Upon completion of this course, participants will be able to: - History of mobile cellular networks, and the designated standards 3GPP SGW interfaces that comprise ALU EPC and their functions S1-U,S1-C, S11, S5. - Key protocols used for signaling and traffic transmission (GTP, diameter) - Properties of the EPS bearer and describe the structure of an EPS bearer ID - Procedures for the establishment of default and dedicated bearer types and outline their relationship with the service data flow - QoS concepts employed by the ALU MG gateways and relate these to potential services and EPS bearers - the role taken by the S-GW and the role taken by P-GW - Hardware of the 7750 SR for S-GW deployment - Provisioning of the 7750 SR to be deployed as S-GW 7750 SR redundancy feature in the mobile gateway solution - 3GPP SGW profiles (GTP, Charging, Diameter) provisioning and maintenance - 7750 SR SGW Charging profile features for Mobile gateway solution - Troubleshooting the S-GW TMO21054 LTE Overview TMO21026 EPC Technical Overview TER36066W SROS Fundamentals 1. Introduction to Alcatel-Lucent Mobile Gateway 2. EPC Principles and ALU SGW Support 3. EPS Procedures 4. 7750 SGW 3GPP Profiles 5. Advanced SGW Features 45 / 51

TER36045 7750 MG PGW (PDN Gateway) Operation and Maintenance Standard Duration N/A 12 N/A N/A N/A Maximum Participants N/A 8 N/A This course is intended for personnel involved in designing, maintaining and administering ALU mobile gateway PGW Solution. This course provides a detailed look at the architecture of the Alcatel-lucent mobile gateway solution for delivering end-to-end services in a 4G networks. In specific, the course details the provisioning and maintenance of the 7750 SR deployment as P-GW and its interaction with other EPC nodes. TMO21054 LTE Overview TMO21026 EPC Technical Overview TER36066W SROS Fundamentals This course provides a detailed look at the architecture of the Alcatel-lucent mobile gateway solution for delivering end-to-end services in a 4G networks. In specific, the course details the provisioning and maintenance of the 7750 SR deployment as P-GW and its interaction with other EPC nodes. 46 / 51

TER36053 7750 GGSN Provisioning and OAM Standard Duration N/A 24 hours 24 hours N/A Theory Theory Maximum Participants N/A N/A N/A This course is intended for personnel involved in designing, maintaining and administering the Alcatel-Lucent 7750 Service Router Mobile Gateway GGSN solution. Upon completion of this course, participants will be able to: - Describe the 7750 MG hardware and the role the MG-ISM card takes - Configure the 7750 MG to act as a GGSN node - Provision an APN on the 7750 M - Describe the operation and scope of 3GPP protocols RADIUS, GTP, Diameter - Provision 3GPP protocols on the 7750 GGSN - Explain how the 3GPP UMTS QoS concept is implemented on 7750 GGSN - Explain the concept of primary and secondary PDP contexts - Describe online and offline charging on the 7750 GGSN - Provision VPRN service - Use the Alcatel-Lucent 7750 SR MG OAM diagnostic tools to troubleshoot issues on the GGSN - Provision advanced features for GGSN: KPI/KCI and IP fragmentation Familiarity with 7750 SR routing concepts and CLI commands, and familiarity with UMTS/GSM networks. 1. Introduction to 7750 GGSN 2. Packet Core Principles and Protocols 3. Packet Core Procedures 4. 7750 GGSN Charging 5. IP routing services 6. OAM Tools 7. 7750 GGSN Advanced features 47 / 51

TMO21024 9471 WMM MME (Mobility Management Entity) Technical Overview for WM6.0 Standard Duration N/A 12 12 N/A Theory Theory Maximum Participants N/A 12 N/A The primary audience for this course is those who need a technical understanding of the 9471 MME functions in the LTE solution and of the 9471 MME software and hardware components. Upon completion of this course, participants will be able to: - Explain how the 9471 MME interacts with other elements in the LTE network to provide mobility management and session management functions - Locate and describe 9471 MME hardware components - Explain the function of key 9471 MME software components and applications - Locate IP addresses for MME components, services, and subnets - Identify the user interfaces used to manage the 9471 MME TMO21026 EPC Technical Overview 1. 9471 WMM MME functions and interfaces in the LTE network 2. 9471 WMM MME mobility management, session management, and security procedures 3. 9471 WMM MME support for roaming 4. 9471 WMM MME support for mobility management services 5. 9471 WMM MME interworking with CDMA and UMTS/GSM networks 6. 9471 WMM MME hardware 7. 9471 MME WMM software and IP addressing 8. 9471 WMM MME management interfaces: local MME management interfaces and 5620 SAM 48 / 51

