WCDMA RAN W11 Training Programs. Catalog of Course Descriptions

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1 WCDMA RAN W11 Training Programs Catalog of Course Descriptions

2 Page 2 Catalog of Course Descriptions INTRODUCTION...4 WCDMA RAN W11 PERFORMANCE MANAGEMENT AND OPTIMIZATION...5 ERICSSON WCDMA SYSTEM OVERVIEW...9 CPP NODE FEATURES AND FUNCTIONS...12 WCDMA RAN W11 RBS 3308 INSTALLATION AND MAINTENANCE...15 WCDMA RAN W11 FIELD MAINTENANCE...18 WCDMA RAN W11 RBS 3018 MAINTENANCE...21 WCDMA RAN W11 RBS 3X16 MAINTENANCE...24 WCDMA RAN W11 RBS 3418/3518 AND RRU MAINTENANCE...27 WCDMA RAN W11 ACCESS TRANSPORT NETWORK DESIGN...29 WCDMA RAN W11 DESIGN...33 WCDMA RAN W11 IP TRANSPORT NETWORK DESIGN...36 WCDMA RAN W11, DELTA...39 ERICSSON WCDMA W11 HSPA SYSTEM TECHNIQUES...41 WCDMA W11 AIR INTERFACE...45 WCDMA RAN W11 FUNCTIONALITY...47 WCDMA RAN W11 PROTOCOLS AND PROCEDURES...50 WCDMA RAN W11 TRANSPORT NETWORK SYSTEM TECHNIQUES

3 Page 3 WCDMA RAN W11 QUALITY OF SERVICE...55 WCDMA RAN W11 RXI 821/861 OPERATION AND CONFIGURATION...58 WCDMA W11 / GSM BSS G11 INTERSYSTEM HANDOVER...62 WCDMA W11 RNC 3820 CONFIGURATION...65 WCDMA RAN W11 OPERATION...69 WCDMA RAN W11 OPERATION...69 WCDMA RAN W11 TROUBLESHOOTING...72 WCDMA RAN W11 INITIAL TUNING

4 Page 4 Introduction Ericsson has developed a comprehensive Training Programs service to satisfy the competence needs of our customers, from exploring new business opportunities to expertise required for operating a network. The Training Programs service is delineated into packages that have been developed to offer clearly defined, yet flexible training to target system and technology areas. Each package is divided into flows, to target specific functional areas within your organization for optimal benefits. Service delivery is supported using various delivery methods including: Icon Delivery Method Instructor Led Training (ILT) Seminar (SEM) Workshop (WS) Virtual Classroom Training (VCT) Web Based Learning (WBL) Structured Knowledge Transfer (SKT) 2010

5 Page 5 WCDMA RAN W11 Performance Management and Optimization Description LZU R1A How can the performance of the Ericsson WCDMA Radio Access Network W11A be monitored? What are the Key Performance Indicators (KPI) that should be used? How should this performance management data be used to optimize the WCDMA RAN? In this WCDMA RAN W11 Performance Management and Optimization course students will be introduced to the W11 radio network counters and associated KPI formulas. They will be guided through Acecssibility, Retainability and Integrity optimization tasks. Through a series of practical practical exercises they will become familiar with the optimization of release 99 and High Speed Packet Access (HSPA) networks. The students will also be introduced to the following optional OSS-RC Optimization tools: - WCDMA User and Cell Traffic Recording (UETR/CTR) - WCDMA General Performance Event Handling (GPEH) - WCDMA Measurements Result Recording (WMRR) - WCDMA Neighbor Cell Support (NCSW) - WCDMA Event Based Statistics (EBSW) - Business Objects (BO) and Ericsson Network IQ (ENIQ) The students will also get the opertunity perform practical exercises using all of the above tools during the course. Learning objectives On completion of this course the participants will be able to: 1 Describe the structure and stages in the life of the WCDMA RAN 1.1 Explain the difference between RAN Tuning and Optimization 1.2 Briefly explain how WCDMA RAN statistics are collected by the OSS-RC 1.3 Describe the basic WCDMA RAN Optimization process 1.4 Briefly explain the function of the optional OSS-RC Optimization Tools 2 Explain the collection and storage process for performance statistics 2.1 Explain how statistics are stored on the WCDMA RAN nodes and OSS-RC 2.2 Explain the various radio network counter types used in the WCDMA RAN 2.3 List the RNC and RBS counter Managed Object classes 2.4 Use Customer Product Information to find RNC and RBS counter descriptions 2.5 Explain how radio network counters fit into call scenario flow charts 2.6 Explain the RNC and RBS counter limitations and associated alarms 2.7 Use Customer Product Information to find WCDMA RAN KPI formulas 2010

6 Page 6 3 Use the OSS-RC to collect radio network counters 3.1 Create, activate and delete performance statistics subscription profiles 4 Explain the Service Accessibility Optimization procedure 4.1 Briefly explain Admission and congestion control and the associated parameters 4.2 Create Accessibility KPI formulas to find the worst performing cells 4.3 Use a selection of counters to explain the reason for this poor performance 4.4 Suggest parameter changes to improve the accessibility performance 5 Explain the Service Retainability Optimization procedure 5.1 Briefly explain Radio Network Supervision and the associated parameters 5.2 Briefly explain WCDMA RAN handover algorithms and associated parameters 5.3 Create Retainability KPI formulas to find the worst performing cells 5.4 Use a selection of counters to explain the reason for this poor performance 5.5 Suggest parameter changes to improve the retainability performance 6 Explain the Service Integrity Optimization procedure 6.1 Briefly explain WCDMA RAN Power Control and the associated parameters 6.2 Briefly explain the WCDMA RAN Channel Switching and the associated parameters 6.3 Create Integrity KPI formulas to find the worst performing cells 6.4 Use a selection of counters to explain the reason for this poor performance 6.5 Suggest parameter changes to improve the integrity performance 7 Explain the HSPA Optimization procedure 7.1 Briefly explain the operation of HSDPA and EUL and the associated parameters 7.2 Explain the impact of latency and TCP window size on HSPA throughput 7.3 Create KPI formulas to measure HSPA user throughputs 7.4 Suggest network modifications to improve HSPA throughput 8 Explain what is contained in UETR and CTR files 8.1 Explain briefly how recording files are collected and stored 8.2 Explain what events are collected 8.3 Explain what measurements are collected 9 Explain what is contained in GPEH recordings 9.1 Explain briefly how GPEH files are collected and stored 9.2 Explain what Node-internal events are collected 9.3 Explain what inter-node events are collected 10 Use the OSS-RC to collect UETR, CTR and GPEH 10.1 Create, activate and delete UETR, CTR and GPEH subscription profiles 11 Parse UETR, CTR and GPEH binary files into ASCII or tab-delimited format 11.1 Use the WCDMA Recording File Viewer to parser UETR and CTR binary files into ASCII or tab-delimited format 2010

7 Page Parse GPEH binary files into ASCII or tab-delimited format using the Data Collection Subscription Profiles GUI 12 Use the tools that belong to the Radio Network Optimizer (RNO) for WCDMA 12.1 Explain what can be collected with the WCDMA Measurement Result Recording (WMRR) tool 12.2 Use the WMRR to collect data and produce a performance report 12.3 Use the WCDMA Neighboring Cell Support (WNCS) tool to find missing neighbor definitions in the WCDMA RAN 12.4 Explain the operation of the Event Based Statistics WCDMA (EBS-W) tool 12.5 Use EBS-W to create and collect a user defined counter 12.6 Statistical Observability 13 Explain the ENIQ and Business Objects (BO) Web Intelligence Rich Client operation 13.1 Use Business Objects (BO) Web Intelligence Rich Client to open and refresh Ericsson predefined UTRAN performance reports 13.2 Create user defined UTRAN performance reports using the Business Objects (BO) Web Intelligence Rich Client 13.3 Share user defined UTRAN performance reports with other ENIQ users Target audience The target audience for this course is: System Engineer. This audience is responsible for the Performance Management and Optimization of the WCDMA RAN. Prerequisites Successful completion of the following courses: WCDMA W11 Air Interface WCDMA RAN W11 Functionality WCDMA RAN W11 Protocols and Procedures Ericsson WCDMA W11 HSPA System Techniques LZU LZU LZU LZU Duration and class size The length of the course is 5 days and the maximum number of participants is 8 Learning situation This course is based on theoretical and practical instructor-led lessons given in both classroom and in a technical environment using equipment and tools, which are accessed remotely. 2010

8 Page 8 Time schedule The time required always depends on the knowledge of the attending participants and the hours stated below can be used as estimate. Day Topics in the course Estimated time 1 Performance Management and Optimization Introduction Performance Statistics (Counters) Performance Statistics OSS-RC Subscription Profiles 2 Service Accessibility Optimization Service Retainability Optimization 3 Service Retainability Optimization (continued) Service Integrity Optimization HSPA Optimization 4 Performance Recording (UETR and CTR) General Performance Event Handling (GPEH) CTR, UETR and GPEH OSS-RC Subscription Profiles Parsing CTR, UETR and GPEH Files 5 WMRR, WNCS and EBS-W ENIQ and Business Objects 1.5 hours 3 hours 1.5 hours 4 hours 2 hours 2 hours 2 hours 2 hours 2 hours 2 hours 3 hours 3 hours 2010

9 Page 9 Ericsson WCDMA System Overview Description LZU R9A Do you need to understand what 3rd generation systems are all about? Do you get lost when people talk about Wideband Code Division Multiple Access (WCDMA) system? This course explains the purpose of the WCDMA Core, Radio, and Service Network Elements together with the standardization of the WCDMA access network. In addition, the participants will learn how Ericsson s mobile core network solution connects to external networks such as WCDMA Radio Access Networks, PSTN Networks, PABXs, IMS/VoIP networks or other Mobile Networks. The focus is on general principles rather than specific technical details. Learning objectives On completion of this course the participants will be able to: 1 Detail the nodes and interface in WCDMA Network. 1.1 Explain the idea of the converged industries and the layered core network. 1.2 Present the 3GPP network model, and Ericsson network 1.3 Explain on overview level the functionality of each node and its architecture. 1.4 Show some statistics about WCDMA today and the market trend related to technology. 2 Understand the standardization bodies involved in 3 rd generation. 2.1 Distinguish the Standardization bodies involved in the WCDMA Systems. 2.2 Give in own words why standards are important in Telecommunications. 2.3 Acknowledge what standardization bodies are, and what are their functions. 2.4 Express the concept of full duplex communication, and FDD. 2.5 State the frequency bands and systems chosen for the different areas. 3 Explain on an overview level the Ericsson Mobile Core Network Solution 3.1 Explain on an overview level the architecture of the mobile core network. 3.2 Describe the Mobile Soft-switch Solution Detail the architecture and functions of the MSC-Server 14 and M-MGW Describe the two nodes involved in the P.S, domain of the core network. 3.5 Recall the transport domain, and the various transport technologies used. 3.6 Describe interconnections and protocols in the C.S. and P.S. Domains 3.7 Identify the function of the main database nodes. 3.8 Explain basic traffic cases in the Mobile Soft-switch Solution. 2010

10 Page 10 4 Explain the 3 rd Generation Radio Access Network. 4.1 Explain various access techniques. 4.2 State the coding types used in WCDMA, and how they prevent interference in the uplink and downlink. 4.3 Recognize the Importance of power control. 4.4 List the different handover scenarios in terms of soft, softer and hard handover. 4.5 Acknowledge the architecture of the Ericsson RAN Nodes RNC and RBS. 4.6 Identify the basic principles of HSDPA and EUL. 5 Detail the Network Services involved in WCDMA. 5.1 Acknowledge the functions of the service layer. 5.2 Detail various terminal technologies and platforms used. 5.3 Identify the difference between Applications and enablers, and detail some of the more common enablers. 5.4 Explain Mobile Positioning, MMS and Messaging over IP. 5.5 Acknowledge the architecture and operation of the IP Multimedia Subsystem (IMS). Target audience The target audience for this course is: Service Planning Engineers, Service Design Engineers, Network Design Engineers, Network Deployment Engineers, Service Deployment Engineers, System Technicians, Service Technicians, System Engineers, Service Engineers, Field Technicians, System Administrators, Application Developers, Business Developers Prerequisites The participants should be familiar with general telecom technologies. Duration and class size The length of the course is 2 days and the maximum number of participants is

11 Page 11 Learning situation This course is based on theoretical instructor-led lessons given in a classroom environment. Time schedule The time required always depends on the knowledge of the attending participants and the hours stated below can be used as estimate. Day Topics in the course Estimated time 1 Network Introduction Standardization Mobile Core Network Solution 4 hours 2 Circuit Switched and Packet Switched traffic cases WCDMA Radio Access Network Technology 4 hours Service Network and IP Multimedia 2010

