Course description MPBN (1)

Mobile Packet Backbone Network

Training Programs

Catalog of Course Descriptions

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Commercial in Confidence 2

Ericsson AB Global Services

SE-164 80 Stockholm Telephone: +46 8 757 0000

Email: [email protected]

www.ericsson.com/globalservices

© Ericsson AB 2009

Catalog of Course Descriptions

INTRODUCTION ................................................................................................................. 6

MOBILE PACKET BACKBONE NETWORK (M-PBN) R5.1 DELTA ................................. 7

MOBILE PACKET BACKBONE NETWORK (M-PBN) CONCEPTS 5.1 .......................... 10

MOBILE-PBN R6.0 DELTA .............................................................................................. 17

MOBILE PACKET BACKBONE NETWORK (MOBILE-PBN) CONCEPTS 6.0 JUNIPER TRACK .............................................................................................................................. 19

MOBILE PACKET BACKBONE NETWORK (MOBILE-PBN) CONCEPTS 6.0 (REDBACK TRACK) ........................................................................................................ 26

SMARTEDGE R5 ADD-ON MPLS L3 USING IS-IS INFRASTRUCTURE CONFIGURATION AND MONITORING ........................................................................... 33

MOBILE PACKET BACKBONE NETWORK (M-PBN) R6.1 CONCEPTS - REDBACK TRACK .............................................................................................................................. 35

MOBILE PACKET BACKBONE NETWORK (M-PBN) R6.1 NETWORK VIEW (REDBACK TRACK) ........................................................................................................ 41

MOBILE PACKET BACKBONE NETWORK (M-PBN) R6.1 CONCEPTS - TRANSPORT BACKBONE (REDBACK TRACK) ................................................................................... 43

MOBILE PACKET BACKBONE NETWORK (M-PBN) R6.1 OVERVIEW (REDBACK TRACK) ............................................................................................................................ 46

MOBILE PACKET BACKBONE NETWORK (M-PBN) R6.1 CONCEPTS - JUNIPER TRACK .............................................................................................................................. 48

MOBILE PACKET BACKBONE NETWORK (M-PBN) R6.1 OVERVIEW (JUNIPER TRACK) ............................................................................................................................ 54

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MOBILE PACKET BACKBONE NETWORK (M-PBN) R6.1 NETWORK VIEW (JUNIPER TRACK) ............................................................................................................................ 56

MOBILE PACKET BACKBONE NETWORK (M-PBN) R6.1 CONCEPTS - TRANSPORT BACKBONE (JUNIPER TRACK) ..................................................................................... 58

MOBILE PACKET BACKBONE NETWORK (M-PBN) R6.1 CONCEPTS - CIRCUIT SWITCHED ....................................................................................................................... 61

MOBILE PACKET BACKBONE NETWORK (M-PBN) R6.1 CONCEPTS – IMS ............. 63

MOBILE PACKET BACKBONE NETWORK (M-PBN) R6.1 CONCEPTS - PACKET SWITCHED ....................................................................................................................... 65

MOBILE PACKET BACKBONE NETWORK (M-PBN) R7.0 CONCEPTS - CIRCUIT SWITCHED - JUNIPER TRACK ....................................................................................... 67

MOBILE PACKET BACKBONE NETWORK (M-PBN) R7.0 CONCEPTS - CIRCUIT SWITCHED - REDBACK TRACK ..................................................................................... 72

MOBILE PACKET BACKBONE NETWORK (M-PBN) R7.0 CONCEPTS - IMS - JUNIPER TRACK ............................................................................................................. 77

MOBILE PACKET BACKBONE NETWORK (M-PBN) R7.0 CONCEPTS - IMS - REDBACK TRACK ........................................................................................................... 82

MOBILE PACKET BACKBONE NETWORK (M-PBN) R7.0 CONCEPTS - JUNIPER TRACK .............................................................................................................................. 87

MOBILE PACKET BACKBONE NETWORK (M-PBN) R7.0 CONCEPTS - PACKET SWITCHED - JUNIPER TRACK ....................................................................................... 93

MOBILE PACKET BACKBONE NETWORK (M-PBN) R7.0 CONCEPTS - PACKET SWITCHED - REDBACK TRACK ..................................................................................... 97

MOBILE PACKET BACKBONE NETWORK (M-PBN) R7.0 CONCEPTS - REDBACK TRACK ............................................................................................................................ 101

MOBILE PACKET BACKBONE NETWORK (M-PBN) 2009B CONCEPTS - SMARTEDGE TRACK .................................................................................................... 107

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MOBILE PACKET BACKBONE NETWORK (M-PBN) 2009B CONCEPTS - CIRCUIT SWITCHED - SMARTEDGE TRACK .............................................................................. 113

MOBILE PACKET BACKBONE NETWORK (M-PBN) 2009B CONCEPTS - PACKET SWITCHED - SMARTEDGE TRACK .............................................................................. 117

MOBILE PACKET BACKBONE NETWORK (M-PBN) 2009B CONCEPTS - JUNIPER TRACK ............................................................................................................................ 121

MOBILE PACKET BACKBONE NETWORK (M-PBN) 2009B CONCEPTS - CIRCUIT SWITCHED - JUNIPER TRACK ..................................................................................... 126

MOBILE PACKET BACKBONE NETWORK (M-PBN) 2009B CONCEPTS - PACKET SWITCHED - JUNIPER TRACK ..................................................................................... 130

MOBILE PACKET BACKBONE NETWORK (M-PBN) 2009B CONCEPTS - IMS......... 134

MOBILE PACKET BACKBONE NETWORK (M-PBN) OPERATIONS & CONFIGURATION .......................................................................................................... 137

IP NETWORKING ........................................................................................................... 140

IP QUALITY OF SERVICE AND MPLS .......................................................................... 143

IP SECURITY .................................................................................................................. 145

VOICE AND VIDEO OVER IP ......................................................................................... 147

IPV6 NETWORKING ....................................................................................................... 149

IPV6 ROUTING ............................................................................................................... 153

IPV6 QUALITY OF SERVICE ......................................................................................... 157

IPV6 SECURITY ............................................................................................................. 159

M-PBN 2010A CONCEPTS - SMARTEDGE TRACK ..................................................... 161

M-PBN 2010A CONCEPTS - CIRCUIT SWITCHED - SMARTEDGE TRACK ............... 167

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M-PBN 2010A CONCEPTS - PACKET SWITCHED - SMARTEDGE TRACK ............... 171

M-PBN 2010A CONCEPTS - JUNIPER TRACK ............................................................ 175

M-PBN 2010A CONCEPTS - CIRCUIT SWITCHED - JUNIPER TRACK ...................... 181

M-PBN 2010A CONCEPTS - PACKET SWITCHED - JUNIPER TRACK ...................... 185

M-PBN 2010A CONCEPTS - IMS ................................................................................... 189

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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)

Delivery Enablers

Remote Training Lab (RTL)

Mobile Packet Backbone Network (M-PBN) R5.1 Delta (Note: contracted customers only!)

LZU -108 6833 R1A

Description

Do you wish to know the advantages of the new and enhanced features introduced in M-PBN R5.1. If so, this is the course for you. It addresses the impact of the M-PBN R5.1 implementation in Circuit Switch, Packet Switch, Network View and Transport Network on M-PBN R5.1. It also addresses new features supported by Mobile-PBN R5.1 :connectivity solutions for Nb over IP and IMS R4.0, Signaling over IP enhancements and improved adaptability to multi-vendor based backbones.

Learning objectives

On completion of this course the participants will be able to:

1 Explain the enhancements to the Mobile-PBN R5.1 1.1 Highlights of Mobile-PBN R5.1 1.2 High level changes overview in Mobile-PBN R5.1 2 Explain the enhancements to the M-PBN R5.1 in CS 2.1 Overview of MSS 4.2 2.2 Support for SS7 over IP 2.3 Support for MSC Pool 2.4 Support for Sigtran in WCDMA RAN P5 3 Explain the enhancements to the M-PBN R5.1 in PS 3.1 Describe the new and enhanced GGSN R4 features 3.2 Identify the new ATB Firewall 3.3 Understand SGSN in Pool for WCDMA 3.4 Identify the new X450A Layer 3 Switches 4 Explain the enhancements to the M-PBN R5.1 for O&M 4.1 Enhancements in Mobile-PBN R5.1 4.2 New features in HP/OpenView Suite 4.3 Description of interconnections 4.4 Performance Management / KPI 5 Explain the enhancements to the M-PBN R5.1 Security 5.1 Firewall Selection 5.2 Core Network (CN) SS7 Security 5.3 Virtual Systems (VSYS) Implementation in the Firewalls 5.4 Intrusion Detection and Prevention (IDP)

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5.5 Firewall Policy Guidelines 6 Explain the enhancements to the M-PBN R5.1 Site Infrastructure & Access 6.1 Changes in Mobile-PBN R5.1 6.2 Extreme Network’s L3 Switches proposed for Primary and Secondary Sites 6.3 Changes in QoS Design 6.4 Node KPI Overview 6.5 GSM & GPRS Access 6.6 WCDMA Access 7 Explain the enhancements to the M-PBN R5.1 Backbone 7.1 Changes in the backbone design 7.2 Revised Traffic Engineering for e2e RSVP 7.3 MPLS Triple Push Implications 7.4 Introduction of the Juniper Network’s M120 Router 7.5 KPI Classifications

Target audience

The target audience for this course is: Network Designers, Network Deployment Engineers, Service Design Engineers, System Engineers.

Prerequisites

The participants should be familiar with:

Competence in IP (MPLS VPNs, L2VPNs, IP QoS, routing (OSPF, BGP, IS-IS), VLAN tagging, etc

Competence in ATM (AAL2, AAL5, QoS)

Competence in CS and PS for WCDMA and GSM (Core Network Features of GSNs, MSS including Interfaces, routing features, O&M).

Competence in SS7 Signaling and SIGTRAN.

Competence in M-PBN R5.0

Duration and class size

The length of the course is 1 days and the maximum number of participants is 16.

Learning situation

This course is based on theoretical instructor-led lessons given in a classroom.

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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 0.5h

Circuit Switch Core Delta 1h

Packet Switch Core delta 1h

O&M Delta 1h

Security Delta 1h

Site Infrastructure & Access 1h

Backbone 0.5h

Mobile Packet Backbone Network (M-PBN) Concepts 5.1 (Note: contracted customers only!)

LZU -108 6834 R1A

Description

Your network is based on M-PBN R5.1 and you need to understand the concepts?

Then this course is for you. It provides an insight and understanding of the M-PBN R5.1 architecture, concepts and design.

You will learn about the scope of the M-PBN R5.1 reference network, the products involved as well as applied concepts and designs.

Learning objectives

On completion of this course the participants will have understood the Mobile-PBN R5.1 network designs and will be able to use this knowledge to appreciate and recognize the concepts in their network.

The participants will understand the main concepts under the M-PBN R5.1 Solution: Modularity, Scalabilty, Resilience, Security, QoS etc.