TMO21025 9471 WMM MME (Mobility Management Entity) Operation and Maintenance for WM6.0 Standard Duration N/A 30 N/A N/A N/A Maximum Participants N/A 8 N/A The primary audience for this course is operations and maintenance personnel who maintain the MME function of the Alcatel-Lucent 9471 Wireless Mobility Manager (WMM) in an LTE network. Upon completion of this course, participants will be able to: - Explain how the MME interacts with other elements in the LTE network to provide mobility management and session management functions - Locate and describe MME hardware components - Explain the function of key MME software components and applications - Locate IP addresses for MME components, services, and subnets - Access and navigate the MME user interfaces appropriate to specific tasks - View and modify key MME application parameters - Perform system backup and restore - Control and schedule performance measurement collection - Use platform tools to verify the state and status of MME sub-elements and services - Use alarm clearance procedures to resolve basic MME faults - Use advanced tools to isolate MME interface and signaling problems - Locate procedures in customer documentation to perform OAM&P tasks, including hardware replacement and software update NOTE: TMO21025 includes overview content from TMO21024 - TMO21024 9471 MME (Mobility Management Entity) Technical Overview - TOS36023 5620 SAM Fundamentals can be completed in parallel with this course to prepare for other EPC topics 1. 9471 WMM MME functions and interfaces in the LTE network 2. 9471 WMM MME mobility management, session management, and security procedures 3. 9471 WMM MME support for roaming 4. 9471 WMM MME support for mobility management services 5. 9471 WMM MME interworking with UMTS/GSM networks 6. 9471 WMM MME hardware 7. 9471 WMM MME software and IP addressing 8. 9471 WMM MME management interfaces: local MME management interfaces and 5620 SAM 9. Introduction to operations and maintenance 10. Configuration management 11. Software management 12. Performance management 13. Fault management 49 / 51

TOS36071 5780 DSC5 Wireless Operations & PCRF Overview Standard Duration N/A 12 12 N/A Theory Theory Maximum Participants N/A 12 N/A This course is intended for those customers who need to understand the technical details of 3GPP PCRF and EPS. Upon completion of this course, participants will be able to know: - Describe policy rule and charging of PCRF and how it fits inside the EPS - Understand various 3GPP PCRF related technical details such as default bearer, NW-Initiated and UE-Initiated dedicated bearer, SDF, SDF detection, bearer binding, QoS, On-Path and Off-Path EPS architecture, Packet Filter, packet policing, QCI, ARP, BBERF, PCEF and AF etc... - Explain various 3GPP PCRF related reference points such as the Gx, Gxx, Sp, Sh, Rx and their associated Diameter messages and AVPs - Understand Alcatel-Lucent's PCRF implementation with 5780 DSC - Describe network policy rule development on the 5780 DSC and their execution for influencing network policy for subscribers on an EPS TMO21026 EPC Technical Overview 1. EPS and PCRF Overview 2. 5780 DSC PCRF Overview 3. PCRF Call Flows 4. Bearer, SDF, QoS and Binding 5. PCRF Diameter Messages and Reference Points 50 / 51

TOS36072 5780 DSC5 Wireless Operations and Maintenance Standard Duration N/A 18 N/A N/A N/A Maximum Participants N/A 8 N/A Network engineers, architects, network policy administrators and operators Upon completion of this course, participants will be able to: - Implement various network policy and charging rules on the 5780 DSC5 for network opex reduction and new revenue capture - Use subscriber web service API for subscriber management - Use Rx REST API for developing various on-demand network QoS programs - Implement intelligent traffic management policy with ALU Wireless Network Guardian 9900 - Perform basic 5780 DSC troubleshooting - Implement a 5780 DSC testing lab with just one workstation for policy rule development and verification TOS36071 5780 DSC5 Wireless Operations and PCRF Overview 1. Subscriber provisioning and Web Services 2. Architecture and 3G Support 3. Software Installation, Tools and Logs 4. OAM, Session Audit, Performance Monitoring 5. Rule Design and Usage Management 6. User Management and Policy Rule 7. Rx RESTful API 8. Intelligent Traffic Manager 51 / 51