12 Page 12 CPP Node Features and Functions Description LZU R10A Ericsson s WCDMA Radio Access Network (RAN) nodes, namely the RNC, RBS and RXIand the Mobile Media Gateway (M-MGw) are based on Connectivity Packet Platform (CPP). This course is designed to get an overview of the CPP, the functions of CPP-based nodes, as well as relating the functionality of each CPP node to the boards in that node. Learning objectives On completion of this course the participants will be able to: 1 List the Connectivity Packet Platform nodes in the GSM and WCDMA network 1.1 List the data rates supported by the main mobile access technologies 1.2 Explain on an overview level the function of the following WCDMA CPP nodes: M- MGw, RNC, RBS and RXI 1.3 Explain the difference between IP/Ethernet and ATM as transport options in the WCDMA RAN 1.4 List the main interfaces in the WCDMA RAN where IP/Ethernet can be used as an alternative to ATM 2 Understand the major concepts related to the Connectivity Packet Platform 2.1 Explain on an overview level the Connectivity Packet Platform (CPP) hardware 2.2 Explain the processor hierarchy in a CPP node 2.3 List the function, features and capacity of the General purpose Processor Board (GPB) 2.4 List the function, features and capacity of the Switch Core Board (SCB) and Switch Extension Board (SXB) and the CMX Board 2.5 List the function, features and capacity of the ET-MC1, ET-M3, ET-M4, ET-MF4, ET- MC41, ET-MF41, ET-MFG, ET-MFX and ET-IPG Boards 2.6 List the function, features and capacity of the Timing Unit Board 3 Explain on overview level the features and functions of the M-MGw 3.1 List the M-MGw roles 3.2 List the M-MGw specific boards 3.3 List and explain at an overview level the Media Stream Functions in the M-MGw 3.4 Explain on an overview level the M-MGw Modules and hardware configurations 4 Explain on overview level the features and functions of a WCDMA-RNC 4.1 Explain the role of the RNC in the Core Network connectivity 4.2 Explain the role of the RNC in mobility scenarios 4.3 List the RNC Specific boards 4.4 Explain the concept of the RNC Module 4.5 Explain the RNC hardware configuration for both RNC3810 and RNC

13 Page 13 5 Explain on overview level the features and functions of a WCDMA-RBS 5.1 Explain the power control features in the RBS 5.2 Explain on overview level the High Speed Packet Access (HSPA) features 5.3 List the RBS 3000 WCDMA Product family 5.4 List the RBS 3000 Specific hardware 5.5 List the RBS 6000 Product family 5.6 List the RBS 6000 Specific hardware for WCDMA 6 Explain on overview level the features and functions of the RXI 6.1 List the RXI Product Family 6.2 List the transport network topologies where the RXI can be used 6.3 List and explain the ATM-services provided by RXI 6.4 Explain the hardware architecture of the RXI 820 and RXI Explain the hardware architecture of the RXI 821 and 861 Target audience The target audience for this course is: Field Technician, Service Engineer, and System Engineer Since this course is an overview of all the CPP based nodes, it is also suitable for anyone wishing to get an overview of these products. Prerequisites Successful completion of the following course: Ericsson WCDMA System Overview LZU Duration and class size The length of the course is 1 day and the maximum number of participants is 16. Learning situation This course is based on theoretical instructor-led lessons and theoretical exercises given in a classroom environment. 2010

14 Page 14 Time schedule The time required always depends on the knowledge of the attending participants and the hours stated below can be used as estimate. Day Topics in the course Estimated time 1 3G Network Introduction Connectivity Packet Platform M-MGw Features and Functions RNC Features and Functions RBS 3000 and RBS 6000 Features and Functions RXI Features and Functions 1.5 hours 0.5 hour 2010

15 Page 15 WCDMA RAN W11 RBS 3308 Installation and Maintenance Description LZU R1A This course is a task-based course covering hardware replacement and Installation of an RBS The participants are expected to have learned how to perform hardware fault localisation replacement and installation on the RBS 3308 after attending this course. This Course is based on W11 level of sofware release. At the completion of this course, the participants will be familiar with operation and maintenance tools used to manage CPP nodes such as Element Manager and NCLI (Node Command line Interface). Learning objectives On completion of this course the participants will be able to: 1 Explain on overview level the WCDMA RAN Site Concept for RNC and RBS 1.1 Explain the basic WCDMA Radio Access Network 1.2 Identify the Power and Battery Cabinets on Site 1.3 Identify WCDMA Interface for Transmission on Site 1.4 Identify, locate and handle the connection Unit for External Alarms 1.5 Identify and locate Remote Electrical Tilt (RET) 1.6 Identify the Antenna System Controller (ASC) 2 Use the Customer Product Information (CPI) 2.1 Explain the CPI Library structure of the node 2.2 Find information in the Library with use of regular expression 2.3 Find operational instructions (OPI) and maintain the node according to the OPI 2.4 Find additional information on an alarm and solve the problem with the help of the CPI and Element Manager 3 Connect to a node using CLI and also using NCLI 3.1 Understand basic commands using CLI and using NCLI 3.2 Have a basic understanding of the functionality and technology used in CLI and NCLI 3.3 Understand the basic principles behind the Managed Object Model (MOM) 4 Use the Element Manager and understand the concepts behind Object Explorer 4.1 Download and start the Element Manager 4.2 Access and use the different Views ; Containment, ATM, Equipment, IP, Licensing, Radio Network and the Software 4.3 Find the alarm list and comment on the Alarms and Events on the Alarm and Event Log 4.4 Access the property help feature from each window 4.5 Create a Customized View (User Defined) in Element Manager 5 Install the RBS

16 Page Describe the technical data and the connectivity within the RBS Install the RBS 3308 according to the documentation 6 Maintenance of the RBS Describe the hardware of the RBS Perform corrective and preventive maintenance on the RBS 3308 Target audience The target audience for this course is: Field Technician Prerequisites Successful completion of the following courses: Ericsson WCDMA System Overview LZU OSS-RC Overview LZU WCDMA W11 Air Interface LZU (optional) CPP Node Features and Functions LZU Duration and class size The duration of the course is 1 day and the maximum number of students is 8. Learning situation This course is based on theoretical and practical instructor-led lessons given in both classroom and in a technical environment using equipment and tools. 2010

17 Page 17 Time schedule The time required always depends on the knowledge of the attending participants and the hours stated below can be used as estimate. Day Topics in the course Estimated time 1 Introduction Module 1 WCDMA RAN Systems and Site Introduction Module 2 Customer Product Information and tool kits Module 3 Command Line Interface/Node Command Line Interface Module 4 Element Management Module 5 RBS 3308 Installation Module 6 RBS 3308 Maintenance hour 0.2 hour 0.5 hour 0.3 hour 2.5 hours 2.0 hours 2010

18 Page 18 WCDMA RAN W11 Field Maintenance Description LZU R1A This is a task-based course covering hardware fault localisation and hardware replacement for the RNC, RXI and RBS 3106/3206/3107 family. The participants will perform hardware fault localisation and replacement on RNC, RXI and RBS 3000 family, all on W11 level of sofware release, and be familiar with operation and maintenance tools used to manage CPP nodes such as Element Manager and COLI (COmmand line Interface). Learning objectives On completion of this course the participants will be able to: 1 Explain on overview level the WCDMA RAN Site Concept for RNC and RBS 1.1 Explain the basic WCDMA Radio Access Network. 1.2 Identify the Power and Battery Cabinets on Site. 1.3 Identify Distribution Frame, DF, for Transmission on Site. 1.4 Identify, locate and handle the connection Unit for External Alarms. 1.5 Identify and locate Remote Electrical Tilt (RET). 1.6 Identify the Antenna System Controller (ASC). 1.7 Identify the Dual Tower Mounted Antenna (TMA) Support. 2 Use the Customer Product Information (CPI) 2.1 Explain the CPI Library structure. 2.2 Find information in the Library with use of regular expression. 2.3 Find operational instructions (OPI) and maintain the node according to the OPI. 2.4 Find additional information on an alarm and solve the problem with the help of the CPI and Element Manager. 2.5 Know that different tool kits exists and how to order the tool kits. 3 Use NCLI (Node Command Line Interface) 3.1 Have a basic understanding of the functionality and technology used in COLI and NCLI. 3.2 Be able to connect to and use basic commands within COLI and NCLI. 3.3 Understand the basic concepts of the Managed Object Model. 4 Use the Element manager and understand the concepts behind Object Explorer 4.1 Download and start the Element Manager. 4.2 Access and use the different Views ; Containment, ATM, Equipment, IP, Licensing, Radio Network and the Software. 4.3 Find the alarm list and comment on the Alarms and Events on the Alarm and Event Log. 4.4 Access the property help feature from each window. 2010

19 Page Handling License Key Files, LKF. 5 Perform maintenance on the RNC 3810/ Detail the hardware in RNC 3810/ Perform corrective and preventive maintenance on RNC 3810/ Perform maintenance on the RXI 820/821 and 860/ Describe how the RXI is implemented in the WCDMA RAN 6.2 Detail the hardware in the RXI 820/821 and RXI 860/ List the interfaces connected into an RXI configuration. 6.4 Describe IMA, Inverse Multiplexing of ATM and the difference between channelized and non-channelized STM-1 ports. 6.5 Perform corrective and preventive maintenance on RXI 820 and RXI 860 series. 7 Perform maintenance and configuration tasks on the RBS 3106/3206 types 7.1 Trace the uplink and downlink traffic paths through the RBS 3106/3206 hardware. 7.2 Trace the control and supervision communication throughout the node and the antenna system of an RBS 3106/3206 site. 7.3 Power up/down the RBS 3106/3206 and connect up a thin client to the node. 7.4 Perform preventative maintenance on the RBS 3106/3206 nodes. 7.5 Find Faulty Hardware units and replace them. 7.6 Perform Configuration tasks on the RBS 3106/3206 types. 7.7 Perform configuration version backup and restore on RBS 3106/3206 types. 8 Perform maintenance and configuration tasks on the RBS Trace the uplink and downlink traffic paths through the RBS 3107 hardware. 8.2 Trace the control and supervision communication throughout the node and the antenna system of an RBS 3107 site. 8.3 Power up/down the RBS 3107 and connect up a thin client to the node. 8.4 Perform preventative maintenance on the RBS 3107 node. 8.5 Find Faulty Hardware units and replace them. 8.6 Perform Configuration tasks on the RBS 3107 type. 8.7 Perform configuration version backup and restore on RBS 3107 type. Target audience The target audience for this course is: Field Technicians. 2010

20 Page 20 Prerequisites Successful completion of the following courses: Ericsson WCDMA System Overview LZU OSS-RC Overview LZU WCDMA W11 Air Interface LZU (optional) CPP Node Features and Functions LZU Duration and class size The length of the course is 2 days and the maximum number of participants is 8. Learning situation This course is based on theoretical and practical instructor-led lessons given in both classroom and in a technical environment using equipment and tools. Time schedule The time required always depends on the knowledge of the attending participants and the hours stated below can be used as estimate. Day Topics in the course Estimated time 1 WCDMA RAN Site Concept for RNC and RBS Use the Customer Product Information (CPI) Use the Element Manager and Object Explorer of the RNC, RXI and RBS including practical exercises Use the NCLI tool of the RBS including practical exercises 2 Maintain the RNC 3810/3820 Maintain the RXI 820/821 & the RXI 860/861 Maintain the RBS types 3206 & 3106 Maintain the RBS hours 0.5 hour 2.5 hours 2.0 hours 1.0 hour 1.0 hour 3.0 hours 1.0 hour 2010

21 Page 21 WCDMA RAN W11 RBS 3018 Maintenance Description LZU R1A This course is a task-based course covering hardware fault localisation and hardware replacement for the RBS After attending this course, the participants will perform hardware fault localisation and replacement on the RBS This Course is based on W11 level of sofware release. After completion of this course, the participants will be familiar with operation and maintenance tools used to manage CPP nodes such as Element Manager and Node Command line Interface, NCLI. Learning objectives On completion of this course the participants will be able to: 1 Explain on overview level the WCDMA RAN Site Concept for RNC and RBS 1.1 Explain the basic WCDMA Radio Access Network 1.2 Identify the Power and Battery Cabinets on Site 1.3 Identify WCDMA Interface for Transmission on Site 1.4 Identify, locate and handle the connection Unit for External Alarms 1.5 Identify and locate Remote Electrical Tilt (RET) 1.6 Identify the Antenna System Controller (ASC) 2 Use the Customer Product Information (CPI) 2.1 Explain the CPI Library structure of the node 2.2 Find information in the Library with use of regular expression 2.3 Find operational instructions (OPI) and maintain the node according to the OPI 2.4 Find additional information on an alarm and solve the problem with the help of the CPI and Element Manager 3 Connect to a node using CLI and also using NCLI 3.1 Understand basic commands using CLI and using NCLI 3.2 Have a basic understanding of the functionality and technology used in CLI and NCLI 3.3 Understand the basic principles behind the Managed Object Model (MOM) 4 Use the Element Manager and understand the concepts behind Object Explorer 4.1 Download and start the Element Manager 4.2 Access and use the different Views ; Containment, ATM, Equipment, IP, Licensing, Radio Network and the Software 4.3 Find the alarm list and comment on the Alarms and Events on the Alarm and Event Log 4.4 Access the property help feature from each window 4.5 Create a Customized View (User Defined) in Element Manager 2010