On completion of this course the participants will be able to

Module 1: M-PBN R5.1 Overview

1 Explain the overview of the Ericsson Mobile Packet Backbone Network R5.1 (M-

PBN R5.1) 1.1 Explain the challenges faced in regards to the mobile operators’ backbone

infrastructure 1.2 Detail the advantages of design modularity

2 Explain the M-PBN R5.1 solution and products 2.1 Explain two M-PBN R5.1 solution variants 2.2 Identify the infrastructure nodes in the M-PBN 5.1 model

3 Explain the M-PBN R5.1 Reference Network design 3.1 Identify the nodes in the Ericsson Mobile Packet Backbone Network R5.1 (M-PBN

R5.1) 3.2 Explain the connectivity requirements 3.3 Identify the site infrastructure requirements

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4 Explain the basics of the technology used in the Ericsson Mobile Packet Backbone Network R5.1 (M-PBN R5.1)

4.1 Explain the connectivity requirements 4.2 Identify the site infrastructure requirements 5 Explain the customer case requirements 5.1 Explain the customer benefits of M-PBN R5.1 solution

Module 2: M-PBN R5.1 Circuit Switched (CS)

1 Explain the M-PBN R5.1 Scope and Requirement 1.1 Explain M-PBN R5.1 CS solution scope and goals 1.2 Describe CS requirements on IP transport backbone 1.3 Describe M-PBN R5.1 backbone technology choice

2 Explain SS7 over IP signaling design goals and architecture 2.1 Describe physical and IP connectivity 2.2 Describe SCTP layer 2.3 Describe M3UA and MTP3b layer scenarios 3 Explain MSS R4.2 GSM over IP network and protocol 3.1 Describe CS optimal IP transport technology choice 3.2 Describe optimal M-MGw selection, control layer and remote TDM, admission

control 3.3 Explain network redundancy 3.4 Describe physical and IP connectivity 4 Explain different MSS migration scenarios 4.1 Describe different classical MSC TDM to MSS IP migration scenarios 4.2 Describe MSS TDM to MSS IP migration 4.3 Describe MSS ATM to MSS IP migration

Module 3: M-PBN R5.1 Packet Switched (PS)

1 Describe the advantages of SGSN pool 1.1 Explain the traffic cases of SGSN pool design guidelines 1.2 Describe protocol stack of IuPS interface 1.3 Explain connectivity options from RNC to SGSN 1.4 Describe protocol stack of Gb interface 1.5 Explain local and remote scenarios for Gb over IP 1.6 Explain local and remote scenarios for Gb over FR 1.7 Describe the design guidelines for Gb interface

2 Describe physical and logical connectivity of Gn interface 2.1 Explain the routing architecture of Gn interface 2.2 Describe physical and logical connectivity of roaming

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2.3 Explain the routing architecture of roaming 2.4 Describe DNS 3 usage cases 2.5 Describe DNS physical and logical connectivity 2.6 Describe DNS failover cases 3 Describe Gi interface design issues like: MS IP address allocation, Subscriber

authentication, Accounting etc. 3.1 Describe the technologies used in traffic separation. 3.2 Describe the Gi Direct solution. 3.3 Describe the Gi Indirect solution 3.4 Understand Inband and Outband Radius server implementation

Module 4: M-PBN R5.1 Network View

1 Describe the various levels of abstraction used to achieve logical modularization of

the M-PBN R5.1 design. 1.1 List the various Network Modules within the M-PBN R5.1 design solution

2 Explain the Security Solution as part of the Ericsson design in the Mobile-Packet

Backbone Network. 2.1 Describe the Security Domain Network Security 2.2 Describe the Security Services applied for different traffic types 2.3 Describe Security Management 3 Explain the O&M Network design as part of the Ericsson design in the Mobile-

Packet Backbone Network. 3.1 Describe the Mobile-PBN R5.1 Operation and Maintenance (O&M) network used

for transport of management traffic between network elements and O&M application servers residing in a Network Operation Center (NOC) for the Medium/Large Network Solutions

4 Describe the charging solution for M-PBN R5.1 4.1 Describe how to place and integrate the Charging System 3.0 and Multi-Mediation

4.0 in the Mobile Packet Backbone Network. 4.2 Describe the connectivity (interfaces, required protocols, and the mechanisms for

transferring charging information) between the Core Network Elements as included in Mobile-PBN and the needed charging systems

5 Explain the general QoS purpose 5.1 Describe the 3GPP QoS model 5.2 Describe the M-PBN QoS solution

Module 5: M-PBN R5.1 Transport Backbone

1 Describe M-PBN R5.1 transport backbone solution scope and requirement 1.1 Describe M-PBN R5.1 transport backbone solution scope and limitations

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1.2 Describe client requirements on transport backbone 2 Describe site infrastructure scope and purpose 2.1 Describe M-PBN site switch hardware options 2.2 Describe site infrastructure Ethernet connectivity and VLAN traffic separation

principles and security design 2.3 Describe site switch redundancy mechanisms and design for high availability 2.4 Describe the Site Infrastructure QoS 3 Explain client modules connectivity options 3.1 Describe backbone connectivity for the Access network client modules: WCDMA

and GPRS 3.2 Describe backbone connectivity for the Core network client modules: AAL2, Gn and

SS7 3.3 Describe backbone connectivity for the External network client modules: Gi

Corporate 4 Describe M-PBN transport backbone module design 4.1 Describe M-PBN intra-site and inter-site connectivity choices 4.2 Explain IGP, internal BGP and client NW routing choice in M-PBN backbone routing

design 4.3 Explain the 2 Options in M-PBN IP/MPLS transport backbone design 4.4 Explain M-PBN QoS solution in transport backbone 4.5 Describe availability considerations 5 Describe the Optional Cisco Adaptation in Ericsson’s M-PBN R 5.1 5.1 Identify the Cisco nodes that are required for the Site Infrastructure 5.2 Identify the Cisco nodes that are required for the Backbone 5.3 Describe the Routing Protocols implemented in this adaptation 6 Describe the ATM option in Ericsson’s M-PBN R 5.1 6.1 Describe the connectivity solutions for customers’ with the ATM option

Module 6: M-IMS in M-PBN R5.1

1 Describe M-IMS R4.0 in M-PBN R5’s solution scope and requirements 1.1 Describe M-IMS R4.0 in M-PBN R5’s solution scope 1.2 Describe M-IMS R4.0 in M-PBN R5’s limitations

2 Describe the IMS Architecture 2.1 Explain the 3GPP Architecture Evolution (R99 to R5) 2.2 Explain the End-to-End M-IMS QoS Architecture 2.3 Describe the Policy Enforcement 2.4 Identify the Public and Private User Identities 3 Explain the reason for the M-IMS IP Infrastructure

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3.1 Describe the nodes in The Network Reference Model (TNRM) 3.2 Describe the main changes in M-IMS R4 3.3 Describe the role of the IS Platform 3.4 Describe the Security aspects in M-IMS

4 Describe Traffic Flows in M-IMS 4.1 Explain the Registration Process 4.2 Describe the CSCF Discovery 4.3 Explain the Session Establishment Process

5 Describe the IMS Reference Points 5.1 Describe the Service Traffic 5.2 Describe IMS Reference Point for O&M Traffic for Extreme and Ericsson’s IS 5.3 Describe the functionality of the iDNS and eDNS 5.4 Describe the connectivity for Extreme nodes

5.5 Describe the connectivity for Ericsson’s IS nodes

Course Contents

The course consists of six modules. Each of the modules has a duration of 1 day:

Module 1: M-PBN R5.1 Overview

Challenges faced in regards to the mobile operators’ backbone infrastructure

Ericsson Mobile Packet Backbone Network (M-PBN) Introduction

Ericsson M-PBN Design overview and network nodes selection criteria

Overview of the different technology used in the M-PBN such as IP, ATM, MPLS, VPNs and SONET/SDH

Discussion of a customer sucsses story

Module 2: M-PBN R5.1 Circuit Switched (CS)

M-PBN CS solution scope and requirements

CS specific technology introduction: MSS layered architecture nodes and protocols, SS7 over IP, M-MGw selection and bearer setup, voice compression, admission control, MSC Pool

MSS WCDMA and GSM CS solution with ATM transport

MSS WCDMA/GSM CS solution with IP transport and signaling

Migration to MSS

Module 3: M-PBN R5.1 Packet Switched (PS)

WCDMA/GSM GRPS networks

DNS concept and DNS approach in M-PBN

IPv6 features, addressing and packet encapsulation in M-PBN

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Local and remote scenarios for Gb over FR and Gb over IP

SGSN pool in M-PBN

Connectivity options from RNC to SGSN

Physical and logical connectivity of Gn interface, routing architecture for the Gn interface, roaming

Gi Interface Design Issues

Scenarios for Corporate Access

Module 4: M-PBN R5.1 Network View

Network Modules Overview

M-PBN Security

M-PBN O&M Network

Charging (incl. SACC overview)

M-PBN Quality of Service

Module 5: M-PBN R5.1 Transport Backbone

Transport backbone technology choice

Site infrastructure design

Client module connectivity to backbone for CS and PS Access, Core and External networks

IP/MPLS backbone design

QoS (backbone specific)

Module 6: M-IMS in M-PBN R5.1

Describe M-IMS R4.0 in M-PBN R5’s solution scope

Understand the 3GPP Architecture Evolution (R99 to R5)

Understand the IMS Architecture

Explain the End-to-End M-IMS QoS Architecture

Understand the Registration Process and Describe the CSCF Discovery

Understand the Session Establishment Process

Describe Traffic Flows in M-IMS

Describe the IMS Reference Points

Understand the functionality of the iDNS and eDNS

Describe the connectivity for Extreme nodes and Ericsson’s IS nodes

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Target audience


Prerequisites







The length of the course is 6 days if all modules are taken, and the maximum number of participants is 16.

Modules can be taken in the following combinations:

For focus on CS: 1+2 or 1+2+4 or 1+2+4+5

For focus on PS: 1+3 or 1+3+4 or 1+3+4+5

For backbone focus only: 1+5

For CS and PS (without backbone): 1+2+3+4

For focus on PS and IMS: 1+3+6 or 1+3+4+6 or 1+3+4+5+6

Complete scope: 1+2+3+4+5+6

Learning situation


17

Mobile-PBN R6.0 Delta (Note: contracted customers only!)

LZU 108 7000 R1A

Description

Do you wish to know the advantages of the new and enhanced features introduced in M-PBN R6.0 If so, this is the course for you. It addresses the impact of the M-PBN R6.0 implementation in Circuit Switch, Packet Switch, Infrastructure and Transport Network on M-PBN R6.0 based on Juniper Routers. It also describes new products verified and supported by Mobile-PBN R6.0.

Learning objectives


1 Describe the Products that have been verified with Mobile-PBN R6.0

2 Explain the Packet Switching updates 2.1 Describe the logical and physical connections with SGSN R8 2.2 Describe the design for 3GDT solution 2.3 Explain alternative design solutions for the Gi Internet firewall

3 Explain the changes in supported nodes and upgrade solution for MSS in Circuit

Switching solution

4 Describe changes to the Site Infrastructure and Backbone solution 4.1 Describe the new Juniper Products supported 4.2 Describe changes to the MPLS Backbone design 4.3 Explain the IGP choice 4.4 Explain Link Scalability 4.5 Explain Carrier Ethernet solutions as alternatives 4.6 Describe Juniper-Redback interoperability

5 Describe other features changes such including O&M Network ,Charging and IMS

solutions

Target audience

The target audience for this course is: Network Designers, Network Deployment Engineers, Service Design Engineers, System Engineers

Prerequisites



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Competence in M-PBN R5.0 or R5.1


The length of the course is 1 days and the maximum number of participants is 16

Learning situation


Time schedule



1 Products that have been verified with Mobile-PBN R6.0

Packet Switching updates

Circuit Switching updates

30 mins

1 hour 30 mins

30 mins

Infrastructure and Backbone 1 hour 30 mins

Other features 1 hour

Mobile Packet Backbone Network (Mobile-PBN) Concepts 6.0 Juniper Track (Note: contracted customers only!)

LZU -108 7002 R1A

Description

Your network is based on Mobile-PBN R6.0 with Juniper routers and you need to understand the concepts?

Then this course is for you. It provides an insight and understanding of the Mobile-PBN R6.0 architecture, concepts and design.

You will learn about the scope of the Mobile-PBN R6.0 reference network based on Juniper, the products involved as well as applied concepts and designs. You also will learn about Ericsson’s IMS and its connectivity into the M-PBN

Learning objectives


The participants will understand the main concepts under the Mobile-PBN R6.0 Solution: Modularity, Scalabilty, Resilience, Security and QoS.

Module 1: Mobile-PBN R6.0 Overview

1 Explain the overview of the Ericsson Mobile Packet Backbone Network R6.0

(Mobile-PBN R6.0 Juniper Track) 2 Explain the challenges faced in regards to the mobile operators’ backbone

infrastructure 3 Detail the advantages of design modularity 4 Explain the Mobile-PBN R6.0 solution and products 5 Explain two Mobile-PBN R6.0 solution variants 6 Identify the infrastructure nodes in the Mobile-PBN 6.0 model 7 Explain the Mobile-PBN R6.0 Reference Network design 8 Identify the nodes in the Ericsson Mobile Packet Backbone Network R6.0 (Mobil

PBN R6.0 Juniper Track) 9 Explain the connectivity requirements 10 Identify the site infrastructure requirements

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11 Explain the basics of the technology used in the Ericsson Mobile Packet Backbone Network R6.0 (Mobile-PBN R6.0 Juniper Track)

12 Explain the connectivity requirements 13 Identify the site infrastructure requirements

Module 2: Mobile-PBN R6.0 Network View


the Mobile-PBN R6.0 design. 2 List the various Network Modules within the Mobile-PBN R6.0 design solution 3 Explain the new Security Solution as part of the Ericsson design in the Mobile-

Packet Backbone Network. 4 Describe the Security Domain Network Security 5 Describe the Security Design Options available. 6 Describe the Security Services applied for different traffic types 7 Describe Security Management 8 Explain the O&M Network design as part of the Ericsson design in the Mobile-

Packet Backbone Network. 9 Describe the Mobile-PBN R6.0 Operation and Maintenance (O&M) network used


10 Describe the Juniper O&M Solution 11 Describe the charging solution for Mobile-PBN R6.0 12 Describe how to place and integrate the Charging System 4.0 and Multi-Mediation

5.0 in the Mobile Packet Backbone Network. 13 Describe the charging solutions based on SASN R6 or SACC 4.0 14 Describe the connectivity (interfaces, required protocols, and the mechanisms for


15 Explain the general QoS purpose 16 Describe the 3GPP QoS model 17 Describe the Mobile-PBN QoS solution 18 Describe the Juniper Routers QoS solution

Module 3: Mobile-PBN R6.0 Transport Backbone

1 Describe Mobile-PBN R6.0 transport backbone solution scope and requirement 2 Describe Mobile-PBN R6.0 transport backbone solution scope and limitations 3 Describe client requirements on transport backbone 4 Describe site infrastructure scope and purpose 5 Describe Mobile-PBN site switch hardware options 6 Describe site infrastructure Ethernet connectivity and VLAN traffic separation

principles and security design 7 Describe site switch redundancy mechanisms and design for high availability 8 Describe the Site Infrastructure QoS

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9 Explain client modules connectivity options 10 Describe backbone connectivity for the Access network client modules: WCDMA

and GPRS 11 Describe backbone connectivity for the Core network client modules: AAL2, Gn and

SS7 12 Describe backbone connectivity for the External network client modules: Gi

Corporate 13 Describe Mobile-PBN transport backbone module design 14 Describe Mobile-PBN intra-site and inter-site connectivity choices 15 Explain IGP, internal BGP and client NW routing choice in Mobile-PBN backbone

routing design 16 Explain the chosen solution in Mobile-PBN IP/MPLS transport backbone design 17 Explain Mobile-PBN QoS solution in transport backbone 18 Describe availability considerations 19 Describe the design solution based on Carrier Ethernet 20 Describe Juniper-Redback Interoperability

Module 4: Mobile-PBN R6.0 Circuit Switched (CS)

1 Explain the Mobile-PBN R6.0 Scope and Requirement 2 Explain Mobile-PBN R6.0 CS solution scope and goals 3 Describe CS requirements on IP transport backbone 4 Describe Mobile-PBN R6.0 backbone technology choice 5 Explain SS7 over IP signaling design goals and architecture 6 Describe physical and IP connectivity 7 Describe SCTP layer 8 Describe M3UA and MTP3b layer scenarios 9 Explain MSS R4.2 GSM over IP network and protocol 10 Describe CS optimal IP transport technology choice 11 Describe optimal M-MGw selection, control layer and remote TDM, admission

control 12 Explain network redundancy 13 Describe physical and IP connectivity 14 Explain different MSS migration scenarios 15 Describe different classical MSC TDM to MSS IP migration scenarios 16 Describe MSS TDM to MSS IP migration 17 Describe MSS ATM to MSS IP migration 18 Explain the different possible MSS migration scenarios 19 Describe the principles & guidelines to migrate to Mobile-PBN R6.0

Module 5: Mobile-PBN R6.0 Packet Switched (PS)

1 Describe the advantages of SGSN pool 2 Explain the traffic cases of SGSN pool design guidelines 3 Describe protocol stack of IuPS interface

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4 Describe protocol stack of Gb interface 5 Explain scenario for Gb over IP 6 Describe the design guidelines for Gb interface 7 Explain scenarios for Iu over IP 8 Explain scenarios for Iur over IP 9 Describe 3GDT 10 Describe physical and logical connectivity of Gn interface 11 Explain the routing architecture of Gn interface 12 Describe physical and logical connectivity of roaming 13 Explain the routing architecture of roaming 14 Describe DNS 3 usage cases 15 Describe DNS physical and logical connectivity 16 Describe DNS failover cases 17 Describe Gi interface design issues like: MS IP address allocation, Subscriber

authentication, Accounting etc. 18 Describe the technologies used in traffic separation. 19 Describe the Gi Direct solution. 20 Describe the Gi Indirect solution 21 Understand Inband and Outband Radius server implementation 22 Describe the Gi Internet Firewall Solution 23 Describe the NPAT solution

Module 6: Mobile-PBN R6.0 IMS

1 Describe the IMS system 2 Explain what multimedia is 3 Briefly describe the IMS solutions, IMT, PTT, and weShare 4 Explain where IMS is positioned within the total telecoms picture 5 List some operator and end-user benefits of IMS. 6 Describe Ericsson IMS Solution Scope in Mobile-PBN R6.0 7 Describe the Ericsson IMS solution 8 Describe the components in IMS Common System 9 Describe the nodes included in IMS common system 10 Describe the IMS Application Subsystem 11 Understand what are security areas 12 Describe what are Security Zones 13 Describe what are Security Domains 14 Describe the IMS O&M Solution 15 Describe the O&M Security 16 Describe the Physical connectivity for the IMS nodes 17 Describe the Logical connectivity 18 Describe IP Routing in IMS nodes 19 Understand the QoS Recommendations for IMS 20 Understand the Registration Process 21 Describe the CSCF Discovery 22 Understand the Session Establishment Process 23 Describe Traffic Flows in M-IMS

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Course Contents

The course consists of five modules. Each of the modules has a duration of 1 day:



Ericsson Mobile Packet Backbone Network (Mobile-PBN) Introduction

Ericsson Mobile-PBN Design overview and network nodes selection criteria

Overview of the different technology used in the Mobile-PBN such as IP, ATM, MPLS, VPNs and SONET/SDH



Mobile-PBN Security

Mobile-PBN O&M Network

Charging (incl. SACC and SASN overview)

Mobile-PBN Quality of Service








Mobile-PBN CS solution scope and requirements




Migration to MSS

Upgrade of MSS Solution based on Mobile-PBN 6.0

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WCDMA/GSM GPRS networks

DNS concept and DNS approach in Mobile-PBN

3GDT Scenario in Mobile-PBN

IPv6 features, addressing and packet encapsulation in Mobile-PBN

Scenario for Gb over IP

Scenarios for IuPS/Iur over IP

SGSN pool in Mobile-PBN






IMS Solution Scope

3GPP IMS Solution

Ericsson ICS and IMT

IMS Infrastructure

IMS IP Connectivity

Network Reference Model and POI

Traffic Security aspects in IMS

Security Domains

O&M Solutions

Physical and Logical Connectivity for IMS

IP Routing in IMS Nodes

Traffic Flows in IMT

Target audience


Prerequisites



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For CS and PS (without backbone): 1+4+5

For IMS Scope only: 1+2+3+6


Learning situation


Mobile Packet Backbone Network (Mobile-PBN) Concepts 6.0 (Redback Track) (Note: contracted customers only!)

LZU -108 7001 R1A

Description

Your network is based on Mobile-PBN R6.0 with Redback routers and you need to understand the concepts?


You will learn about the scope of the Mobile-PBN R6.0 reference network based on Redback, the products involved as well as applied concepts and designs.

Learning objectives


The participants will understand the main concepts under the Mobile-PBN R6.0 Solution: Modularity, Scalabilty, Resilience, Security and QoS.


1 Explain the overview of the Ericsson Mobile Packet Backbone Network R6.0

(Mobile-PBN R6.0 Redback Track) 2 Explain the challenges faced in regards to the mobile operators’ backbone

infrastructure 3 Detail the advantages of design modularity 4 Explain the Mobile-PBN R6.0 solution and products 5 Explain two Mobile-PBN R6.0 solution variants 6 Identify the infrastructure nodes in the Mobile-PBN 6.0 model 7 Explain the Mobile-PBN R6.0 Reference Network design 8 Identify the nodes in the Ericsson Mobile Packet Backbone Network (Mobile-PBN)

R6.0 (Redback Track) 9 Explain the connectivity requirements 10 Identify the site infrastructure requirements 11 Explain the basics of the technology used in the Ericsson Mobile Packet Backbone

Network R6.0 (Mobile-PBN R6.0 Redback Track) 12 Explain the connectivity requirements 13 Identify the site infrastructure requirements

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the Mobile-PBN R6.0 design. 2 List the various Network Modules within the Mobile-PBN R6.0 design solution 3 Explain the new Security Solution as part of the Ericsson design in the Mobile-

Packet Backbone Network. 4 Describe the Security Domain Network Security 5 Describe the Security Design Options available. 6 Describe the Security Services applied for different traffic types 7 Describe Security Management 8 Explain the O&M Network design as part of the Ericsson design in the Mobile-

Packet Backbone Network. 9 Describe the Mobile-PBN R6.0 Operation and Maintenance (O&M) network used


10 Describe the Redback O&M Solution 11 Describe the charging solution for Mobile-PBN R6.0 12 Describe how to place and integrate the Charging System 4.0 and Multi-Mediation

5.0 in the Mobile Packet Backbone Network. 13 Describe the charging solutions based on SASN R6 or SACC 4.0 14 Describe the connectivity (interfaces, required protocols, and the mechanisms for


15 Explain the general QoS purpose 16 Describe the 3GPP QoS model 17 Describe the Mobile-PBN QoS solution 18 Describe the Redback Qos solution