22 Page 22 5 Maintain the RBS 3018 and the RRU/RRUS selected 5.1 Describe the hardware in the RBS 3018 types 5.2 Describe the hardware in the Radio Remote Unit, RRU 5.3 Describe the hardware in the Multi Standard Remote Radio Unit, RRUS 5.4 Perform corrective and preventive maintenance on the RBS 3018 Target audience The target audience for this course is: Field Technician Prerequisites Successful completion of the following courses: Ericsson WCDMA System Overview LZU OSS-RC Overview LZU WCDMA W11 Air Interface LZU (optional) CPP Node Features and Functions LZU Duration and class size The duration of the course is 1 day and the maximum number of students is 8. Learning situation This course is based on theoretical and practical instructor-led lessons given in both classroom and in a technical environment using equipment and tools. 2010

23 Page 23 Time schedule The time required always depends on the knowledge of the attending participants and the hours stated below can be used as estimate. Day Topics in the course Estimated time 1 WCDMA RAN Systems and Site Introduction Customer Product Information and tool kits Command Line Interface/Node Command Line Interface Element Management Maintaining the RBS 3018 theory and practical exercises 0.5 hour 0.5 hour 1.0 hour 1.0 hour 3.0 hours 2010

24 Page 24 WCDMA RAN W11 RBS 3x16 Maintenance Description LZU R1A This course is a task-based course covering hardware replacement and maintenance of the RBS 3x16 node types. After attending this course, the participants are expected to perform hardware fault localisation replacement and some configuration tasks on a RBS 3x16 type. This Course is based on W11 level of sofware release. At the completion of this course, the participants will be familiar with the features of the operation and maintenance tools used to manage CPP nodes such as Element Manager and NCLI (Node Command line Interface). Learning objectives On completion of this course the participants will be able to: 1 Explain on overview level the WCDMA RAN Site Concept for RNC and RBS 1.1 Explain the basic WCDMA Radio Access Network 1.2 Identify the Power and Battery Cabinets on Site 1.3 Identify WCDMA Interface for Transmission on Site 1.4 Identify, locate and handle the connection Unit for External Alarms 1.5 Identify and locate Remote Electrical Tilt (RET) 1.6 Identify the Antenna System Controller (ASC) 2 Use the Customer Product Information (CPI) 2.1 Explain the CPI Library structure of the node 2.2 Find information in the Library with use of regular expression 2.3 Find operational instructions (OPI) and maintain the node according to the OPI 2.4 Find additional information on an alarm and solve the problem with the help of the CPI and Element Manager 3 Connect to a node using CLI and also using NCLI 3.1 Understand basic commands using CLI and using NCLI 3.2 Have a basic understanding of the functionality and technology used in CLI and NCLI 3.3 Understand the basic principles behind the Managed Object Model (MOM) 4 Use the Element Manager and understand the concepts behind Object Explorer 4.1 Download and start the Element Manager 4.2 Access and use the different Views ; Containment, ATM, Equipment, IP, Licensing, Radio Network and the Software 4.3 Find the alarm list and comment on the Alarms and Events on the Alarm and Event Log 4.4 Access the property help feature from each window 4.5 Create a Customized View (User Defined) in Element Manager 2010

25 Page 25 5 Detail the hardware of both the RBS 3216 and 3116 nodes 5.1 Trace the uplink and downlink traffic paths through the RBS 3x16 hardware 5.2 Trace the control and supervision communication throughout the node and the antenna system of an RBS 3x16 site 5.3 Power up/down the RBS 3x16 and connect up a thin client to the node 5.4 Perform preventative maintenance on the RBS 3x16 nodes 5.5 Find Faulty Hardware units and replace them 5.6 Perform Configuration tasks on the RBS 3x16 types 5.7 Perform configuration version backup and restore on RBS 3x16 types Target audience The target audience for this course is: Field Technicians Prerequisites Successful completion of the following courses: Ericsson WCDMA System Overview LZU OSS-RC Overview LZU WCDMA W11 Air Interface LZU (optional) CPP Node Features and Functions LZU Duration and class size The length of the course is 1 day and the maximum number of participants is 8. Learning situation This course is based on theoretical and practical instructor-led lessons given in both classroom and in a technical environment using equipment and tools. 2010

26 Page 26 Time schedule The time required always depends on the knowledge of the attending participants and the hours stated below can be used as estimate. Day Topics in the course Estimated time 1 Class Introduction Module 1 WCDMA RAN Systems and Site Introduction Module 2 Customer Product Information and tool kits Module 3 Command Line Interface/Node Command Line Interface Module 4 Element Management Module 5 RBS 3x16 Maintenance 0.15 hour 0.5 hour 0.15 hour 1.0 hour 1.0 hour 3.0 hours 2010

27 Page 27 WCDMA RAN W11 RBS 3418/3518 and RRU Maintenance Description LZU R1A This course is a task-based course covering hardware fault localisation and hardware replacement for the RBS 3418/3518 RRU The participants will learn how to perform hardware fault localisation and replacement on the RBS 3418/3518 and RRU This course is based on W11 level of sofware release. At the completion of this course, the participants will be familiar with operation and maintenance tools used to manage CPP nodes such as Element Manager and NCLI (Node Command line Interface). Learning objectives On completion of this course the participants will be able to: 1 Explain on overview level the WCDMA RAN Site Concept for RNC and RBS 1.1 Explain the basic WCDMA Radio Access Network. 1.2 Identify the Power and Battery Cabinets on Site. 1.3 Identify WCDMA Interface for Transmission on Site. 1.4 Identify, locate and handle the connection Unit for External Alarms. 1.5 Identify and locate Remote Electrical Tilt (RET). 1.6 Identify the Antenna System Controller (ASC). 2 Use the Customer Product Information (CPI) 2.1 Explain the CPI Library structure of the node. 2.2 Find information in the Library with use of regular expression. 2.3 Find operational instructions (OPI) and maintain the node according to the OPI. 2.4 Find additional information on an alarm and solve the problem with the help of the CPI and Element Manager. 3 Connect to a node using CLI and also using NCLI. 3.1 Understand basic commands using CLI and using NCLI. 3.2 Have a basic understanding of the functionality and technology used in CLI and NCLI. 3.3 Understand the basic principles behind the Managed Object Model (MOM). 4 Use the Element Manager and understand the concepts behind Object Explorer 4.1 Download and start the Element Manager. 4.2 Access and use the different Views ; Containment, ATM, Equipment, IP, Licensing, Radio Network and the Software. 4.3 Find the alarm list and comment on the Alarms and Events on the Alarm and Event Log. 4.4 Access the property help feature from each window. 4.5 Create a Customized View (User Defined) in Element Manager. 5 Maintain the RBS 3418 and RBS 3518 and the RRU selected 2010

28 Page Describe the hardware in the RBS 3418 and RBS 3518 types. 5.2 Describe the hardware in the Radio Remote Unit RRU Describe the hardware RRUS, Multi Standard Remote Radio Unit. 5.4 Perform corrective and preventive maintenance on the RBS 3418, RBS 3518 and the RRU Target audience The target audience for this course is: Field Technician Prerequisites Successful completion of the following courses: Ericsson WCDMA System Overview LZU OSS-RC Overview LZU WCDMA W11 Air Interface LZU (optional) CPP Node Features and Functions LZU Duration and class size The duration of the course is 1 day and the maximum number of students is 8. Learning situation This course is based on theoretical and practical instructor-led lessons given in both classroom and in a technical environment using equipment and tools. Time schedule The time required always depends on the knowledge of the attending participants and the hours stated below can be used as estimate. Day Topics in the course Estimated time 1 WCDMA RAN Systems and Site Introduction Customer Product Information and tool kits Command Line Interface/Node Command Line Interface Element Management RBS 3418/3518 and RRU theory and practical exercises 1.0 hour 0.5 hour 1.0 hour 1.0 hour 2.5 hours 2010

29 Page 29 WCDMA RAN W11 Access Transport Network Design Description LZU R1A How can the WCDMA Access Network be dimensioned when very different types of services must be accommodated? With the introduction of High Speed Downlink Packet Access (HSDPA), Enhanced Uplink (EUL) and Multimedia Broadcast Multicast Service (MBMS) how can these demands be balanced with those of Circuit Switched and Release 99 (R99) Packet Services? How is link dimensioning performed using ATM and/or IP? What Node transmission capacity is required to meet the Network traffic demands? With the help of the WCDMA RAN W11A Access Network Design course the attendees will learn how Access Network design tasks are performed according to the latest Ericsson W11A guidelines. This new competence will be tested on sample dimensioning exercises using a PC, that cover R99, HSDPA, EUL and MBMS using ATM and IP. With the guidance of the instructor the mysteries of Access Transport Network design will be uncovered reducing wasted time back at work. Learning objectives On completion of this course the participants will be able to: 1 Describe the nodes and interfaces that make up the WCDMA Radio Access Network (RAN). 1.1 Define the Transport Network design process. 1.2 Describe the type of traffic carried by the WCDMA RAN interfaces. 2 Explain the Radio Access Bearer (RAB) concept 2.1 Explain the difference between conversational, streaming, interactive and background traffic classes. 2.2 List the RABs supported by the Ericsson W11A WCDMA RAN. 2.3 Convert Circuit Switched (CS) traffic requirements from BHCA/MHT to me. 2.4 Convert R99 Packet Switched (PS) traffic requirements from kbps to kbyte/h. 2.5 Convert High Speed Packet Switched (HSxPA) traffic requirements from GByte/month to kbyte/bh. 2.6 Calculate the Average Subscriber Traffic Profile for a given traffic requirement and subscriber numbers. 2010

30 Page 30 3 Explain the ATM Functionality of the W11A RAN Transport Network. 3.1 Explain the difference between Plesiochronous Digital Hierarchy (PDH) and Synchronous Digital Hierarchy (SDH). 3.2 Explain the basic ATM Cell structure and the ATM Service Categories used in the WCDMA RAN. 3.3 Explain the operation of ATM Adaptation Layer 2 (AAL2) and how its Call Admission Control (CAC) handles class A, B, C and D traffic. 3.4 Explain basic ATM topologies used in the W11A WCDMA RAN. 3.5 List the ETBs that support ATM in the WCDMA RAN. 4 Perform ATM Transport Network dimensioning. 4.1 Explain how strict QoS dimensioned is performed using the Kaufman-Roberts (K-R) principle. 4.2 Explain how Best Effort (BE) dimensioning is performed using the Elastic dimensioning principle. 4.3 Explain how HSDPA, EUL and MBMS are dimensioned. 4.4 Perform ATM link dimensioning. 5 Explain the IP Functionality of the W11A RAN Transport Network. 5.1 Explain how IP and Ethernet fit into the protocol layers in the WCDMA RAN. 5.2 Explain the basic structure of an IP Packet and Ethernet frame. 5.3 Explain how Quality of Service (QoS) is achieved using IP and Ethernet. 5.4 Explain some of the basic IP topologies used in the W11A WCDMA RAN. 5.5 Explain what the Iub Dual Stack feature means and how it is implemented in WCDMA RAN. 5.6 List the ETBs that support IP/Ethernet in the WCDMA RAN. 6 Perform IP link dimensioning for networks supporting only one priority queue. 6.1 Explain how the peak cell throughput is calculated based on the RBS configuration. 6.2 Explain how Over Dimensioning (OD) is used to calculate the NBAP and O&M capacity requirements. 6.3 Perform link dimensioning when only one priority queue is supported by the IP/Ethernet link. 7 Perform IP link dimensioning for networks supporting more than one priority queue. 7.1 Explain the differences between Best Effort (BE) and strict Quality of Service (QoS) traffic requirements. 7.2 Explain the Elastic Dimensioning principal used to calculate the capacity requirement of BE traffic. 7.3 Explain how the Kaufman-Roberts (K-R) principle is used to calculate the capacity requirement of strict QoS traffic. 7.4 Explain the Joint Elastic Dimensioning principal used to calculate the combined capacity requirement of BE and strict QoS traffic sharing the same IP/Ethernet link. 7.5 Perform link dimensioning when more than one priority queue is supported by the IP/Ethernet link. 2010

31 Page 31 8 Explain the various cases for using ATM and/or IP in the WCDMA RAN. 8.1 Explain how Synchronization is performed in the W11A WCDMA RAN for ATM and IP Networks. 8.2 Explain the operation of the optional feature Unified ATM/IP Admission Control for Iub. 8.3 Explain the Soft congestion based on Iub algorithm and associated parameters. 8.4 Explain how the Iub flow control mechanisms operate for R99 DCH, HSDPA and EUL traffic. 9 Perform WCDMA RAN Node dimensioning for ATM and IP Transport Networks. 9.1 Explain the RBS 3000 and 6000 transmission capabilities and configurations. 9.2 Explain the RXI transmission capabilities and configurations. 9.3 Explain the RNC 3810 and 3820 transmission capabilities and configurations. 9.4 Dimension the WCDMA Access Transport nodes (RBS, RXI and RNC). Target audience The target audience for this course is: Service Planning Engineer, Service Design Engineer, Network Design Engineer This audience is responsible for the dimensioning and design of the Access Transport Network. Prerequisites Successful completion of the following flow: WCDMA Network Fundamentals, Blended Training FAB The participants should be familiar with the Ericsson WCDMA RAN and have an interest in Transport Network dimensioning. Background knowledge of ATM and/or IP is an advantage. Duration and class size The length of the course is 4 days and the maximum number of participants is 16. Learning situation This course is based on theoretical instructor-led lessons with practical exercises using a PC running Excel. 2010