1 Describe Mobile-PBN R6.0 transport backbone solution scope and requirement 2 Describe Mobile-PBN R6.0 transport backbone solution scope and limitations 3 Describe client requirements on transport backbone 4 Describe site infrastructure scope and purpose 5 Describe Mobile-PBN site switch hardware options 6 Describe site infrastructure Ethernet connectivity and VLAN traffic separation

principles and security design 7 Describe site switch redundancy mechanisms and design for high availability 8 Describe the Site Infrastructure QoS 9 Explain client modules connectivity options 10 Describe backbone connectivity for the Access network client modules: WCDMA

and GPRS

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11 Describe backbone connectivity for the Core network client modules: AAL2, Gn and SS7

12 Describe backbone connectivity for the External network client modules: Gi Corporate

13 Describe Mobile-PBN transport backbone module design 14 Describe Mobile-PBN intra-site and inter-site connectivity choices 15 Explain IGP, internal BGP and client NW routing choice in Mobile-PBN backbone

routing design 16 Explain the chosen solution in Mobile-PBN IP/MPLS transport backbone design 17 Explain Mobile-PBN QoS solution in transport backbone

18 Describe availability considerations 19 Describe the design solution based on Carrier Ethernet 20 Describe Juniper-Redback Interoperability


1 Explain the Mobile-PBN R6.0 Scope and Requirement 2 Explain Mobile-PBN R6.0 CS solution scope and goals 3 Describe CS requirements on IP transport backbone 4 Describe Mobile-PBN R6.0 backbone technology choice 5 Explain SS7 over IP signaling design goals and architecture 6 Describe physical and IP connectivity 7 Describe SCTP layer 8 Describe M3UA and MTP3b layer scenarios 9 Explain MSS R5.0 GSM over IP network and protocol 10 Describe CS optimal IP transport technology choice 11 Describe optimal M-MGw selection, control layer and remote TDM, admission

control 12 Explain network redundancy 13 Describe physical and IP connectivity 14 Explain different MSS migration scenarios 15 Describe different classical MSC TDM to MSS IP migration scenarios 16 Describe MSS TDM to MSS IP migration 17 Describe MSS ATM to MSS IP migration 18 Explain the different possible MSS migration scenarios 19 Describe the principles & guidelines to migrate to Mobile-PBN R6.0


1 Describe the advantages of SGSN pool 2 Explain the traffic cases of SGSN pool design guidelines 3 Describe protocol stack of IuPS interface 4 Describe protocol stack of Gb interface 5 Explain scenario for Gb over IP 6 Describe the design guidelines for Gb interface 7 Explain scenarios for Iu over IP

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8 Explain scenarios for Iur over IP 9 Describe 3GDT 10 Describe physical and logical connectivity of Gn interface 11 Explain the routing architecture of Gn interface 12 Describe physical and logical connectivity of roaming 13 Explain the routing architecture of roaming 14 Describe DNS 3 usage cases 15 Describe DNS physical and logical connectivity 16 Describe DNS failover cases 17 Describe Gi interface design issues like: MS IP address allocation, Subscriber

authentication, Accounting etc. 18 Describe the technologies used in traffic separation. 19 Describe the Gi Direct solution. 20 Describe the Gi Indirect solution 21 Understand Inband and Outband Radius server implementation 22 Describe the Gi Internet Firewall Solution 23 Describe the NPAT solution


1 Describe the IMS system 2 Explain what multimedia is 3 Briefly describe the IMS solutions, IMT, PTT, and weShare 4 Explain where IMS is positioned within the total telecoms picture 5 List some operator and end-user benefits of IMS. 6 Describe Ericsson IMS Solution Scope in Mobile-PBN R6.0 7 Describe the Ericsson IMS solution 8 Describe the components in IMS Common System 9 Describe the nodes included in IMS common system 10 Describe the IMS Application Subsystem 11 Understand what are security areas 12 Describe what are Security Zones 13 Describe what are Security Domains 14 Describe the IMS O&M Solution 15 Describe the O&M Security 16 Describe the Physical connectivity for the IMS nodes 17 Describe the Logical connectivity 18 Describe IP Routing in IMS nodes 19 Understand the QoS Recommendations for IMS 20 Understand the Registration Process 21 Describe the CSCF Discovery 22 Understand the Session Establishment Process 23 Describe Traffic Flows in M-IMS

Course Contents

The course consists of six modules. Each of the modules has a duration of 1 day:

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Ericsson Mobile Packet Backbone Network (Mobile-PBN) Introduction

Ericsson Mobile-PBN Design overview and network nodes selection criteria

Overview of the different technology used in the Mobile-PBN such as IP, ATM, MPLS, VPNs and SONET/SDH



Mobile-PBN Security

Mobile-PBN O&M Network

Charging (incl. SACC and SASN overview)

Mobile-PBN Quality of Service








Mobile-PBN CS solution scope and requirements




Migration to MSS

Upgrade of MSS Solution based on Mobile-PBN 6.0


WCDMA/GSM GPRS networks

DNS concept and DNS approach in Mobile-PBN

3GDT Scenario in Mobile-PBN

IPv6 features, addressing and packet encapsulation in Mobile-PBN

Scenario for Gb over IP

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Scenarios for IuPS/Iur over IP

SGSN pool in Mobile-PBN






IMS Solution Scope

3GPP IMS Solution

Ericsson ICS and IMT

IMS Infrastructure

IMS IP Connectivity

Network Reference Model and POI

Traffic Security aspects in IMS

Security Domains

O&M Solutions

Physical and Logical Connectivity for IMS

IP Routing in IMS Nodes

Traffic Flows in IMT

Target audience


Prerequisites






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For CS and PS (without backbone): 1+4+5

For IMS Scope only: 1+2+3+6


Learning situation


33

SmartEdge R5 add-on MPLS L3 using IS-IS infrastructure Configuration and Monitoring

LZU 108 7073 R1A

Description

SmartEdge R5 Add-on MPLS L3 using IS-IS infrastructure Configuration and Monitoring, available for students who did or will participate in a course package containing SmartEdge Foundation course as well SmartEdge IS-IS and BGP add-on modules.

A 2-day lecture and lab course targeted at second level Network Operation Center staff and other staff who primarily need to configure and troubleshoot the Redback SmartEdge within MPLS L3 VPN environment.

Learning objectives


1. Understand relation between MPLS Layer 3 VPN and routing 2. Enable MPLS Layer 3 VPN 3. Build and verify MPLS Layer 3 sites 4. Understand packet flow end to end walk-through

Target audience

The target audience for this course is: Network Deployment Engineer, System Engineer

Prerequisites

The participants should be familiar with and have practical experience with IP networks as well as a solid understanding of general networking technologies.

Successful completion of the following courses:

SmartEdge R5 Foundation LZU 108 6938 (1-day)

SmartEdge R5 Add-on IS-IS Configuration and Monitoring LZU 108 6941 (2 days) or have similar knowledge

SmartEdge R5 Add-on BGP Configuration and Monitoring LZU 108 6973 (1-day) or have similar knowledge

Minimum knowledge requirement for students attending this course module:

IP network design (IPv4 address planning, IPv4 general routing concepts, IPv4 address resolution mechanisms)

IS-IS design (Configuration and verification of infrastructure)

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BGP design (Configuration and verification of BGP)



Learning situation

This course is based on theoretical instructor-led lessons given in a classroom environment combined with Educational modules including hands-on labs and student test cases. Most modules finish with quiz sessions, stimulating a good interactive atmosphere during the training, as well validates the information exchange between Instructor and Student

Time schedule



1&2 Introduction

MPLS 101

Put things in place within the SmartEdge

MPLS L3 VPN lab topology

Configuration flow diagram

Configure IP backbone connectivity

Configure ISIS backbone infrastructure

Configure MPLS and LDP (outer label)

Configure L3 VPN (inner label)

Configure VPN context

Configure CE Router connection

End to end packet flow walk through verification

LSP scalability

CE to PE using OSPF exercise

CE to PE using ISIS exercise

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Mobile Packet Backbone Network (M-PBN) R6.1 Concepts - Redback track

LZU1087551 R1A

Description




Learning objectives


1 Explain Mobile-PBN R6.1 Overview 1.1 Explain the overview of the Ericsson Mobile Packet Backbone Network R6.1 (Mobile-

PBN R6.1 Redback Track) 1.2 Explain the challenges faced in regards to the mobile operators’ backbone

infrastructure 1.3 Detail the advantages of design modularity 1.4 Explain the Mobile-PBN R6.1 solution and products 1.5 Explain two Mobile-PBN R6.1 solution variants 1.6 Identify the infrastructure nodes in the Mobile-PBN 6.1 model 1.7 Explain the Mobile-PBN R6.1 Reference Network design 1.8 Identify the nodes in the Ericsson Mobile Packet Backbone Network R6.1 (Mobile-

PBN R6.1 Redback Track) 1.9 Explain the connectivity requirements 1.10 Identify the site infrastructure requirements 1.11 Explain the basics of the technology used in the Ericsson Mobile Packet Backbone

Network R6.1 (Mobile-PBN R6.1 Redback Track) 1.12 Explain the connectivity requirements 1.13 Identify the site infrastructure requirements

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2 Explain Mobile-PBN R6.1 Transport Backbone 2.1 Describe Mobile-PBN R6.1 transport backbone solution scope and requirement 2.2 Describe Mobile-PBN R6.1 transport backbone solution scope and limitations 2.3 Describe client requirements on transport backbone 2.4 Describe site infrastructure scope and purpose 2.5 Describe Mobile-PBN site switch hardware options 2.6 Describe site infrastructure Ethernet connectivity and VLAN traffic separation

principles and security design 2.7 Describe site switch redundancy mechanisms and design for high availability 2.8 Describe the Site Infrastructure QoS 2.9 Explain client modules connectivity options 2.10 Describe backbone connectivity for the Access network client modules: WCDMA and

GPRS 2.11 Describe backbone connectivity for the Core network client modules: AAL2, Gn and

SS7 2.12 Describe backbone connectivity for the External network client modules: Gi Corporate 2.13 Describe Mobile-PBN transport backbone module design 2.14 Describe Mobile-PBN intra-site and inter-site connectivity choices 2.15 Explain IGP, internal BGP and client NW routing choice in Mobile-PBN backbone

routing design 2.16 Explain the chosen solution in Mobile-PBN IP/MPLS transport backbone design 2.17 Explain Mobile-PBN QoS solution in transport backbone 2.18 Describe availability considerations 2.19 Explain the general QoS purpose 2.20 Describe the 3GPP QoS model 2.21 Describe the Mobile-PBN QoS solution 2.22 Describe the Redback Qos solution 2.23 Describe the design solution based on Carrier Ethernet 2.24 Describe Juniper-Redback Interoperability

3 Explain Mobile-PBN R6.1 Circuit Switched 3.1 Explain the Mobile-PBN R6.1 Scope and Requirement 3.2 Describe CS requirements on IP transport backbone 3.3 Describe Mobile-PBN R6.1 backbone technology choice 3.4 Understand the concepts of MSS R5.1 IP signaling design 3.5 Understand SS7 over IP signaling design goals and architecture 3.6 Describe physical and IP connectivity 3.7 Describe SCTP layer 3.8 Describe M3UA , M2PA and MTP3b layer scenarios 3.9 Describe PRA implementation in MPBN 3.10 Understand the concepts of MSS R5.1 IP transport design 3.11 Understand MSS R5.1 GSM/WCDMA MSS solution using IP transport 3.12 Understand optimal M-MGw selection, control layer and remote TDM, admission

control 3.13 Describe physical and IP connectivity 3.14 Understand network redundancy 3.15 Understand the concepts of MSS SIP interworking 3.16 Understand the operator scenario 3.17 Describe SIP/SIP-I Inter-working Principle