32 Page 32 Time schedule The time required always depends on the knowledge of the attending participants and the hours stated below can be used as estimate. Day Topics in the course Estimated time 1 Introduction 3G Services and Traffic ATM Transport Network Functionality 2 hours 2 hours 2 hours 2 ATM Link Dimensioning (including exercises) 6 hours 3 IP Transport Network Functionality IP Link Dimensioning for 1 Priority Queue (including exercise) IP Link Dimensioning for more than 1 Priority Queue (including exercise) 4 ATM and IP in the WCDMA RAN WCDMA RAN Node Dimensioning (including exercises) 2 hours 3 hours 2 hours 4 hours 2010

33 Page 33 WCDMA RAN W11 Design Description LZU R1A How can a Radio Access Network (RAN) be dimensioned when coverage and capacity have such a strong impact in WCDMA? How should High Speed Uplink and Downlink Packet access (HSDPA/HSUPA) be dimensioned? Given the range of Radio Access Bearers (RABs) available in the Ericsson W11 RAN, what is the best way to dimension them? What is the best way to design neighboring cell lists for inter-frequency and intra-frequency handover? What is second carrier deployment strategy? How to handle smart-phone blooming issue in Radio Network? With the help of the WCDMA Radio Network Design course the attendees will learn how Radio Network design tasks are performed according to the latest Ericsson guidelines. This new competence will be tested on PC based exercises using the Ericsson Radio Network Proposal Tool that cover R99 and HSPA dimensioning. The principles of multi carrier dimensioning are also described in detail as are the principles of neighboring cell list design, UTRAN Registration Area design, channel element dimensioning and scrambling code design. Besides, RBS and transmitter interference issues are also explained in details. Learning objectives On completion of this course the participants will be able to: 1 Explain the various WCDMA cell planning steps 1.1 Explain the various WCMDA Radio Network Design stages and the tools involved 1.2 Explain Ericsson s Radio Network Proposal Tool RNPT for use by Ericsson staff 1.3 Explain how OSS-RC fits into the Radio Network Design Process 1.4 Describe briefly the function of TEMS CellPlanner and TEMS Investigation 2 Explain what is meant by traffic requirements 2.1 Explain the difference between conversational, streaming, interactive and background traffic classes 2.2 List the RABs supported by the Ericsson W11 WCDMA RAN 2.3 Convert Circuit Switched (CS) traffic requirements from BHCH/MHT to me 2.4 Convert R99 Packet Switched (PS) traffic requirements from kbps to kbyte/h 2.5 Convert High Speed Packet Switched (HSxPA) traffic requirements from GByte/month to kbyte/bh. Show the typical numbers of HSPA users that can be supported in a cell 2.6 Calculate the Average Subscriber Traffic Profile for a given traffic requirement and subscriber numbers 2010

34 Page 34 3 Calculate uplink and downlink M pole values for a cell and estimate the load 3.1 Explain the 3GPP channel models used for Radio Network Design 3.2 Use the Ericsson formulae to calculate the uplink and downlink M pole values for cells serving these channel models 3.3 Explain how single (ErlangB) and multi-service (K-R) blocking probabilities are calculated 3.4 Calculate the load on a cell serving a given number of CS and PS users 4 Perform link budget calculations 4.1 Explain link budget margins, losses and gains 4.2 Perform uplink and downlink link budget calculations 5 Perform Radio Network Dimensioning for R99 services 5.1 Use the Ericsson RNPT to perform R99 dimensioning tasks 6 Dimension High Speed Packet Access (HSPA) 6.1 List the HSDPA and EUL Common Resources 6.2 List the HSDPA and EUL Channel Structure 6.3 List the HSDPA and EUL terminal categories 6.4 Explain HSPA dimensioning methodology 6.5 Explain HSPA channels power calculation 6.6 Use the Ericsson RNPT to perform HSPA dimensioning tasks 7 Explain the WCDMA RAN deployment aspects 7.1 Explain the Ericsson Common Channel planning process 7.2 Explain the dimensioning of Downlink Code 7.3 Explain the Ericsson second carrier deployment Strategy 7.4 Explain the use of hierarchical cell structures 7.5 Explain the use of service offsets in the WCDMA RAN 7.6 Describe neighbor cell list planning for intra-frequency, inter-frequency and IRAThandover 7.7 Describe UTRAN Registration Area planning 7.8 Explain RAN Power Save 8 List the RBSs in Ericsson s RBS 3000 and RBS 6000 Family 8.1 Explain RBS 3000 and RBS 6000 variants 8.2 Explain the use of the Antenna System Controller (ASC) 8.3 Explain the Ericsson Channel Element dimensioning principle 8.4 Perform simple Channel Element dimensioning calculations 8.5 Explain the various antenna down tilt methods 8.6 List some antennas offered by Ericsson 9 Explain on overview level the transmitter interference characteristics 9.1 Explain Adjacent Channel Leakage Ratio (ACLR) and spurious emissions 9.2 Describe the receiver interference characteristics 9.3 Explain Adjacent Channel Selectivity (ACS) and receiver blocking 9.4 Explain Adjacent Channel Interference Ratio (ACIR) 9.5 Explain the co-existence problems that can appear, in particular for WCDMA and GSM as well as WCDMA and LTE 2010

35 Page 35 Target audience The target audience for this course is: Service Design Engineer and Network Design Engineer. This audience is responsible for the dimensioning and design of the Radio Access Network. Prerequisites The Successful completion of the following courses: WCDMA W11 Air Interface LZU WCDMA RAN W11 Protocols and Procedures LZU Duration and class size The length of the course is 4 days and the maximum number of participants is 16. Learning situation This course is based on theoretical and practical instructor-led lessons given in both classroom and in a technical environment using tools, which are accessed remotely. Time schedule The time required always depends on the knowledge of the attending participants and the hours stated below can be used as estimate. Day Topics in the course Estimated time 1 Introduction to Radio Network Design WCDMA services and Traffic WCDMA Capacity 2 WCDMA Coverage R99 Dimensioning Case 3 WCDMA HSPA Dimensioning WCDMA Network Deployment (To be continue) 4 WCDMA Network Deployment (Continue) WCDMA Hardware WCDMA Interference Issues 1.5 hours 1.5 hours 3.0 hours 3.0 hours 3.0 hours 4.0 hours 2.0 hours 2.0 hours 2.0 hours 2.0 hours 2010

36 Page 36 WCDMA RAN W11 IP Transport Network Design Description LZU R1A How does the Ericsson Transport Network use IP to carry user and control plane traffic? How are the various transport bearer Quality of Services (QoS) achieved using IP and Ethernet? How is link dimensioning performed when IP and Ethernet is used as an alternative to ATM and leased line? With the help of the WCDMA RAN W11 IP Transport Network Design course the attendees will learn how link dimensioning is performed when IP/Ethernet supporting one and more than one priority queue is used. This course is aimed at Network and Service Design Engineers with experience in ATM Transport Network Design who need to know how IP link dimensioning is performed. With the guidance of the instructor the mysteries of IP Transport Network design and dimensioning will be uncovered reducing wasted time back at work. Learning objectives On completion of this course the participants will be able to: 1 Explain the IP Functionality of the W11A RAN Transport Network. 1.1 Explain how IP and Ethernet fit into the protocol layers in the WCDMA RAN. 1.2 Explain the basic structure of an IP Packet and Ethernet frame. 1.3 Explain how Quality of Service (QoS) is achieved using IP and Ethernet. 1.4 Explain the operation of the optional feature Unified ATM/IP Admission Control for Iub. 1.5 Explain the Soft congestion based on Iub algorithm and associated parameters. 1.6 Explain some of the basic IP topologies used in the W11A WCDMA RAN. 1.7 List the ETBs that support IP/Ethernet in the WCDMA RAN. 2 Perform IP link dimensioning for networks supporting only one priority queue. 2.1 Explain how the peak cell throughput is calculated based on the RBS configuration. 2.2 Explain how Over Dimensioning (OD) is used to calculate the NBAP and O&M capacity requirements. 2.3 Perform link dimensioning when only one priority queue is supported by the IP/Ethernet link. 2010

37 Page 37 3 Perform IP link dimensioning for networks supporting more than one priority queue. 3.1 Explain the differences between Best Effort (BE) and strict Quality of Service (QoS) traffic requirements. 3.2 Explain the Elastic Dimensioning principle used to calculate the capacity requirement of BE traffic. 3.3 Explain how the Kaufman-Roberts (K-R) principle is used to calculate the capacity requirement of strict QoS traffic. 3.4 Explain the Joint Elastic Dimensioning principle used to calculate the combined capacity requirement of BE and strict QoS traffic sharing the same IP/Ethernet link. 3.5 Perform link dimensioning when more than one priority queue is supported by the IP/Ethernet link. Target audience The target audience for this course is: Service Planning Engineer, Service Design Engineers, Network Design Engineer This audience is responsible for the dimensioning and design of the Access Transport Network, and has an understanding of ATM link dimensioning but need to understand how this is performed in IP/Ethernet networks. Prerequisites The participants should be familiar with ATM Transport Network dimensioning and ideally should have attended WCDMA RAN W11 Transport Network System Techniques. Duration and class size The length of the course is 1 day and the maximum number of participants is 16. Learning situation This course is based on theoretical instructor-led lessons with practical exercises using a PC running Excel. 2010

38 Page 38 Time schedule The time required always depends on the knowledge of the attending participants and the hours stated below can be used as estimate. Day Topics in the course Estimated time 1 IP Transport Network Functionality IP Link Dimensioning for 1 Priority Queue IP Link Dimensioning for more than 1 Priority Queue 2 hours 3 hours 2010

39 Page 39 WCDMA RAN W11, Delta Description LZU R1A How has the Ericsson WCDMA RAN been improved with the W11 releases? What new services and features have been introduced and what are the enhancements to the existing features? What new counters have been introduced to support these new features and how have the existing counters been modified? What are the new Radio Access Bearers (RABs) supported by the W11 RAN? With the help of the WCDMA RAN W11 Delta course the attendees will learn how the Ericsson WCDMA RAN has evolved up to W11. With the guidance of the instructor participants will become familiar all aspects of the W11 Radio functionality, HSPA and Transport functionality. Learning objectives On completion of this course the participants will be able to: 1 Introduction on WCDMA RAN W11 Delta features. 1.1 Briefly explain the WCDMA RAN history. 1.2 List the new and enhanced features in W Summarize the Features Impact, both basic and license features. 1.4 Describe the System Improvements in W11 Release 1.5 List the New Services and Radio Access Bearers W11. 2 Explain the new and enhanced radio functionalities available in the W Explain the new radio network functionalities and enhanced RAN management in the W11 RAN. 2.2 Describe how CS Voice Fallback from LTE. 2.3 Explain RNC RRC Load control. 2.4 Explain RAN Power Save 3 Explain how HSPA services have been enhanced in W Explain the new and enhanced HSPA features. 3.2 Explain EUL Cell Edge Coverage. 3.3 Describe the enhancement on Pre-coder for power balancing. 4 Explain the new and enhanced transport network functionalities available in W Explain the new and enhanced transport network functionalities in the W11 RAN. 4.2 Explain transport redundancy. 4.3 Describe RANAP overload control. 2010

40 Page 40 Target audience The target audience for this course is: Service Planning Engineers, Service Design Engineers, Network Design Engineers, System Technicians, Service Technicians, System Engineers, Service Engineers and Field Technicians. Prerequisites The participants should be familiar with the operation of both Ericsson WCDMA Radio and Transport Networks. They should also have an understanding of the W10 HSPA, transport and radio functionality from the following courses or other sources: - WCDMA RAN W10 Air Interface LZU R2A - WCDMA RAN W10 Functionality LZU R2A - WCDMA RAN W10 HSPA System Techniques LZU R2A Duration and class size The length of the course is 1 day and the maximum number of participants is 16. Learning situation The course is based on theoretical instructor-led lessons given in a classroom environment. Time schedule Time schedule The time required always depends on the knowledge of the attending participants and the hours stated below can be used as estimate. Day Topics in the course Estimated time 1 W11 Introduction W11 RAN Functionality W11 HSPA W11 Transport Network Functionality 2.5 hour 1.5 hours 2010