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3.18 Describe VLAN and VPN architecture 3.19 Describe the connectivity to all nodes

4 Explain Mobile-PBN R6.1 Packet Switched 4.1 Describe Access Network solution 4.2 Describe how 3G Direct Tunnelling works 4.3 Describe the advantages of SGSN pool 4.4 Explain the traffic cases of SGSN pool design guidelines 4.5 Describe protocol stack of IuPS interface 4.6 Explain connectivity options from RNC to SGSN 4.7 Introduction of lur over IP 4.8 Describe protocol stack of Gb interface 4.9 Explain local and remote scenarios for Gb over IP 4.10 Understand the design guidelines for Gb interface 4.11 Describe the Gn, Gp and DNS Solution 4.12 Describe physical and logical connectivity of Gn interface 4.13 Understand the routing architecture of Gn interface 4.14 Describe physical and logical connectivity of roaming 4.15 Understand the routing architecture of roaming 4.16 Describe DNS 3 usage cases 4.17 Describe DNS physical and logical connectivity 4.18 Understand DNS failover 4.19 Describe the Gi Corporate Access solution. 4.20 Describe Gi interface design issues like: MS IP address allocation, Subscriber

authentication, Accounting etc 4.21 Describe the technologies used in traffic separation. 4.22 Describe the Gi Direct solution. 4.23 Describe the Gi Indirect solution 4.24 Understand Inband and Outband Radius server implementation 4.25 Describe the Gi Internet Connectivity Option

5 Explain Mobile-PBN R6.1 Network View 5.1 Describe the various levels of abstraction used to achieve logical modularization of

the Mobile-PBN R6.1 design. 5.2 List the various Network Modules within the Mobile-PBN R6.1 design solution 5.3 Explain the new Security Solution as part of the Ericsson design in the Mobile-Packet

Backbone Network. 5.4 Describe the Security Domain Network Security 5.5 Describe the Security Design Options available. 5.6 Describe the Security Services applied for different traffic types 5.7 Describe Security Management 5.8 Explain the O&M Network design as part of the Ericsson design in the Mobile-Packet

Backbone Network. 5.9 Describe the Mobile-PBN R6.1 Operation and Maintenance (O&M) network used for

transport of management traffic between network elements and O&M application servers residing in a Network Operation Center (NOC) for the Medium/Large Network Solutions

5.10 Describe the Redback O&M Solution 5.11 Describe the charging solution for Mobile-PBN R6.1

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5.12 Describe how to place and integrate the Charging System 4.0 and Multi-Mediation 5.0 in the Mobile Packet Backbone Network.

5.13 Describe the charging solutions based on SASN R6 or SACC 4.0 5.14 Describe the connectivity (interfaces, required protocols, and the mechanisms for


6 Explain Mobile-PBN R6.1 IMS 6.1 Describe the IMS system 6.2 Explain what multimedia is 6.3 Explain where IMS is positioned within the total telecoms picture. 6.4 Know which Standards Organizations involved in IMS 6.5 Understand Ericsson target network architecture. 6.6 List some operator and end-user benefits of IMS 6.7 Describe the Ericsson IMS solution 6.8 Describe the components in IMS Common System 6.9 Describe the nodes included in IMS common system 6.10 Describe the IMS nodes Platform 6.11 Describe Network security principle 6.12 Describe IMS Security Threats 6.13 Understand what are security areas 6.14 Describe what are Security Zones 6.15 Describe what are Security Domains 6.16 Understand the High Availability and Scalability Concept 6.17 Describe the Networking Concept 6.18 Describe the Physical connectivity for the IMS nodes 6.19 Describe the Logical connectivity 6.20 Describe IP Routing within IMS nodes 6.21 Describe the DNS Solution 6.22 Describe connectivity for new nodes MTAS,MRFP and HSS Geographical

Redundancy 6.23 Understand the Quality of Service Concept in IMS 6.24 Describe the QoS components and their physical connectivity 6.25 Understand the Registration Process 6.26 Describe the CSCF Discovery 6.27 Understand the Session Establishment Process 6.28 Describe Traffic Flows in M-IMS

Target audience

The target audience for this course is: Network Design Engineer, Network Deployment Engineer, Service Design Engineer, Service Engineer

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Prerequisites

The participants should be familiar with...or Successful completion of the following courses:

1 Competence in IP (MPLS VPNs, L2VPNs, IP QoS, routing (OSPF, BGP, IS-IS), VLAN tagging, etc

2 Competence in ATM (AAL2, AAL5, QoS)

3 Competence in CS and PS for WCDMA and GSM (Core Network Features of GSNs, MSS including Interfaces, routing features, O&M).

4 Competence in SS7 Signaling and SIGTRAN.



Learning situation

This course is based on theoretical instructor-led lessons given in a classroom environment, or given in a virtual classroom over the net by an instructor.

Time schedule

The time required always depends on the knowledge of the attending participants and the hours stated below can be used as estimate. (This paragraph is mandatory).


1 Mobile-PBN Introduction 1 hour

Solutions and Products 2 hours

Design Overview 2 hours

Technology 1 hour

2 Scope and Requirements 30 mins

Site Infrastructure 1 hour

Client Network Interface 1 hour

IP/MPLS Backbone Design 1 ½ hour

Quality of Service 1 hour

Backbone Design Options 1 hour

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3 Scope and requirements 30 mins

MSS R5.1 IP Signaling 2 hours

MSS R5.1 IP transport 2 hours

MSS SIP Interworking 1 hour

Migration to MSS 30 mins

4 Access Network 2 hours

GN/GP and DNS 2 hours

GI/ Corporate Access 2 hours

5 Overview 1 hour

Security 2 hours

O&M Network Design 2 hours

Charging 1 hour

6 IMS Introduction 30 mins

Ericsson IMS Solution 1 hour

Security Solution 1 ½ hours

IP Connectivity 2 hours

Quality of Service 30 mins

Call Flow & Traffic Scenario 30 mins

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Mobile Packet Backbone Network (M-PBN) R6.1 Network View (Redback Track)

LZU1087530 R1A

Description

This course provides an insight and understanding of the Mobile-PBN R6.1 architecture, concepts and design related to Security, Operations and Maintenance and Charging Networks.


This module is part of a combination of modules to provide a complete reference overview of the Mobile-PBN R6.1.

Learning objectives


1 Describe Network View Overview 1.1 Describe the various levels of abstraction used to achieve logical modularization of

the Mobile-PBN R6.1 design. 1.2 List the various Network Modules within the Mobile-PBN R6.1 design solution

2 Explain the new Security Solution as part of the Ericsson design in Mobile-PBN 2.1 Describe the Security Domain Network Security 2.2 Describe the Security Design Options available. 2.3 Describe the Security Services applied for different traffic types 2.4 Describe Security Management

3 Explain O&M Network design as part of the Ericsson design in M-PBN 3.1 Describe the Mobile-PBN R6.1 Operation and Maintenance (O&M) network used for


3.2 Describe the Redback O&M Solution

4 Describe the charging solution for M-PBN 6.1 4.1 Describe how to place and integrate the Charging System 4.0 and Multi-Mediation 6.0

in the Mobile Packet Backbone Network. 4.2 Describe the charging solutions based on SASN R6 or SACC 4.0 4.3 Describe the connectivity (interfaces, required protocols, and the mechanisms for


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Target audience

The target audience for this course is: Service Design Engineer, Network Design Engineer, Network Deployment Engineer, Service Engineer

Prerequisites







The length of the course is 1 day and the maximum number of participants is 16.

Learning situation


Time schedule



1 Overview 1 hour

Security 2 hours


Charging 1 hour

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Mobile Packet Backbone Network (M-PBN) R6.1 Concepts - Transport Backbone (Redback Track)

LZU1087542 R1A

Description




Learning objectives


1 Explain of scope and requirements of Transport Backbone 1.1 Describe Mobile-PBN R6.1 transport backbone solution scope and requirement 1.2 Describe Mobile-PBN R6.1 transport backbone solution scope and limitations 1.3 Describe client requirements on transport backbone

2 Explain site Infrastructure of Transport Backbone 2.1 Describe site infrastructure scope and purpose 2.2 Describe Mobile-PBN site switch hardware options 2.3 Describe site infrastructure Ethernet connectivity and VLAN traffic separation

principles and security design 2.4 Describe site switch redundancy mechanisms and design for high availability 2.5 Describe the Site Infrastructure QoS

3 Explain client network interfaces 3.1 Explain client modules connectivity options 3.2 Describe backbone connectivity for the Access network client modules: WCDMA and


SS7 3.4 Describe backbone connectivity for the External network client modules: Gi Corporate

4 Describe IP/MPLS backbone design 4.1 Describe Mobile-PBN transport backbone module design 4.2 Describe Mobile-PBN intra-site and inter-site connectivity choices

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4.3 Explain IGP, internal BGP and client NW routing choice in Mobile-PBN backbone routing design

4.4 Explain the chosen solution in Mobile-PBN IP/MPLS transport backbone design 4.5 Describe availability considerations

5 Explain quality of service in transport backbone 5.1 Explain the general QoS purpose 5.2 Describe the 3GPP QoS model 5.3 Describe the Mobile-PBN QoS solution 5.4 Describe the Redback Qos solution

6 Explain backbone design options 6.1 Describe the design solution based on Carrier Ethernet 6.2 Describe Juniper-Redback Interoperability

Target audience


Prerequisites








Learning situation


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Time schedule






IP/MPLS Backbone Design 1 ½ hour



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Mobile Packet Backbone Network (M-PBN) R6.1 Overview (Redback Track)

LZU1087529 R1A

Description



You will learn about the scope of the Mobile-PBN R6.1 reference network based on Juniper, the products involved as well the technology related to understanding the Mobile-PBN design


Learning objectives


1 Explain the overview of the Ericsson Mobile Packet Backbone Network R6.1 (Mobile-PBN R6.1 Redback Track)

1.1 Explain the challenges faced in regards to the mobile operators’ backbone infrastructure

1.2 Detail the advantages of design modularity

2 Explain the Mobile-PBN R6.1 solution and products 2.1 Explain two Mobile-PBN R6.1 solution variants 2.2 Identify the infrastructure nodes in the Mobile-PBN 6.1 model

3 Explain the Mobile-PBN R6.1 Reference Network design 3.1 Identify the nodes in the Ericsson Mobile Packet Backbone Network (Mobile-PBN)

R6.1 (Redback Track) 3.2 Explain the connectivity requirements 3.3 Identify the site infrastructure requirements

4 Explain the basics of the technology used in the Ericsson Mobile Packet Backbone Network R6.1 (Mobile-PBN R6.1 Redback Track)

4.1 Explain the connectivity requirements 4.2 Identify the site infrastructure requirements

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Target audience


Prerequisites








Learning situation


Time schedule




Solutions and Products 2 hours


Technology 1 hour

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Mobile Packet Backbone Network (M-PBN) R6.1 Concepts - Juniper track

LZU1087548 R1A

Description



You will learn about the scope of the Mobile-PBN R6.1 reference network based on Juniper, the products involved as well as applied concepts and designs. You also will learn about Ericsson’s IMS and its connectivity into the M-PBN

Learning objectives


1 Explain Mobile-PBN R6.1 Overview 1.1 Explain the overview of the Ericsson Mobile Packet Backbone Network R6.1 (Mobile-

PBN R6.1 Juniper Track) 1.2 Explain the challenges faced in regards to the mobile operators’ backbone

infrastructure 1.3 Detail the advantages of design modularity 1.4 Explain the Mobile-PBN R6.1 solution and products 1.5 Explain two Mobile-PBN R6.1 solution variants 1.6 Identify the infrastructure nodes in the Mobile-PBN 6.1 model 1.7 Explain the Mobile-PBN R6.1 Reference Network design 1.8 Identify the nodes in the Ericsson Mobile Packet Backbone Network R6.1 (Mobile-

PBN R6.1 Juniper Track) 1.9 Explain the connectivity requirements 1.10 Identify the site infrastructure requirements 1.11 Explain the basics of the technology used in the Ericsson Mobile Packet Backbone

Network R6.1 (Mobile-PBN R6.1 Juniper Track) 1.12 Explain the connectivity requirements 1.13 Identify the site infrastructure requirements

2 Explain Mobile-PBN R6.1 Transport Backbone 2.1 Describe Mobile-PBN R6.1 transport backbone solution scope and requirement 2.2 Describe Mobile-PBN R6.1 transport backbone solution scope and limitations 2.3 Describe client requirements on transport backbone

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2.4 Describe site infrastructure scope and purpose 2.5 Describe Mobile-PBN site switch hardware options 2.6 Describe site infrastructure Ethernet connectivity and VLAN traffic separation

principles and security design 2.7 Describe site switch redundancy mechanisms and design for high availability 2.8 Describe the Site Infrastructure QoS 2.9 Explain client modules connectivity options 2.10 Describe backbone connectivity for the Access network client modules: WCDMA and


SS7 2.12 Describe backbone connectivity for the External network client modules: Gi Corporate 2.13 Describe Mobile-PBN transport backbone module design 2.14 Describe Mobile-PBN intra-site and inter-site connectivity choices 2.15 Explain IGP, internal BGP and client NW routing choice in Mobile-PBN backbone

routing design 2.16 Explain the chosen solution in Mobile-PBN IP/MPLS transport backbone design 2.17 Explain Mobile-PBN QoS solution in transport backbone 2.18 Describe availability considerations 2.19 Explain the general QoS purpose 2.20 Describe the 3GPP QoS model 2.21 Describe the Mobile-PBN QoS solution 2.22 Describe the Redback Qos solution 2.23 Describe the design solution based on Carrier Ethernet 2.24 Describe Juniper-Redback Interoperability

3 Explain Mobile-PBN R6.1 Circuit Switched 3.1 Explain the Mobile-PBN R6.1 Scope and Requirement 3.2 Describe CS requirements on IP transport backbone 3.3 Describe Mobile-PBN R6.1 backbone technology choice 3.4 Understand the concepts of MSS R5.1 IP signaling design 3.5 Understand SS7 over IP signaling design goals and architecture 3.6 Describe physical and IP connectivity 3.7 Describe SCTP layer 3.8 Describe M3UA , M2PA and MTP3b layer scenarios 3.9 Describe PRA implementation in MPBN 3.10 Understand the concepts of MSS R5.1 IP transport design 3.11 Understand MSS R5.1 GSM/WCDMA MSS solution using IP transport 3.12 Understand optimal M-MGw selection, control layer and remote TDM, admission

control 3.13 Describe physical and IP connectivity 3.14 Understand network redundancy 3.15 Understand the concepts of MSS SIP interworking 3.16 Understand the operator scenario 3.17 Describe SIP/SIP-I Inter-working Principle 3.18 Describe VLAN and VPN architecture 3.19 Describe the connectivity to all nodes

4 Explain Mobile-PBN R6.1 Packet Switched 4.1 Describe Access Network solution

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4.2 Describe how 3G Direct Tunnelling works 4.3 Describe the advantages of SGSN pool 4.4 Explain the traffic cases of SGSN pool design guidelines 4.5 Describe protocol stack of IuPS interface 4.6 Explain connectivity options from RNC to SGSN 4.7 Introduction of lur over IP 4.8 Describe protocol stack of Gb interface 4.9 Explain local and remote scenarios for Gb over IP 4.10 Understand the design guidelines for Gb interface 4.11 Describe the Gn, Gp and DNS Solution 4.12 Describe physical and logical connectivity of Gn interface 4.13 Understand the routing architecture of Gn interface 4.14 Describe physical and logical connectivity of roaming 4.15 Understand the routing architecture of roaming 4.16 Describe DNS 3 usage cases 4.17 Describe DNS physical and logical connectivity 4.18 Understand DNS failover 4.19 Describe the Gi Corporate Access solution. 4.20 Describe Gi interface design issues like: MS IP address allocation, Subscriber

authentication, Accounting etc 4.21 Describe the technologies used in traffic separation. 4.22 Describe the Gi Direct solution. 4.23 Describe the Gi Indirect solution 4.24 Understand Inband and Outband Radius server implementation 4.25 Describe the Gi Internet Connectivity Option

5 Explain Mobile-PBN R6.1 Network View 5.1 Describe the various levels of abstraction used to achieve logical modularization of

the Mobile-PBN R6.1 design. 5.2 List the various Network Modules within the Mobile-PBN R6.1 design solution 5.3 Explain the new Security Solution as part of the Ericsson design in the Mobile-Packet

Backbone Network. 5.4 Describe the Security Domain Network Security 5.5 Describe the Security Design Options available. 5.6 Describe the Security Services applied for different traffic types 5.7 Describe Security Management 5.8 Explain the O&M Network design as part of the Ericsson design in the Mobile-Packet

Backbone Network. 5.9 Describe the Mobile-PBN R6.1 Operation and Maintenance (O&M) network used for


5.10 Describe the Redback O&M Solution 5.11 Describe the charging solution for Mobile-PBN R6.1 5.12 Describe how to place and integrate the Charging System 4.0 and Multi-Mediation 5.0

in the Mobile Packet Backbone Network. 5.13 Describe the charging solutions based on SASN R6 or SACC 4.0

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5.14 Describe the connectivity (interfaces, required protocols, and the mechanisms for transferring charging information) between the Core Network Elements as included in Mobile-PBN and the needed charging systems

6 Explain Mobile-PBN R6.1 IMS 6.1 Describe the IMS system 6.2 Explain what multimedia is 6.3 Explain where IMS is positioned within the total telecoms picture. 6.4 Know which Standards Organizations involved in IMS 6.5 Understand Ericsson target network architecture. 6.6 List some operator and end-user benefits of IMS 6.7 Describe the Ericsson IMS solution 6.8 Describe the components in IMS Common System 6.9 Describe the nodes included in IMS common system 6.10 Describe the IMS nodes Platform 6.11 Describe Network security principle 6.12 Describe IMS Security Threats 6.13 Understand what are security areas 6.14 Describe what are Security Zones 6.15 Describe what are Security Domains 6.16 Understand the High Availability and Scalability Concept 6.17 Describe the Networking Concept 6.18 Describe the Physical connectivity for the IMS nodes 6.19 Describe the Logical connectivity 6.20 Describe IP Routing within IMS nodes 6.21 Describe the DNS Solution 6.22 Describe connectivity for new nodes MTAS,MRFP and HSS Geographical

Redundancy 6.23 Understand the Quality of Service Concept in IMS 6.24 Describe the QoS components and their physical connectivity 6.25 Understand the Registration Process 6.26 Describe the CSCF Discovery 6.27 Understand the Session Establishment Process 6.28 Describe Traffic Flows in M-IMS

Target audience


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Prerequisites








Learning situation


Time schedule



1 Overview (Overview) 1 hour

Security 2 hours


Technology 1 hour

2 Scope and Requirement (Transport Backbone) 1 hour


Client Network Interfaces 1 hour

IP/MPLS Backbone Design 1 hour


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3 Scope and Requirement (Circuit Switched) 1 hour

MSS R5.1 IP Signalling 2 hour

MSS R5.1 IP Transport 2 hour


4 Access Network (Packet Switched) 2 hours

Gn/Gp 2 hours

Gi 2 hours

5 Network View Overview (Network View) 1 hour

Security Design 2 hours


Charding Design 2 hours

6 Introduction (IMS) 1 hour

IMS Infrastructure 2 hours

IMS Security and O&M 1 hour

IMS IP Connectivity 1 hour


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Mobile Packet Backbone Network (M-PBN) R6.1 Overview (Juniper Track)

LZU1087531 R1A

Description



You will learn about the scope of the Mobile-PBN R6.1 reference network based on Juniper, the products involved as well the technology related to understanding the Mobile-PBN design


This learning product will evolve with the changes implemented in the Mobile-PBN Solution with each release

This course is meant as a foundation course for advanced Mobile-PBN courses.

Learning objectives


1 Explain the overview of the Ericsson Mobile Packet Backbone Network R6.1 (Mobile-PBN R6.1 Juniper Track)

1.1 Explain the challenges faced in regards to the mobile operators’ backbone infrastructure

1.2 Detail the advantages of design modularity

2 Explain the Mobile-PBN R6.1 solution and products 2.1 Explain two Mobile-PBN R6.1 solution variants 2.2 Identify the infrastructure nodes in the Mobile-PBN 6.1 model

3 Explain the Mobile-PBN R6.1 Reference Network design 3.1 Identify the nodes in the Ericsson Mobile Packet Backbone Network R6.0 (Mobile-

PBN R6.1 Juniper Track) 3.2 Explain the connectivity requirements 3.3 Identify the site infrastructure requirements

4 Explain the basics of the technology used in the Ericsson Mobile Packet Backbone Network R6.1 (Mobile-PBN R6.1 Juniper Track)

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4.1 Explain the connectivity requirements 4.2 Identify the site infrastructure requirements

Target audience

The target audience for this course is: Network Design Engineer, Service Design Engineer, Network Deployment Engineer, Service Engineer

Prerequisites








Learning situation


Time schedule




Mobile-PBN R6.1 Solutions and Products 2 hour

Design Overview 2 hour

Technology 1 hour

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Mobile Packet Backbone Network (M-PBN) R6.1 Network View (Juniper Track)

LZU1087532 R1A

Description

This course provides an insight and understanding of the Mobile-PBN R6.1 architecture, concepts and design related to Security, Operations and Maintenance and Charging Networks.



Learning objectives


1 Describe Network View Overview 1.1 Describe the various levels of abstraction used to achieve logical modularization of

the Mobile-PBN R6.1 design. 1.2 List the various Network Modules within the Mobile-PBN R6.1 design solution

2 Explain the new Security Solution as part of the Ericsson design in Mobile-PBN 2.1 Describe the Security Domain Network Security 2.2 Describe the Security Design Options available. 2.3 Describe the Security Services applied for different traffic types 2.4 Describe Security Management

3 Explain O&M Network design as part of the Ericsson design in M-PBN 3.1 Describe the Mobile-PBN R6.1 Operation and Maintenance (O&M) network used for


3.2 Describe the Juniper O&M Solution

4 Describe the charging solution for M-PBN 6.1 4.1 Describe the charging solution for M-PBN R6.1 4.2 Describe how to place and integrate the Charging System 4.0 and Multi-Mediation 6.0

in Mobile-PBN 4.3 Describe charging solutions based on SASN R6 or SACC 4.0

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4.4 Describe the connectivity (interfaces, required protocols, and the mechanisms for transferring charging information) between the Core Network Elements as included in Mobile-PBN and the needed charging systems

Target audience


Prerequisites








Learning situation


Time schedule



1 Overview 1 hour

Security 2 hours

Network View O&M 2 hours

Charging 1 hour

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Mobile Packet Backbone Network (M-PBN) R6.1 Concepts - Transport Backbone (Juniper Track)

LZU1087533 R1A

Description



You will learn about the scope of the Mobile-PBN R6.1 reference network based on Juniper, the products involved as well as applied concepts and designs.