41 Page 41 Ericsson WCDMA W11 HSPA System Techniques LZU R1A Description Have you ever wondered about Ericsson's High Speed Packet Access (HSPA) techniques or the modulation methods such as 16QAM and 64QAM, channel structure and functionality of HSDPA and EUL? Well, wonder no more; this course demystifies Ericssons HSPA solution for WCDMA network. Learning objectives On completion of this course the participants will be able to: 1 Explain the main principle of HSPA 1.1 Explain the background and history of HSPA 1.2 Describe Short 2 ms TTI for HSDPA 1.3 Explain Shared Channel Transmission 1.4 Explain Fast Channel-dependent Scheduling for HSDPA 1.5 Explain Fast Hybrid ARQ with Soft Combining 1.6 Explain HSDPA Fast Link Adoption 1.7 Explain HSDPA Higher Order Modulation from QPSK to16/64 QAM 1.8 Describe HSDPA Dynamic Power allocation 1.9 Explain 2X2 MIMO 1.10 Explain Multi Carrier 1.11 Pre-coder for power balancing 1.12 List the UE capabilities for HSDPA 1.13 Detail the WCDMA transmitter and bitrates for HSDPA 1.14 Describe the basic principles for EUL in Ericsson P Explain and compare the basic principles of EUL and HSDPA 1.16 List the EUL protocols 1.17 Explain the EUL transmitter architecture and bitrates 1.18 List the EUL UE categories 2 List and describe the HSPA transport channels & physical channels 2.1 List the New Transport Channels & Physical Channels for HSDPA 2.2 Explain the new Transport Channels & Physical Channels for HSDPA 2.3 Explain the function of HS-DSCH - High-Speed Downlink Shared Channel 2.4 Explain the function of HS-PDSCH, High Speed - Physical Downlink Shared Channel 2.5 Explain the function of HS-SCCH, High Speed - Shared Control Channel 2.6 Explain the function of HS-DPCCH, High Speed Dedicated Physical Control Main 2.7 Explain the function of A-DCH, Associated Dedicated Channel 2.8 Explain the function of F-DPCH, Fractional Dedicated Physical Channel 2.9 Enhanced downlink reception, CPC 2.10 Detail the EUL Physical and transport Channel Structure 2.11 Explain the EUL Hybrid ARQ 2.12 Explain the use of EUL soft combining 2010

42 Page Explain EUL multiple HARQ processes 2.14 Explain EUL redundancy versions 2.15 Enhanced uplink transmission, CPC 2.16 Explain the essence of Power Control for EUL 2.17 Describe the near far problem and non-orthogonally 2.18 Detail the EUL modified outer loop 2.19 Explain the Beta factors 2.20 Explain CPM on HSPA 3 Explain Protocol architecture details (MAC-hs, MAC-ehs, MAC-es, MAC-e, HS- DSCH FP and E-DCH FP) 3.1 Detail the data flow when HS-DSCH is employed 3.2 Explain in detail the MAC-hs PDU 3.3 Explain the Transport Block Sizes for HS-DSCH 3.4 Explain Transport Format selection 3.5 Explain Transport Format indication 3.6 List the MAC-hs function at network - and at UE side 3.7 Describe the HSDPA Flow Control 3.8 Describe the L1/L2 protocols and functions of EUL 3.9 Explain what does Enhanced L2 functionality include 3.10 Detail the EUL uplink data flow 3.11 Explain the use of Transport Formats 3.12 Describe the EUL Flow Control 4 Explain capacity management for HSPA 4.1 Explain in detail the Code Control for HSDPA 4.2 Detail power measurements for HSDPA 4.3 Explain the Allocation and Retention Priority (ARP) 4.4 Explain Admission and Congestion Control for HSDPA 4.5 Explain Load Sharing for HSDPA 4.6 Describe the basics of EUL capacity management 4.7 Describe admission control 4.8 List the dedicated monitored resources 4.9 Describe the EUL congestion control 5 Understand the scheduler for HSDPA and EUL 5.1 Explain the use of QoS and Scheduling Priority Indicator (SPI) 5.2 Explain the resource sharing in HSDPA 5.3 Explain the different scheduling algorithms and priority factors 5.4 Explain HSDPA minimum bit rate scheduling 5.5 Explain the EUL scheduling basics 5.6 List the EUL shared resources 5.7 Describe the control signaling for EUL scheduler 5.8 Compare EUL scheduled and serving grants 5.9 Explain the EUL scheduling request 5.10 EUL Single HARQ process scheduling 5.11 Explain relative grant 5.12 EUL Scheduler enhancements 2010

43 Page 43 6 Explain Mobility Management for HSPA 6.1 Detail the Measurement Handling for HSDPA 6.2 Explain the HS-DSCH Cell selection 6.3 Explain A-DCH Soft and Softer Handover for HSDPA 6.4 Explain Serving Hs-DSCH Cell Change 6.5 Explain coverage triggered downswitch to DCH 6.6 Explain HS-DSCH Cell Selection (throughput-triggered upswitch and downswitch) 6.7 Explain HS-DSCH Radio Connection Supervision 6.8 Explain the EUL mobility 6.9 Describe the EUL serving cell concept 6.10 Describe E-DCH cell selection and cell change 6.11 Describe EUL soft and softer handover 6.12 Describe when leaving EUL coverage 6.13 Explain IF/IRAT mobility for HSPA Target audience The target audience for this course is: Service Design Engineers, Network Design Engineers, System Engineers, and Service Engineers. Prerequisites Successful completion of the following courses: WCDMA W11 Air Interface LZU WCDMA RAN W11 Protocols and Procedures LZU WCDMA RAN W11 Functionality LZU Duration and class size The length of the course is 4 days and the maximum number of participants is 16. Learning situation This course is based on theoretical instructor-led lessons given in a classroom environment. 2010

44 Page 44 Time schedule The time required always depends on the knowledge of the attending participants and the hours stated below can be used as estimate. Day Topics in the course Estimated time 1 Basic Principles of HSPA Transport Channels & Physical Channels for HSPA 2 Transport Channels & Physical Channels for HSPA, continued Protocol Architecture Details 3 Capacity Management Schedulers 4 Schedulers, continued Mobility 4 hours 2 hours 2 hours 4 hours 4 hours 2 hours 5 hours 2010

45 Page 45 WCDMA W11 Air Interface Description LZU R1A This course will bring the Wideband Code Division Multiple Access (WCDMA) air interface down to earth. We will compare WCDMA with GSM and CDMA technologies, and explain Power Control, RAKE receiver and handovers (including soft, softer, and inter-frequency handovers). We will also provide in-depth descriptions and explanations of the logical, transport and physical channel models of WCDMA and synchronization and random access. Learning objectives On completion of this course the participants will be able to: 1 Describe the fundamental principles of cellular WCDMA technology 1.1 Describe and compare TDMA and WCDMA multiple access methods. 1.2 Explain on an overview level, the WCDMA transmitter architecture. 1.3 Describe the data protection coding methods: CRC Coding, FEC Coding, Viterbi decoding, block interleaving, turbo codes. 1.4 Explain the use of channelization and scrambling codes. 1.5 Describe the modulation and filtering in a WCDMA system. 2 Describe the WCDMA power control, RAKE receiver and handover 2.1 Recognize the concepts of multipath reflections, fading, and turn-the-corner effects. 2.2 Explain the function of the WCDMA RAKE receiver. 2.3 Explain the necessity for open loop, inner loop and outer loop power control. 2.4 Describe the different handover scenarios: Soft- and softer handover, Inter-frequency handover and Inter-Radio Access Technology handover. 2.5 Explain cell reuse and code planning. 2.6 Underline the issues concerning WCDMA cell planning. 2.7 Discuss WCDMA cell capacity considerations. 3 Explain in detail the WCDMA channel structure 3.1 Detail the 3GPP Standardization Committee and specification structure. 3.2 Describe the concepts of logical, transport, and physical channels. 3.3 Explain details of the WCDMA physical layer. 3.4 List different aspects of the WCDMA downlink. 3.5 List the different aspects of the WCDMA uplink. 3.6 Explain the concept of MIMO. 3.7 Explain the concept of Multi Carrier. 3.8 Explain the concept of SRB on HSDPA and F-DPCH. 2010

46 Page 46 4 Explain timing, synchronization and random access in WCDMA 4.1 Explain base station downlink timing. 4.2 Describe the synchronization procedure. 4.3 Explain the random access procedure. 4.4 Describe the establishment of dedicated channels. 4.5 Explain soft handover timing. Target audience The target audience for this course is: Network Design Engineer and Service Design Engineer. Prerequisites The participants should be familiar with WCDMA Radio Technology or successful completion of the following courses: Ericsson WCDMA System Overview LZU OSS-RC Overview LZU Duration and class size The length of the course is 3 days and the maximum number of participants is 16. Learning situation This course is based on theoretical instructor-led lessons and theoretical exercises given in a classroom environment. Time schedule The time required always depends on the knowledge of the attending participants and the hours stated below can be used as estimate. Day Topics in the course Estimated time 1 WCDMA Wireless Technology 6 hours 2 WCDMA Power Control, Rake Receiver and Handover WCDMA Physical Layer 3 WCDMA Physical Layer cont. WCDMA Synchronization and Random Access 3 hours 3 hours 3 hours 3 hours 2010

47 Page 47 WCDMA RAN W11 Functionality Description LZU R1A Do you want to have full and detailed understanding of WCDMA RAN features and functionalities? If so, the WCDMA RAN W11 Functionality course is designed and developed to give you just that. This course describes the Idle Mode Behavior, how Radio Connection Supervision is carried out, Power Control settings, calculations and functions. The Capacity Management functions and Mobility (Handover & Load Sharing) as well as Channel Switching algorithms will definitely boost your competence and understanding of the WCDMA RAN. Learning objectives On completion of this course the participants will be able to: 1 Explain the logical architecture of WCDMA RAN and introduce Radio Functionality 1.1 Detail the logical architecture of the Ericsson WCDMA RAN 1.2 Detail the Radio Functionality supported in the WCDMA RAN 2 Describe the purpose and function of Idle Mode and Common Channel Behavior 2.1 Explain PLMN and Cell selection and reselection 2.2 Explain registration updating procedures 2.3 Explain paging procedures 2.4 Describe the organization of system information 2.5 Explain the Cell Broadcast Service 2.6 Explain the LTE Cell Reselection 3 Explain the purpose and function of Radio Connection Supervision 3.1 Explain how the radio connection supervision is carried out when the UE is using a common channel 3.2 Explain how in-synch and out-of-synch is determined by the radio link set supervision algorithm in the RBS when the UE is using a dedicated channel 3.3 Explain how the RNC supervises radio links (sets) when the UE is using a dedicated channel 4 Describe the purpose and use of the function Power Control 4.1 Explain why inner, outer, and open loop power control is needed 4.2 Configure the power of common control channels 4.3 Explain uplink and downlink open loop power control 4.4 Explain the operation of inner loop power control in normal and compressed mode 4.5 Explain the operation of outer loop power control 4.6 Explain the function of RAN Power Save feature 2010

48 Page 48 5 Describe the purpose and function of the Capacity Management 5.1 Describe the interaction between the dedicated monitors and the different algorithms 5.2 Explain the Dedicated Resources 5.3 Explain Admission Control 5.4 Explain Congestion Control 6 Explain the purpose and function of Handover and Load sharing 6.1 Distinguish between soft, softer and hard handover 6.2 Explain why soft handover is necessary in a WCDMA system 6.3 Explain Inter-Frequency handover, Inter-RAT handover and Inter-RAT Cell Change 6.4 Detail the handover events trigger 6.5 Describe the purpose of the handover evaluation algorithm 6.6 Explain Core Network Hard Handover and Service Based Handover 6.7 Explain Generic Access Network mobility 6.8 List and detail different types of Load Sharing 6.9 Explain Direct Retry to GSM and Load Based Handover to GSM 6.10 Explain Inter-Frequency Load Sharing, Non-HSPA Inter-Frequency Load Sharing and Load Based Inter-Frequency handover 7 Explain the purpose and function of Channel Switching, RAB and Connection Handling 7.1 List the different types of Radio Access Bearers 7.2 Explain connection handling 7.3 Describe UE states supported in the Channel Switching 7.4 Describe Single-RAB state transition 7.5 Describe Multi-RAB state transitions 7.6 Explain Speech 12.2 kbps and HSPA PS interactive RAB Combination 7.7 Explain Speech 12.2 kbps and multiple HSPA PS interactive RAB Combination 7.8 Explain Channel Switching Evaluation algorithms Target audience The target audience for this course is: Service Planning Engineers, Service Design Engineers, Network Design Engineers, Network Deployment Engineers, Service Deployment Engineers and System Engineers. Prerequisites Successful completion of the following courses: WCDMA W11 Air Interface LZU WCDMA RAN W11 Protocols and Procedures LZU Duration and class size The course is 3 days and the maximum number of participants is 16. Learning situation This course is based on theoretical instructor-led lessons and theoretical exercises given in a classroom environment. 2010

49 Page 49 Time schedule The time required always depends on the knowledge of the attending participants and the hours stated below can be used as estimate. Day Topics in the course Estimated time 1 Introduction of Radio Network Architecture and Functionalities Idle Mode and Common Channel Behavior Radio Connection Supervision 2 Power Control Capacity Management 3 Handover Channel Switching 2.0 hours 3.0 hours 1.0 hour 3.0 hours 3.0 hours 4.0 hours 2.0 hours 2010

50 Page 50 WCDMA RAN W11 Protocols and Procedures Description LZU R1A This course covers the WCDMA RAN protocols and procedures. It gives an in-depth understanding of the WCDMA Systems radio access architecture and signaling, as well as the WCDMA Systems Bearer Service, End-to-End service and Radio Bearer Service. It covers the WCDMA radio access interfaces, such as Uu, Iub, Iur and Iu. Also this course covers the protocols used over these interfaces: RRC, BMC, RLC, MAC and the physical layer for the Uu interface, NBAP for the Iub interface, RNSAP for the Iur interface, RANAP and SABP for the Iu interface. It also describes the transport technology used in the Iu and the Iub interfaces, ATM vs IP. The purpose of the course is to enable the student to understand complete traffic cases for circuit switched and packet switched traffic with all signaling included. Practical protocol analysis using TEMS Investigation is also included. Learning objectives On completion of this course the participants will be able to: 1 Explain the WCDMA Radio Access Network architecture 1.1 State the main functions of the network elements. 1.2 List the Interfaces. 2 Explain the main functions of the protocols involved in WCDMA RAN 2.1 Explain how signaling takes place between the UE and the Core Network. 2.2 State the main functions of Radio Resource Control (RRC), Radio Link Control (RLC), Medium Access Control (MAC), the physical layer and their relations. 2.3 Explain the interaction of the WCDMA protocols and the mapping of logical, transport and physical channels. 2.4 Explain the general protocol model for the Iub, the Iur and the Iu interface. 3 Explain the UMTS Quality of Service 3.1 Explain the concept of Quality of Service and how it is related to different traffic classes. 3.2 Explain the purpose of UMTS Bearer Services and Radio Access Bearers (RABs). 3.3 List the different attributes of the RABs and explain how they are used. 3.4 List supported RABs. 4 Explain the RCC Protocol 4.1 Explain the interaction between RRC and the lower layers in the control plane. 4.2 Explain the RRC layer structure. 4.3 Explain the RRC Service States and the difference between connected and idle mode. 4.4 Explain the functions and services of RRC. 4.5 Explain the RRC procedures. 5 Explain the RLC and MAC protocol 2010

51 Page Explain the RLC functions. 5.2 List the different modes of RLC (transparent, unacknowledged and acknowledged mode) and explain the structure of the PDU involved in these cases. 5.3 Explain the MAC functions. 5.4 Explain the MAC architecture, its entities and their usage for the mapping of transport channels. 5.5 List the contents of the MAC Packet Data Unit (PDU). 5.6 Explain the Transport Format selection and the relation between Combinations (TFC) and Sets (TFCS). 5.7 Explain Channel Type Switching. 5.8 Explain the structure and mapping of physical channels. 6 Explain the Cell Broadcast service - BMC and SABP Protocols 6.1 Explain the Cell Broadcast Service. 6.2 Explain the SABP Functions. 6.3 Explain the BMC Functions 7 Explain the Iub Interface and the NBAP Protocol 7.1 Explain the Iub interface and the Radio Network Layer protocols: the Node B Application Part (NBAP) signaling protocol in the control plane and the user plane protocols for common transport channel (CCH) data streams and dedicated transport channel (DCH) data streams. 7.2 Explain the main functions and procedures of NBAP signaling protocol. 7.3 Explain the main functions and procedures of the user plane protocols for CCH and DCH data streams (Frame Protocols). 7.4 Explain two Iub Transport Network solutions: Iub over ATM vs Iub over IP. 8 Explain the Iur Interface and the RNSAP Protocol 8.1 Explain the Iur interface and the Radio Network Subsystems Application Part (RNSAP) protocol structure. 8.2 Explain the main functions and procedures of RNSAP 8.3 Explain two Iur Transport Network solutions: Iur over ATM vs Iur over IP. 9 Explain the Iu Interface and the RANAP Protocol 9.1 Explain the Iu interface and the Radio Access Network Application Part (RANAP) protocol structure. 9.2 Explain the main functions and procedures of RANAP. 9.3 Explain two Iu Transport Network solutions: Iu over ATM vs Iu over IP. 10 Explain IRAT Mobility 10.1 Explain IRAT mobility between WCDMA and GSM/GPRS networks 10.2 Explain GAN mobility 10.3 Explain mobility between WCDMA and LTE 2010

52 Page 52 Target audience The target audience for this course is: Service Design Engineer Network Design Engineer Prerequisites Successful completion of the following flow and course: Ericsson WCDMA System Overview LZU WCDMA W11 Air Interface LZU Duration and class size The length of this course is 4 days and the maximum number of participants is 16. Learning situation This course is based on theoretical instructor-led lessons and theoretical exercises given in a classroom environment. Practical exerises are also included. Time schedule The time required always depends on the knowledge of the attending participants and the hours stated below can be used as estimate. Day Topics in the course Estimated time 1 WCDMA Introduction Overview of protocols in WCDMA RAN UMTS Quality of Service 2 RRC Protocol Practical TEMS exercise 3 RLC and MAC Protocols. BMC and SABP Protocols 4 Iub Interface NBAP Protocol Iur Interface RNSAP Protocol Iu Interface - RANAP Protocol IRAT Mobility 2 hours 2 hours 2 hours 5 hours 5 hours 3 hours 2010

53 Page 53 WCDMA RAN W11 Transport Network System Techniques Description LZU R1A How does the Ericsson Transport Network use ATM and IP to carry user and control plane traffic? How are the various transport bearer Quality of Service (QoS) achieved using ATM and IP? With the help of the WCDMA RAN W11 Transport Network System Techniques course the attendees will learn about the Ericsson Transport Network ATM and IP functionality. They will see how QoS is achieved using ATM Adaptation layer 2 (AAL2) class A-D in an ATM network and with the Differentiated Services Code Point (DSCP) IP header field and Ethernet priority field (P-bit) in an IP/Ethernet network. They will also see various examples of Transport Networks using both ATM and IP with explanations of the advantages and disadvantages of each. With the guidance of the instructor participants will become familiar all aspects the WCDMA RAN W11 Transport Network System Techniques. Learning objectives On completion of this course the participants will be able to: 1 Explain the ATM Functionality of the W11 RAN Transport Network. 1.1 Explain the basic ATM Cell structure and the ATM Service Categories used in the WCDMA RAN. 1.2 Explain the operation of ATM Adaptation Layer 2 (AAL2) and how its Call Admission Control (CAC) handles class A, B, C and D traffic. 1.3 Explain some of the basic ATM topologies used in the W11 WCDMA RAN. 1.4 List the ETBs that support ATM in the WCDMA RAN. 2 Explain the IP Functionality of the W11 RAN Transport Network. 2.1 Explain how IP and Ethernet fit into the protocol layers in the WCDMA RAN. 2.2 Explain the basic structure of an IP Packet and Ethernet frame. 2.3 Explain how Quality of Service (QoS) is achieved using IP and Ethernet. 2.4 Explain some of the basic IP topologies used in the W11 WCDMA RAN. 2.5 List the ETBs that support IP/Ethernet in the WCDMA RAN. 3 Explain the various cases for using ATM and/or IP in the WCDMA RAN. 3.1 Explain how Synchronization is performed in the W11 WCDMA RAN for ATM and IP Networks. 3.2 Explain the operation of the Unified ATM/IP Admission Control for Iub optional feature. 3.3 Explain the Soft congestion based on Iub algorithm and associated parameters. 3.4 Explain how the Iub flow control mechanisms operate for R99 DCH, HSDPA and EUL traffic. 2010

54 Page 54 Target audience The target audiences for this course are: Service Planning Engineer, Service Design Engineer, Network Design Engineer Prerequisites The participants of this course should have a basic understanding of the WCDMA RAN. Duration and class size The length of the course is 1 day and the maximum number of participants is 16. Learning situation The course is based on theoretical instructor-led lessons given in a classroom environment. Time schedule The time required always depends on the knowledge of the attending participants and the hours stated below can be used as estimate. Day Topics in the course Estimated time 1 ATM Transport Network Functionality IP Transport Network Functionality ATM and IP in the WCDMA RAN 2 hours 2 hours 2 hours 2010

55 Page 55 WCDMA RAN W11 Quality of Service LZU R1A Description What is Quality of Service (QoS) in mobile networks? Which are the QoS parameters? How is it implemented in the Radio Access Network, both in the Radio NW layer and in the Transport NW layer? How QoS is configured? What is QoS mapping? The answers to these questions and to many more are answered in the WCDMA Radio Access Network Quality of Service course. This course gives an overview of the UMTS end to end QoS architecture and provides in-depth understanding of the RAN QoS concept and principles. It explains the QoS attributes and emphasises in the QoS configuration in RAN, in the Radio Network layer, as well as in the Transport Network layer. It covers the QoS related RAN features and it explains the ARP QoS profile, the RNL QoS profile and the TNL QoS profile. Also the course contains several examples of QoS configuration. Learning objectives On completion of this course the participants will be able to: 1 Explain the concept of Quality of Service 1.1 Explain the concept of Quality of Service, its attributes and how they are related to different traffic classes. 1.2 Explain the purpose of UMTS Bearer Services and Radio Access Bearers (RABs). 2 Explain the Quality of Service features 2.1 Explain the QoS related optional features in the Radio Network layer (RNL). 2.2 Explain how the mapping is done between the QoS parameters that are received from the CN to the QoS parameters that are used by the RAN. 2.3 Explain how the ARP, THP, MBR are used. 2.4 Explain how the configuration of the QoS parameters can be done in the RNL. 2.5 Give examples of QoS configuration. 3 Explain the QoS related functionality 3.1 Explain the interaction between QoS and Capacity management. 3.2 Explain the interaction between QoS and Flow Control. 3.3 Explain the interaction between QoS and Scheduling. 4 Explain the QoS in the Transport Network Layer 4.1 Explain the concept of QoS in the Transport Network layer of an ATM based network. 4.2 Explain the concept of QoS in the Transport Network layer of an IP based network. 4.3 Explain the TNL related optional features. 4.4 Explain the TNLQoSProfile. 2010

56 Page 56 5 Explain the basic QoS functionality in the Core Network 5.1 Explain the interaction between the Core Network and the Radio Access Network. 5.2 Explain the basic QoS features in the Core Network. 6 QoS in IRAT 6.1 Explain the mapping between R99/97 QoS attributes. 6.2 Explain the mapping between EPS bearer ARP to pre-rel-8 ARP. 6.3 Explain the mapping between standardized QCIs and pre-rel-8 QoS parameter values. Target audience The target audience for this course is: Network Design Engineers, System Engineer, Service Engineer, Service Planning Engineers, and Service Design Engineers. Prerequisites Successful completion of the following course: WCDMA W11 RNC 3820 Configuration LZU Or WCDMA RAN W11 Functionality LZU WCDMA RAN W11 Protocols and Procedures LZU WCDMA W11 HSPA System Techniques LZU Duration and class size The length of the course is 2 days and the maximum number of participants is 16. Learning situation This course is based on theoretical instructor-led lessons and theoretical exercises given in a classroom environment. 2010

57 Page 57 Time schedule The time required always depends on the knowledge of the attending participants and the hours stated below can be used as estimate. Day Topics in the course Estimated time 1 Introduction to QoS Quality of service features & exercises Qos Related Functionality & exercises 2 Qos Related Functionality & exercises QoS in the Transport Network Layer Overview of QoS in Core Network QoS in IRAT 3.5 hours 1.5 hours 1.5 hours 3 hours 0.5 hour 2010

58 Page 58 WCDMA RAN W11 RXI 821/861 Operation and Configuration Description LZU R1A This course covers the configuration and operation of RXI 821/861. The course covers the various RXI hardware components and describes their functionality. The course participants will learn how to use the Element Manager (EM), the Command Line Interface (COLI), the Node Command Line Interface (NCLI) and the OSS-RC for operating and configuring the RXI and examination of the operational states of the interface boards. The course participants will also become familiar with areas of software management, network synchronization, performance management, fault management and IP management. There are a number of practical exercises which aids the course participants understanding of the course material. After completing these exercices, the participants are able to configure ATM cross connections, AAL2 switching and IMA (Inverse Multiplexing for ATM). We also cover configuration of IP and Ethernet if the RXI is used as a layer 2 switch. This means configuring the ET-MFX boards to carry IP based payload, signaling, O&M and synchronization traffic towards RBS and RNC. Learning objectives On completion of this course the participants will be able to: 1 Explain the function and architecture of the RXI 821 and RXI Describe the role of the RXI as a RANAG 1.2 List and describe the requirements of the RXI 821 and the RXI 861 in a wireless network 1.3 Describe Traffic Aggregator and Circuit Emulation functionality 1.4 List the advantages of using the Connectivity Packet Platform (CPP) 1.5 Describe the hardware architecture for RXI 821 and RXI Explain the principle ATM concepts 2.1 Describe the ATM cell and layers 2.2 Describe Virtual Path (VP) and Virtual Channel (VC) Switching 2.3 Describe Quality of Service (QoS) 2.4 List and describe the ATM Adaptation Layers (AALs) 2.5 Describe AAL2 Switching 3 Explain principle Ethernet and IP Suite 3.1 Explain the IP Functionality of the W10A RAN Transport Network. 3.2 Explain how IP and Ethernet fit into the protocol layers in the WCDMA RAN. 3.3 Explain the basic structure of an IP Packet and Ethernet frame. 3.4 Explain how Quality of Service (QoS) is achieved using IP and Ethernet. 4 Explain Management Interfaces 4.1 Connect to the RXI using the Command Line Interface (CLI), the Node CLI (NCLI), Telnet and the Element Manager (EM) 2010