Learning objectives


1 Explain the scope and requirement 1.1 Describe Mobile-PBN R6.1 transport backbone solution scope and requirement 1.2 Describe Mobile-PBN R6.1 transport backbone solution scope and limitations 1.3 Describe client requirements on transport backbone

2 Explain site infrastructure 2.1 Describe site infrastructure scope and purpose 2.2 Describe Mobile-PBN site switch hardware options 2.3 Describe site infrastructure Ethernet connectivity and VLAN traffic separation


3 Explain client network interface 3.1 Explain client modules connectivity options 3.2 Describe backbone connectivity for the Access network client modules: WCDMA and



4 Explain IP/MPLS backbone design 4.1 Describe Mobile-PBN transport backbone module design 4.2 Describe Mobile-PBN intra-site and inter-site connectivity choices 4.3 Explain IGP, internal BGP and client NW routing choice in Mobile-PBN backbone

routing design

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4.4 Explain the chosen solution in Mobile-PBN IP/MPLS transport backbone design 4.5 Describe availability considerations

5 Explain Quality of Service 5.1 Explain the general QoS purpose 5.2 Describe the 3GPP QoS model 5.3 Describe the Mobile-PBN QoS solution 5.4 Describe the Juniper Qos solution

6 Describe backbone design option 6.1 Describe the design solution based on Carrier Ethernet 6.2 Describe Juniper-Redback Interoperability

Target audience

The target audience for this course is: Network Design Engineer, Network Deployment Engineer, Service Design Engineer, Service Engineer

Prerequisites








Learning situation


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Time schedule






IP/MPLS Backbone Design 2 hour


Backbone Design Options 30 mins

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Mobile Packet Backbone Network (M-PBN) R6.1 Concepts - Circuit Switched

LZU1087534 R1A

Description

You will learn about the scope of the Mobile-PBN R6.1 Circuit Switch network, the products involved as well as applied concepts and designs.

Learning objectives


1 Explain Mobile-PBN R6.1 Circuit Switch solution scope and requirement 1.1 Describe CS requirements on IP transport backbone 1.2 Describe Mobile-PBN backbone technology choice

2 Explain SS7 over IP signaling design goals and architecture 2.1 Describe physical and IP connectivity 2.2 Describe SCTP layer 2.3 Describe M3UA , M2PA and MTP3b layer scenarios 2.4 Describe PRA implementation in MPBN

3 Explain MSS R5.1 Transport over IP network and protocol 3.1 Understand MSS R5.1 GSM/WCDMA MSS solution using IP transport 3.2 Understand optimal M-MGw selection, control layer and remote TDM, admission

control 3.3 Describe physical and IP connectivity 3.4 Understand network redundancy

4 Explain MSS SIP Interworking scenarios 4.1 Understand the operator scenario 4.2 Describe SIP/SIP-I Inter-working Principle 4.3 Describe VLAN and VPN architecture 4.4 Describe the connectivity to all nodes

5 Explain different MSS migration scenarios 5.1 Describe different network migration strategies 5.2 Explain different migration methods 5.3 Explain MSS TDM to MSS IP migration 5.4 Explain MSS ATM to MSS IP migration

Target audience

The target audience for this course is: Network Design Engineer, Network Deployment Engineer, Service Design Engineer, System Engineer

Prerequisites

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GSM or WCDMA Core Network Overview

GSM or WCDMA System Survey

SS7 Signaling and SIGTRAN.

MSS 5.1 Nodes and Interfaces



Learning situation


Time schedule



1 Scope and requirements 30 mins


MSS R5.1 IP transport 2 hours


Migration to MSS 30 mins

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Mobile Packet Backbone Network (M-PBN) R6.1 Concepts – IMS

LZU1087536 R1A

Description

The course is designed to provide an understanding of the Mobile-PBN R6.1 IMS network designs and students will be able to use this knowledge to appreciate and recognize the concepts in their network.

The students will understand the main concepts under the Mobile-PBN R6.1 IMS Solution: Modularity, Scalabilty, Resilience, Security, QoS

Learning objectives


1 Describe the IMS System 1.1 Explain what multimedia is. 1.2 Explain where IMS is positioned within the total telecoms picture. 1.3 Know which Standards Organizations involved in IMS 1.4 Understand Ericsson target network architecture. 1.5 List some operator and end-user benefits of IMS.

2 Describe the Ericsson IMS solution 2.1 Describe the components in IMS Common System 2.2 Describe the nodes included in IMS common system 2.3 Describe the IMS nodes Platform

3 Describe Network security principle 3.1 Describe IMS Security Threats 3.2 Understand what are security areas 3.3 Describe what are Security Zones 3.4 Describe what are Security Domains

4 Understand the High Availability and Scalability Concept 4.1 Describe the Networking Concept 4.2 Describe the Physical connectivity for the IMS nodes 4.3 Describe the Logical connectivity 4.4 Describe IP Routing within IMS nodes 4.5 Describe the DNS Solution 4.6 Describe connectivity for new nodes MTAS,MRFP and HSS Geographical

Redundancy

5 Understand the Quality of Service Concept in IMS

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5.1 Describe the QoS components and their physical connectivity

6 Understand the Registration Process 6.1 Describe the CSCF Discovery 6.2 Understand the Session Establishment Process 6.3 Describe Traffic Flows in M-IMS

Target audience


Prerequisites



GSM or WCDMA System Survey

IMS Overview



Learning situation


Time schedule



1 IMS Introduction 30 mins

Ericsson IMS Solution 1 hour

Security Solution 1 ½ hours

IP Connectivity 2 hours

Quality of Service 30 mins

Call Flow & Traffic Scenario 30 mins

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Mobile Packet Backbone Network (M-PBN) R6.1 Concepts - Packet Switched

LZU1087535 R1A

Description

Your network is based on Mobile-PBN R6.1 including Packet Switch nodes and you need to understand the concepts?

Then this course is for you. It provides an insight and understanding of the Mobile-PBN R6.1 Packet Switch architecture, concepts and design.

You will learn about the scope of the Mobile-PBN R6.1 Packet Switch network solution, the products involved as well as applied concepts and designs

Learning objectives


1 Describe Access Network solution 1.1 Describe how 3G Direct Tunnelling works 1.2 Describe the advantages of SGSN pool 1.3 Explain the traffic cases of SGSN pool design guidelines 1.4 Describe protocol stack of IuPS interface 1.5 Explain connectivity options from RNC to SGSN 1.6 Introduction of lur over IP 1.7 Describe protocol stack of Gb interface 1.8 Explain local and remote scenarios for Gb over IP 1.9 Understand the design guidelines for Gb interface

2 Describe the Gn, Gp and DNS Solution 2.1 Describe physical and logical connectivity of Gn interface 2.2 Understand the routing architecture of Gn interface 2.3 Describe physical and logical connectivity of roaming 2.4 Understand the routing architecture of roaming 2.5 Describe DNS 3 usage cases 2.6 Describe DNS physical and logical connectivity 2.7 Understand DNS failover cases

3 Describe the Gi Corporate Access solution 3.1 Describe Gi interface design issues like: MS IP address allocation, Subscriber

authentication, Accounting etc. 3.2 Describe the technologies used in traffic separation. 3.3 Describe the Gi Direct solution. 3.4 Describe the Gi Indirect solution

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3.5 Understand Inband and Outband Radius server implementation 3.6 Describe Gi Internet Connectivity Option

Target audience


Prerequisites



GPRS System Survey



Learning situation


Time schedule



1 Access Network 2 hours

GN/GP and DNS 2 hours

GI/ Corporate Access 2 hours

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Mobile Packet Backbone Network (M-PBN) R7.0 Concepts - Circuit Switched - Juniper Track

LZU 108 7638 R1A

Description

This course cover the scope of the Mobile-PBN R7.0 Circuit Switched network, the products involved as well as applied concepts and designs. On top of that, the content also includes Overview, Network View and Transport backbone of Mobile-PBN R7.0 using Juniper products.

Learning objectives


Overview

1 Understand the overview of the Ericsson M-PBN R7.0 1.1 Discuss the challenges faced in regards to the mobile operators’ backbone

infrastructure 1.2 List the advantages of design modularity

2 List M-PBN R7.0 solution and products 2.1 Differentiate between M-PBN R7.0 solution variants

3 Illustrate M-PBN R7.0 Reference Network design 3.1 List the nodes in the Ericsson M-PBN R7.0 3.2 Identify the connectivity and site infrastructure requirements

4 Explain the basics of the technology used in the Ericsson M-PBN R7.0 4.1 Understand IP Routing and Routing Protocols,VPN Technology, ATM principles and

security concepts in IP. 4.2 Explain the connectivity requirements for Circuit and Packet Switched networks 4.3 Identify the site infrastructure

Transport Backbone

5 Explain the scope and requirement 5.1 Describe M-PBN R7.0 transport backbone solution scope, requirement and limitations

5.2 Understand client requirements on transport backbone

6 Understand M-PBN R7.0 site infrastructure 6.1 Describe site infrastructure scope, purpose and QoS 6.2 Identify M-PBN site switch hardware options 6.3 Understand Redback Integrated Routing and Bridging (IRB) 6.4 Describe site infrastructure Ethernet connectivity and VLAN traffic separation

principles and security design 6.5 Describe site switch redundancy mechanisms and design for high availability

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7 Describe client network interface 7.1 Explain client modules connectivity options 7.2 Describe backbone connectivity for the Access network client modules: WCDMA and



8 Illustrate IP/MPLS backbone design 8.1 Describe M-PBN transport backbone module design 8.2 Describe M-PBN intra-site and inter-site connectivity choices 8.3 Explain IGP, internal BGP and client NW routing choice in Mobile-PBN backbone

routing design 8.4 Explain the chosen solution in Mobile-PBN IP/MPLS transport backbone design

9 Discuss the Quality of Service in transport backbone 9.1 Explain the general QoS purpose 9.2 Describe 3GPP QoS model, M-PBN QoS solution and Redback QoS solution

10 Discuss backbone design options 10.1 Describe Juniper-Redback Interoperability 10.2 Describe Large Scale Network

Circuit Switched


12 Understand MSS R5.2 IP Signaling 12.1 Describe physical and IP connectivity 12.2 Understand M3UA, M2PA and MTP3b layer scenarios 12.3 Discuss PRA implementation in M-PBN 12.4 Describe the UDC Design and implementation 12.5 Explain the MSC-BC implementation

13 Understand MSS R5.2 IP transport 13.1 Understand MSS R5.2 GSM/WCDMA MSS solution using IP transport 13.2 Understand optimal M-MGw selection, control layer and remote TDM, admission


14 Identify MSS SIP Interworking scenarios 14.1 Understand the operator scenario 14.2 Describe SIP/SIP-I Inter-working Principle 14.3 Describe VLAN and VPN architecture 14.4 Illustrate the connectivity to all nodes

15 Differentiate between MSS migration scenarios 15.1 Describe different network migration strategies 15.2 Explain different migration methods

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Network View

16 Discuss Network View Overview 16.1 Describe the various levels of abstraction used to achieve logical modularization of


17 Understand the new Security Solution as part of the Ericsson design in M-PBN 17.1 Describe the Security Domain Network Security and Design Options available. 17.2 Describe the Security Services applied for different traffic types 17.3 Describe Security Management

18 Illustrate O&M Network design as part of the Ericsson design in M-PBN 18.1 Describe the M-PBN R7.0 Operation and Maintenance (O&M) network used for



19 Describe the charging solution for M-PBN R7.0 19.1 Describe how to place and integrate the Charging System 4.0 and Multi-Mediation 7.0

in Mobile-PBN 19.2 Describe charging solutions based on SASN R6 or SACC 4.0 19.3 Describe the between the Core Network Elements as included in M-PBN and the

needed charging systems

Target audience

The target audience for this course is: Network Design Engineer, Network Deployment Engineer, Service Design Engineer, Service Deployment Engineer, Service Planning Engineer, System Technician, System Engineer, Field Technician, Service Planning Engineer, Service Engineer

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Prerequisites


• Competence in IP (MPLS VPNs, L2VPNs, IP QoS, routing (OSPF, BGP, IS-IS), VLAN tagging, etc

• Competence in ATM (AAL2, AAL5, QoS)

• Competence in CS and PS for WCDMA and GSM (Core Network Features of GSNs, MSS including Interfaces, routing features, O&M).