59 Page Use O&M functions of the RXI through the Element Manager 4.3 Add a new RXI to the OSS-RC 4.4 Describe how the RXI can be managed by the OSS-RC BCT functionality 4.5 Describe the xml file format used for BCT 5 Explain Software Management and Hardware Upgrade 5.1 Describe the MOM (Managed Object Model) concept 5.2 Describe and create Configuration Versions (CVs) and explain CV Restore and Remove 5.3 Explain Software Upgrade Process 5.4 Explain Hardware Upgrade Process 6 Explain Performance Management Support 6.1 Detail the Performance Management Architecture 6.2 Explain the Subscription Profile principle 6.3 Explain the process of performance statistics data collection 6.4 Explain the process of performance recording data collection 6.5 Explain the process of General Performance Event Handling 6.6 Explain the Performance Data flow 7 Configure the ATM transport network in an RXI in order to set up connections to remote nodes (RNC and RBSs) 7.1 Describe the ATM Functionality of the RXI 7.2 Explain and configure ATM Cross Connection 7.3 Explain and configure AAL1 Circuit Emulation 7.4 Explain and configure AAL2 Switching 7.5 Explain and configure IMA groups 7.6 Viewing Transport Network using OSS-RC 8 Explain how to configure IP/Ethernet in an RXI 8.1 Configure IP/Ethernet MOs to bring the RXI into service 8.2 Configure Network Synchronization over IP 9 Explain RXI maintenance procedures and Fault Management 9.1 Identify the visual indicators of the RXI. 9.2 Identify alarm and events using the alarm manager in EMAS 9.3 Identify alarms using the alarm viewer in OSS-RC 9.4 Identify alarms using NCLI 9.5 Describe maintenance and error recovery procedures 9.6 Identify sample alarms that are generated by the RXI 9.7 Troubleshoot these alarms using the relevant OPIs 2010

60 Page Explain the process of Network Synchronization in RXI 10.1 Explain what Network Synchronization is 10.2 Describe the Synchronization Inputs and Outputs 10.3 Describe the Synchronization Reference Selection process 10.4 Describe the System Clock working modes 10.5 Configure Network Synchronization in the RXI 11 Explain and configure IP settings and IP routing tables in RXI for management traffic 11.1 Describe IP over ATM 11.2 Outline the basics of in-band management of the RXI 11.3 Describe how to set the IP address of the node 11.4 Describe how to create IP Termination Points 11.5 Describe how to set up IP Routes Target audience The target audience for this course is: Network Design Engineers, Network Deployment Engineer, Service Deployment Engineer, System Technician, Service Technicians, System Engineer, Service Engineer, Field Technicians. This audience is working with RXI 821 and/or RXI 861 integration, configuration or operation. Prerequisites Successful completion of the following course: CPP Node Features and Functions LZU Duration and class size The length of the course is 4 days and the maximum number of participants is 8. Learning situation This course is based on theoretical and practical instructor-led lessons given in both classroom and in a technical environment using equipment and tools, which are accessed remotely. 2010

61 Page 61 Time schedule The time required always depends on the knowledge of the attending participants and the hours stated below can be used as estimate. Day Topics in the course Estimated time 1 Introduction Module 1: RXI Application Overview Module 2: Principle ATM Concepts Module 3: Ethernet and IP Suite Module 4: Management Interfaces 2 Module 4: Management Interfaces (cont.) Exercise 1: CPI and system level configuration Module 5: SW and HW Management Exercise 2: CLI and NCLI Exercise 3: OSS-RC tools 3 Module 6: Performance Management Using OSS-RC Module 7: ATM Configuration Exercise 4: IMA, ATM Cross connections and AAL2 switching 4 Exercise 4 continued Module 8: IP/Ethernet Configuration Module 9: Maintenance and Fault Management Exercise 5: Fault Management Module 10: Network Synchronization Module 11: IP Configuration and Control 0.5 hour 2.5 hours 0.5 hour 1.5 hours 1.5 hours 1.5 hours 0.5 hour 4.5 hours 2 hours 0.5 hour 0.5 hour 2010

62 Page 62 WCDMA W11 / GSM BSS G11 Intersystem Handover Description LZU R1A Ever wondered how handover between 3G and 2G works and is implemented? This course focuses on the intersystem mobility between GSM and WCDMA. System Information parameters for controlling cell re-selection and handover of an Ericsson Network in a mixed 2G/3G environment are examined. Counters, timers and signalling flows are detailed and evalutated to optimize and troubleshoot intersystem handover related problems. The use IRATHOM (IRAT HO Manager) and NCS-GW (Neighboring Cell Support) is explained. Learning objectives On completion of this course the participants will be able to: 1 Explain GSM to WCDMA Evolution 1.1 Evaluate the need for Intersystem Handover 1.2 Explain different IRAT Handover strategies 2 Radio Network Design LA/RA Planning 2.1 Interference considerations at co-existence 2.2 Explain the main issues when performing LA/RA/URA Planning 3 Explain the process of PLMN Selection and Cell Selection 3.1 Explain the PLMN selection process 3.2 Analyze System Information parameters for interoperability between 2G and 3G Networks 3.3 Know relevant parameters and their settings 4 Explain Cell Reselection Process 4.1 Explain the purpose and function of cell reselection 4.2 Name preferred cell reselection strategy 4.3 Explain when measurements on neighbor cells are performed 4.4 Explain cell ranking procedure 4.5 Know relevant parameters and their settings 4.6 Explain GSM - UMTS Cell Reselection and Handover 2010

63 Page 63 5 Explain IRAT Handover 5.1 Explain the purpose of IRAT Handover 5.2 Explain different handover algorithms in UMTS 5.3 Explain the details about measurement setup and reported events 5.4 Explain the role of the mobile in the handover process 5.5 List supported bearers 5.6 Explain the GSM monitored subset creation process 5.7 Explain the need for Compressed Mode and different methods 5.8 Know different handover strategies and their configuration 5.9 Explain how queuing of WCDMA Calls in BSS 5.10 Explain the process of fast Return to WCDMA after Call Release 5.11 Understand Service Based Handover 6 Evaluate the impact of Intersystem Handover on CS and PS services 6.1 Name the impact of Intersystem Handover on different services 6.2 Know the impact of different LA implementation 6.3 Know about different mobile behavior 7 Understand GSM-WCDMA Neighbor Cell Support (GWNCS) 7.1 Know how to use GWNCS 7.2 Explain the meaning of the recording parameters 7.3 Understand neighbor relations to add/remove 8 Understand IRAT Handover Manager 8.1 Explain the purpose of IRATHOM and how to use it Target audience The target audience for this course is: Service Design Engineers, Network Design Engineers, System Engineers, and Service Engineers. Prerequisites Successful completion of the following courses: WCDMA W11 RNC 3820 Configuration LZU WCDMA W11 Quality of Service LZU Duration and class size The length of the course is 2 days and the maximum number of participants is 16. Learning situation This course is based on theoretical instructor-led lessons and theoretical exercises given in a classroom environment. 2010

64 Page 64 Time schedule The time required always depends on the knowledge of the attending participants and the hours stated below can be used as estimate. Day Topics in the course Estimated time 1 Overview & Strategy RAN Features for Intersystem Handover PLMN and Cell Selection Cell Reselection Exercises Handover 2 Handover Exercises Impact of Intersystem Handover IRATHOM theory NCS-GW theory Exercises 0.5 hour 0.5 hour 2 hours 2 hours 2010

65 Page 65 WCDMA W11 RNC 3820 Configuration Description LZU R1A Are you currently working with RNC3810 in the WCDMA RAN and interested in how the transmission option for IP/Ethernet is implemented on the Ericsson RNC3820 product? Or are you new to configuration and want to learn how to connect an RBS and an RNC3820 over IP/Ethernet? The course will introduce the new hardware and software introduced with the RNC3820, along with changes in the Managed Object Model for node configuration. The course will also highlight the main features of the new RAN hardware and how RNC performance has been greatly increased with reference to the internal Ethernet switching, higher node capacity, increased processing and reduced hardware. The course covers basic Ethernet and IP concepts along with the Managed Objects that are used for configuring the functionality in the RAN nodes. Interfaces for IP transport option covered are Iub, Iu-PS, Iu-CS and Iur. You will learn both how to configure interfaces over IP transport option and how to migrate already existing ATM nodes to IP/Ethernet. This course also covers the Iub Dual Stack feature, which gives the option to configure both ATM and IP/Ethernet transport in the same RBS. The WCDMA RAN is configured remotely from the O&M centre using Element Manager (EMAS). By attending this course, you will bridge your knowledge gap on IP transport option in WCDMA RAN W11, which will complement your existing knowledge on WCDMA RAN configuration over ATM transport option. Learning objectives 1 Describe the new Hardware available in the RNC 3820 and WCDMA RBS Describe the RNC 3820 products available in the W11 WCDMA RAN. 1.2 Describe the new CPP 7.0 boards available in the RNC Describe the range of Exchange Termination Boards (ETBs) for the RNC Explain the features of the Active Patch Panel (APP) in the RNC Explain how Ethernet switching is used to increase internal switching in the node. 1.6 Describe how the node performance has been improved from the RNC Explain how RNC 3820 can be expanded with C/T/O-Packs 1.8 Describe the RBS 6000 products available in the W11 WCDMA RAN. 1.9 Describe the new hardware used in the WCDMA RBS Explain Ethernet and IP Suite used in WCDMA RAN W Explain the IP Functionality and products used in the W11 RAN Transport Network. 2.2 Explain how IP and Ethernet fit into the protocol layers in the WCDMA RAN. 2.3 Explain the basic structure of an IP packet and Ethernet frame and how switching is done on Layer 2 and

66 Page Explain how Quality of Service (QoS) is supported by IP and Ethernet and how it is implemented in Ericsson WCDMA RAN. 3 Configure the Iu and Iur interfaces over ATM 3.1 Describe the Iu-CS, Iu-PS and Iur interface protocols over ATM 3.2 Configure the complete Iu-CS over ATM (control-plane and user-plane) on RNC Examine the impacts on configuration when Multi-Operator Core Network and Iu-Flex are implemented in the RNC. 4 Configure Iu and Iur interfaces with IP 4.1 Describe the protocol stacks for Iu-CS, Iu-PS and Iur over IP/Ethernet. 4.2 Explain how IP connectivity is implemented on the RNC 3820 and how this differs from an RNC Explain the function of protocols and concepts such as IPAcessHosts, SCTP and Multi-Homing and M3UA. 4.4 Configure the Iu Control Plane over IP/Ethernet 4.5 Configure Iu-CS User Plane over IP/Ethernet 4.6 Configure Iu-PS User Plane over IP/Ethernet 4.7 Describe the Iur Control and User Plane over IP/Ethernet 5 Configure Iub over ATM 5.1 Describe the Iub interface protocols over ATM 5.2 Configure the RNC 3820 for Iub when the bearer is ATM 5.3 Configure an RBS 3000 or RBS 6000 for Iub when the bearer is ATM 6 Configure Iub over IP 6.1 Explain the protocol stack for Iub transmission over IP/Ethernet 6.2 Understand concepts such as RNC Modules, Iub links, Radio Network and Transport Network 6.3 Configure the common and RBS Site Specific definitions for Iub over IP in the RNC 6.4 Explain what the Iub Dual Stack feature is and how it is configured. 6.5 Show the transport split for the dual stack RBS, with both ATM and IP in use 7 Configure the Cell Network 7.1 Explain how WCDMA radio parameters are mapped onto the cell network 7.2 Configure Location, Routing and Service Areas, UTRAN Registration Areas, MBMS Service and Cell Broadcast Areas 7.3 Configure UTRAN Cells 7.4 Configure UTRAN Channels 7.5 Configure UTRAN/GSM Neighbor Relations Target audience The target audience for this course is: Service Planning Engineers, Service Design Engineers, Network Design Engineers, Network Deployment Engineers, Service Deployment Engineers, System Technicians, Service Technicians, System Engineers, Service Engineers and Field Technicians. 2010

67 Page 67 Prerequisites Successful completion of the following course: WCDMA RAN W11 Operation LZU Duration and class size The length of the course is 5 days and the maximum number of participants is 8. Learning situation This course is based on theoretical and practical instructor-led lessons given in both classroom and in a technical environment using equipment and tools, which are accessed remotely. All practical configuration exercises will be carried out using Element Manager. Please observe that Managed Object basic theory, BCM basic functions and xml schema theory/practical areas are not covered in this course. Also AMOS is not intended to be used as part of this course. 2010

68 Page 68 Time schedule The time required always depends on the knowledge of the attending participants and the hours stated below can be used as estimate. Day Topics in the course Estimated time 1 RNC 3820 Introduction 2.5 hours RBS6000 Introduction Ethernet and IP in WCDMA RAN Layer 2 & 3 Switching in WCDMA RAN IP QoS implementation in Ericsson WCDMA RAN Ethernet and IP MOs 1.0 hours 1.0 hours 0.5 hours 0.5 hours 0.5 hours 2 Iu over ATM Theory 3.0 hours Iu-CS over ATM Practical 3.0 hours 3 Iu and Iur over IP Configuration (Theory & Practical) 6.0 hours 4 Iub over ATM (Theory & Practical) 3.0 hours Iub over IP Configuration (Theory & Practical) 3.0 hours 5 Migration from ATM to IP (Theory & Practical) 2.0 hours Configuring Cell Network (Theory & Practical) Course review and conclusion 3.0 hours 1.0 hours 2010

69 Page 69 WCDMA RAN W11 Operation LZU R1A Description This course covers aspects of hardware and software handling in a WCDMA RAN and the administration of routine Operation and Maintenance tasks, including network status and performance data collection monitoring with the help of OSS-RC. The course also covers the procedures and tools for Fault Management and Fault Handling within the WCDMA RAN as well as a brief overview of Transport and Radio Network Configuration used in the WCDMA RAN including the main tools and procedures used in OSS-RC and Element Manager. The objective of the course is to be able to understand and perform operational tasks according to instructions and parameters received in exercises. The participants use OSS- RC as the network operation and maintenance support system. For some exercises on individual network elements, Element Manager, Advanced MO Scripting, Node Command Line Interface and Command Line Interface are used to complete the tasks. Learning objectives On completion of this course the participants will be able to: 1 Explain the WCDMA RAN System 1.1 Describe the applications and services provided by 3G networks 1.2 Explain the role and position of the WCDMA RAN in 3G networks 1.3 Describe the architecture of the WCDMA RAN 1.4 Describe the WCDMA RAN Operation and Maintenance System 1.5 List the main features of OSS-RC for WCDMA RAN W Explain in detail the management model layers, in terms of functions and roles. 1.7 Explain the O&M intranet and O&M Infrastructure, supporting OSS-RC. 1.8 Explain the four O&M categories: Configuration, Fault, Performance and Security Management 1.9 List the applications used in WCDMA RAN Operation and Maintenance 1.10 Identify the impact of security features implemented in the WCDMA RAN 2 Explain the WCDMA RAN system in terms of architecture and subsystems 2.1 Describe the WCDMA RAN System Architecture and its partition in Radio Network Subsystems 2.2 Explain the role and functions of a Radio Network Subsystem 2.3 Explain the role of the Iu, Iur and Iub interfaces 2.4 Describe the role and architecture of the RNC-RBS subsystem 2.5 Describe the hardware and software architecture, and function of the WCDMA RAN nodes: RNC, RBS, RXI 2010

70 Page 70 3 Explore the Customer Product Information (CPI) 3.1 Explain the CPI Library structure 3.2 Browse and search a CPI library with ALEX 3.3 Explain operational instructions (OPI) and maintain the node according to the OPI. 3.4 Describe additional information on an alarm and solve the problem with the help of the CPI and Element Manager 4 Perform Fault Management on a WCDMA RAN 4.1 Explain the Fault Management Model and fault categories 4.2 Describe the Fault Management process in the WCDMA RAN 4.3 Follow Fault Handling procedures 4.4 Use Fault handling applications in OSS-RC and Element Manager 5 Perform Hardware and Software Management on a WCDMA RAN 5.1 Explain the hardware and software architecture in WCDMA RAN nodes 5.2 Describe the file system implementation of CPP based nodes 5.3 Describe and manage the Configuration Versions for a WCDMA RAN node 5.4 Explain the main Hardware and Software Management procedures for a WCDMA RAN: Equipment Handling, Software Management and Upgrade Processes. 5.5 Perform Hardware and Software Management procedures using the appropriate tools: OSS-RC based applications, Element Manager, CLI and AMOS 6 Perform Performance Management on the WCDMA RAN 6.1 Describe the Performance Management Architecture and Model 6.2 Describe the performance statistics generated in the WCDMA RAN (UETR, CTR and GPEH) 6.3 Explain the Subscription Profile principle 6.4 Describe the Data Collection Process and Administration for the WCDMA RAN 6.5 Perform WCDMA RAN Performance Management procedures using the Performance toolset of OSS-RC 7 Perform basic WCDMA RAN Configuration procedures using OSS-RC and Element Manager 7.1 Describe the main steps in the Design and Integration of a WCDMA RAN 7.2 Explain the WCDMA RAN Configuration Service Framework 7.3 Describe the Transport Network (TN) Configuration process 7.4 Explain Common Explorer(CEX) in OSS-RC 7.5 Explain the Fallback Area principle 7.6 Explain the concept of Transport Redundancy 7.7 List the main applications used in Transport and Radio network configuration in OSS- RC 2010

71 Page 71 Target audience The target audience for this course is: System Engineers, and Service Engineers. This target audience is expected to perform the daily operational routines of the WCDMA RAN. Prerequisites Successful completion of the following courses: Ericsson WCDMA System Overview LZU OSS-RC Overview LZU CPP Node Features and Functions LZU Duration and class size The length of the course is 3 days and the maximum number of participants is 8. Learning situation The course is based on theoretical and practical instructor-led lessons given in both classroom and a technical environment using equipment and tools, which can be accessed remotely. Time schedule The time required always depends on the knowledge of the attending participants and the hours stated below can be used as estimate. Day Topics in the course Estimated time 1 WCDMA RAN System Overview WCDMA RAN System Description CPI Overview 2 WCDMA RAN Fault Management WCDMA RAN Hardware and Software Management 3 WCDMA RAN Performance Management WCDMA RAN Configuration Management 3.0 hours 2.5 hours 0.5 hour 3.0 hours 3.0 hours 3.0 hours 3.0 hours 2010

72 Page 72 WCDMA RAN W11 Troubleshooting Description LZU R1A Once the WRAN network is up and running, how are faults detected and handled in the Connectivity Packet Platform (CPP) based WRAN nodes? How does Ericsson local/field support enable and collect logs from a CPP node? WCDMA RAN W11 Troubleshooting explains how, once a fault is detected, logs are collected to be included in Customer Service Requests (CSRs). It also gives an overview on how Ericsson enables traces and sets up the environment to collect logs, so that they can be appended to the CSRs. This training is useful for operation and maintenance personnel to get an understanding of the different logs in a CPP based node, how traces are enabled/collected and also to get an overall picture of the fault handling process in a WRAN network. Both IP and ATM based transport networks are covered in the course, although the focus is on the latter. Telnet sessions (for CLI access) and the Advanced Managed Object Scripting (AMOS) tool from the OSS-RC are used during the training. Customer Product Information (CPI) is used as course material. Learning objectives On completion of this course the participants will be able to: 1 Understand the system concepts, redundancy and configurations in CPP 1.1 Use CLI/AMOS commands to understand Fault Tolerant Core (FTC) concept 1.2 Use CLI/AMOS to understand Reliable Program Uniter concept 1.3 Be able to interpret Managed Object attributes to explain how interfaces are configured from a CPP based node using Element Manager and AMOS 1.4 Understand how link redundancies work in both ATM and IP based transport interfaces 1.5 Understand the concept of moveable Connection End Point (Mv CEP) 1.6 Understand the file system in a CPP based node 1.7 Be able to perform an emergency recovery of a CPP based node from a backup placed outside of the node 2 Use the applications in OSS-RC, Element Manager and Command Line Interface (CLI) that are important during a troubleshooting procedure. 2.1 Start and understand when to use the following applications in OSS-RC: Transport Network Viewer, Job Manager, Alarm List Viewer/ Alarm Status Matrix, WCDMA RAN Performance Measurements, Common Explorer GUI, Node Status Analyzer and Cabinet Equipment Viewer, Advanced Managed Object Scripting (AMOS) interface and Node Command Line Interface (NCLI). 2.2 Lock and restart boards and nodes including the soft/hard lock concepts 2.3 Check the status of the Manage Objects to find out the health of the node 2.4 Understand when CLI is used and when Element Manager/NCLI are used 2010

73 Page 73 3 Investigate the purpose and the location of the various types of logs in a CPP based node 3.1 Find out the location and purpose and read Alarm and Event logs 3.2 Find out the location and purpose of Trace and Error Log 3.3 Understand how Ericsson Local Support enables traces in the process of troubleshooting, and uses the target monitor application to capture the traces 3.4 Find out the location and purpose of Error Log, Post Mortem Dump(PMD) Log, Availability Log 3.5 Find out the purpose and location of the Security and Audit trail logs 3.6 Perform data collection to include in the Customer Service Request (CSR) when a problem is suspected in the WRAN network 4 Be able to tie together the Performance Statistics and Performance Monitoring in the process of troubleshooting in WRAN Network 4.1 Be able to initiate statistics from the OSS-RC 4.2 Be able to initiate performance recording (e.g. UETR) from the OSS-RC 4.3 Be able to read counter values and tie them to the situations in the network Target audience The target audience for this course is: System Engineers, Service Engineers The audience is responsible for investigating suspected problem situations in the WRAN nodes. Prerequisites Successful completion of the following course: WCDMA W11 RNC 3820 Configuration LZU The participants should be familiar with the normal operation and configuration of RNC3810 / RNC3820 and RBS3000 / RBS 6000 in an ATM based WCDMA RAN. Duration and class size The length of the course is 3 days and the maximum number of participants is 8. Learning situation This is a task-oriented learning course based on tasks in the work-process given in a technical environment using equipment and tools. 2010

74 Page 74 Time schedule The time required always depends on the knowledge of the attending participants and the hours stated below can be used as estimate. Day Topics in the course Estimated time 1 Introduction Sum up of the various user interfaces in OSS-RC and Element Manager used for troubleshooting Exercise: Network Configuration Check/Summary Redundancy and exercises 2 Logs in CPP based nodes and exercises Trace and Error Log Introduction and exercise Exercise: Alarms vs. traces Analyzing hardware configuration data in RBS Exercise: cyclic restarts 3 Exercise : software configuration fault Exercise: setting up and analysis of UETR, statistics Exercise: Collecting logs to append to CSRs Miscellaneous and course sum-up 0.5 hour 1.5 hours 2 hours 2 hours 3 hours 0.5 hour 0.5 hour 3 hours 2010

75 Page 75 WCDMA RAN W11 Initial Tuning Description LZU R1A How is the initial tuning of a WCDMA Radio Access Network performed? What tools and methods are uesd to perform the initial tuning process? This WCDMA RAN W11 Initial Tuning course will guide the students through the tools and processes used by Ericsson to perform Initial Tuning of the W11 WCDMA RAN. After this course the participant will be able to collect and analyze data collected during the Initial Tuning process. They will also be able to use this data to perform initial tuning of the W11 WCDMA RAN. Learning objectives On completion of this course the participants will be able to: 1 Detail the general Radio Network Tuning process 1.1 Explain the service content of WCDMA RAN Tuning 1.2 Explain the service content of WCDMA RAN Optimization 1.3 Explain the difference between RAN Tuning and RAN Optimization 2 Perform preparations necessary to perform RAN Tuning 2.1 Define clusters and drive test routes 2.2 Perform a design and consistency check 2.3 Setup drive test tools 3 Implement and perform the process of pilot tuning 3.1 Explain what data to collect with TEMS Scanner 3.2 Collect and export TEMS Scanner data 3.3 Post process data using TEMS Data collection and MapInfo 3.4 Analyze and interpret the collected data in order to improve coverage, interference and missing neighbor cases 3.5 Implement changes in order to improve the performance 4 Perform UE tuning for Circuit Switched data 4.1 Explain the process of UE tuning 4.2 Define and show different performance indicators using TEMS Investigation 4.3 Post process data using TEMS Data collection and MapInfo 4.4 Perform UE tuning for circuit switched data with focus on accessibility, retainability and integrity 4.5 Implement changes in order to improve the performance of the Network 5 Perform UE tuning for Packet Switched Data 2010

76 Page Explain the measurements that are unique to Packet Switched data 5.2 Analyze PS Data TEMS Investigation logfiles 5.3 Implement changes in order to improve the performance of the Network 6 Perform UE tuning for HSPA Data 6.1 Explain the measurements that are unique to HSPA 6.2 Describe the HSPA tuning process 6.3 Analyze HSPA TEMS Investigation logfiles 6.4 Implement changes in order to improve the performance of the Network Target audience The target audiences for this course are: System Engineer and Service Engineer. Prerequisites Successful completion of the following course: WCDMA RAN W11 Performance Management and Optimization LZU Duration and class size The length of the course is 3 days and the maximum number of participants is 8. Learning situation This course is based on theoretical and practical instructor-led lessons given in both classroom and in a technical environment using tools, which are accessed remotely. 2010

77 Page 77 Time schedule The time required always depends on the knowledge of the attending participants and the hours stated below can be used as estimate. Day Topics in the course Estimated time 1 WCDMA RAN Network Tuning Introduction Preparations Practical exercises using TEMS Investigation 2 Pilot Tuning Practical exercises using MapInfo 3 UE Tuning Circuit Switched Data Practical exercises using MapInfo and TEMS Investigation UE Tuning Packet Switched Data Practical exercises using TEMS Investigation UE Tuning HSPA Tuning Practical exercises using TEMS Investigation 4 hours 2 hours 4 hours 2 hours 0.5 hour 0.5 hour 2010

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