• Competence in SS7 Signaling and SIGTRAN.



Learning situation


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Time schedule



1 Mobile-PBN Introduction 2 hrs

Solutions and Products 2 hrs

Routing Protocol Overview 2 hrs

2 Transport Backbone 1 hr

Site Infrastructure 2 hrs

IP/MPLS Backbone Design 2 hrs

Quality of Service 1 hr

3 Circuit Scope and Requirements 2 hrs

MSS SIP Interworking 2 hrs

Migration to MSS 2 hrs

4 Network View 1 hr

Security Design 1 hr

O&M Network Design 2 hrs

Charging Network 2 hrs

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Mobile Packet Backbone Network (M-PBN) R7.0 Concepts - Circuit Switched - Redback Track

LZU 108 7634 R1A

Description

This course cover the scope of the Mobile-PBN R7.0 Circuit Switched network, the products involved as well as applied concepts and designs. On top of that, the content also includes Overview, Network View and Transport backbone of Mobile-PBN R7.0 using Redback products.

Learning objectives


Overview







Transport Backbone





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Circuit Switched







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Network View



17 Understand the new Security Solution as part of the Ericsson design in M-PBN 17.1 Describe the Security Domain Network Security and Design Options available. 17.2 Describe the Security Services applied for different traffic types Describe Security Management

18 Illustrate O&M Network design as part of the Ericsson design in M-PBN 18.1 Describe the Mobile-PBN R7.0 Operation and Maintenance (O&M) network used for






Target audience


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Prerequisites








Learning situation


Time schedule










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4 Network View 1 hr




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Mobile Packet Backbone Network (M-PBN) R7.0 Concepts - IMS - Juniper Track

LZU 108 7640 R1A

Description


The students will understand the main concepts under the Mobile-PBN R6.1 IMS Solution: Modularity, Scalabilty, Resilience, Security, QoS. . On top of that, the content also includes Overview, Network View and Transport backbone of Mobile-PBN R7.0 using Juniper products.

Learning objectives


Overview







Transport Backbone



6 Understand M-PBN R7.0 site infrastructure 6.1 Describe site infrastructure scope, purpose and QoS 6.2 Identify M-PBN site switch hardware options 6.3 Understand Redback Integrated Routing and Bridging (IRB)

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6.4 Describe site infrastructure Ethernet connectivity and VLAN traffic separation principles and security design

6.5 Describe site switch redundancy mechanisms and design for high availability








Network View










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IMS

15 Define the IMS System 15.1 Define multimedia 15.2 Identify IMS position within the total telecoms picture 15.3 List the Standards Organizations involved in IMS 15.4 Understand Ericsson target network architecture 15.5 List some operator and end-user benefits of IMS

16 Describe the Ericsson IMS solution 16.1 Describe the components and nodes in IMS Common System

17 Recognize Network security principle 17.1 Discuss the IMS nodes Platform and Security Threats 17.2 Understand what Security Areas, Security Zones and Security Domains are

18 Understand the High Availability and Scalability Concept 18.1 Describe the Networking Concept, Logical connectivity and Physical connectivity for

IMS nodes 18.2 Understand IP Routing within IMS nodes 18.3 Discuss DNS Solution 18.4 Describe connectivity for new nodes MTAS, MRFP and HSS Geographical

Redundancy

19 Understand the Quality of Service Concept in IMS 19.1 Describe the QoS components and their physical connectivity

20 Describe the Registration Process 20.1 Describe the CSCF Discovery 20.2 Understand Session Establishment Process 20.3 Describe Traffic Flows in M-IMS

Target audience


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Prerequisites








Learning situation


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Time schedule










3 Security Design 1 hr



4 Ericsson IMS Solution 1 hr

IMS IP Connectivity 1 hr

IMS Network and Site Design 2 hrs

IMS QoS 1 hr

IMS Call flow & Traffic Scenario 1 hr

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Mobile Packet Backbone Network (M-PBN) R7.0 Concepts - IMS - Redback Track

LZU 108 7636 R1A

Description


The students will understand the main concepts under the Mobile-PBN R6.1 IMS Solution: Modularity, Scalabilty, Resilience, Security, QoS. On top of that, the content also includes Overview, Network View and Transport backbone of Mobile-PBN R7.0 using Redback products.

Learning objectives


Overview







Transport Backbone




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Network View










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IMS





IMS nodes 18.2 Understand IP Routing within IMS nodes 18.3 Discuss DNS Solution 18.4 18.4 Describe connectivity for new nodes MTAS, MRFP and HSS Geographical

Redundancy



Target audience


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Prerequisites








Learning situation


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Time schedule










3 Network View 1 hr







IMS QoS 1 hr


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Mobile Packet Backbone Network (M-PBN) R7.0 Concepts - Juniper Track

LZU 108 7637 R1A

Description

This course provides an insight and understanding of the Mobile-PBN R7.0 architecture, concepts and design.

You will learn about the scope of the Mobile-PBN R7.0 reference network based on Juniper, the products involved as well as applied concepts and designs.

Learning objectives


Overview







Transport Backbone



6 Understand M-PBN R7.0 site infrastructure 6.1 Describe site infrastructure scope, purpose and QoS 6.2 Identify M-PBN site switch hardware options 6.3 Describe site infrastructure Ethernet connectivity and VLAN traffic separation


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9 Discuss the Quality of Service in transport backbone 9.1 Explain the general QoS purpose 9.2 Describe 3GPP QoS model, M-PBN QoS solution and Juniper QoS solution


Packet Switched

11 Illustrate Access Network solution 11.1 Describe how 3G Direct Tunnelling works 11.2 Describe the advantages of SGSN pool, traffic cases and design guidelines 11.3 Explain connectivity options from RNC to SGSN 11.4 Understand protocol stack of Gb interface, local and remote scenarios for Gb over IP

12 Understand the Gn, Gp and DNS Solution 12.1 Understand physical and logical connectivity of Gn interface and roaming 12.2 Understand the routing architecture of Gn interface and roaming 12.3 Describe DNS usage cases, physical and logical connectivity 12.4 Identify DNS failover cases


authentication, Accounting etc. 13.2 Describe the technologies used in traffic separation. 13.3 Understand the Gi direct and Indirect solution. 13.4 Describe Brach Office Connectivity 13.5 Understand Inband and Outband Radius server implementation 13.6 Describe Gi Internet Connectivity Option

Circuit Switched


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Network View










IMS

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Redundancy



Target audience


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Prerequisites








Learning situation


Time schedule










3 Access Network 2 hrs

SGSN Pool Design Guidelines 1hr

GN/GP and DNS 2 hrs

Evolve Packet Core 1 hr

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5 Network View 1 hr







IMS QoS 1 hr


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Mobile Packet Backbone Network (M-PBN) R7.0 Concepts - Packet Switched - Juniper Track

LZU 108 7639 R1A

Description

This course cover the scope of the Mobile-PBN R7.0 Packet Switched network, the products involved as well as applied concepts and designs. On top of that, the content also includes Overview, Network View and Transport backbone of Mobile-PBN R7.0 using Juniper products.

Learning objectives


Overview







Transport Backbone





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Packet Switched





Network View


the M-PBN R7.0 design.

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14.2 List the various Network Modules within the M-PBN R7.0 design solution








Target audience


Prerequisites






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Learning situation


Time schedule











SGSN Pool Design Guidelines 1 hr

GN/GP and DNS 2 hrs


4 Network View 1 hr




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Mobile Packet Backbone Network (M-PBN) R7.0 Concepts - Packet Switched - Redback Track

LZU 108 7635 R1A

Description

This course cover the scope of the Mobile-PBN R7.0 Packet Switched network, the products involved as well as applied concepts and designs. On top of that, the content also includes Overview, Network View and Transport backbone of Mobile-PBN R7.0 using Redback products.

You will learn about the scope of the Mobile-PBN R7.0 reference network based on Redback.

Learning objectives


Overview







Transport Backbone




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Packet Switched





Network View

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Target audience


Prerequisites








Learning situation


Time schedule

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GN/GP and DNS 2 hrs


4 Network View 1 hr




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Mobile Packet Backbone Network (M-PBN) R7.0 Concepts - Redback Track

LZU 108 7633 R1A

Description

This course provides an insight and understanding of the Mobile-PBN R7.0 architecture, concepts and design.


Learning objectives


Overview





4 Explain the basics of the technology used in the Ericsson M-PBN R7.0 4.1 Understand IP Routing and Routing Protocols, VPN Technology, ATM principles and

security concepts in IP. 4.2 Explain the connectivity requirements for Circuit and Packet Switched networks 4.3 Identify the site infrastructure Transport Backbone




principles and security design

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10 Discuss backbone design options 10.1 Describe Juniper-Redback Interoperability 10.2 Describe Large Scale Network Packet Switched




authentication, Accounting etc. 13.2 Describe the technologies used in traffic separation. 13.3 Understand the Gi direct and Indirect solution. 13.4 Describe Brach Office Connectivity 13.5 Understand Inband and Outband Radius server implementation 13.6 Describe Gi Internet Connectivity Option Circuit Switched


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18 Differentiate between MSS migration scenarios 18.1 Describe different network migration strategies 18.2 Explain different migration methods Network View









needed charging systems IMS

23 Define the IMS System

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23.1 Define multimedia 23.2 Identify IMS position within the total telecoms picture 23.3 List the Standards Organizations involved in IMS 23.4 Understand Ericsson target network architecture 23.5 List some operator and end-user benefits of IMS





Redundancy



Target audience


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Prerequisites

The participants should be familiar with...:







Learning situation


Time schedule










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GN/GP and DNS 2 hrs





5 Network View 1 hr







IMS QoS 1 hr


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Mobile Packet Backbone Network (M-PBN) 2009B Concepts - SmartEdge Track

LZU 108 7811 R1A

Description

This course provides an insight and understanding of the M-PBN 2009B architecture, concepts and design.

You will learn about the scope of the M-PBN 2009B reference network based on Smartedge, the products involved as well as applied concepts and designs. The knowledge areas included in this course are Transport Backbone, Site Infrastrastructure, Packet Switch, Circuit, IMS, Access Network, O&M and security Network designs.

Learning objectives


Overview

1 Explain the overview of the M-PBN 2009B 1.1 Explain the challenges faced in regards to the mobile operator's backbone


2 Explain the M-PBN 2009B solution and products 2.1 Explain M-PBN 2009B solution variants. 2.2 Identify the infrastructure nodes in the M-PBN 2009B model

3 Explain the M-PBN 2009B Reference Network design 3.1 Explain the network connectivity and site infrastructure requirements

4 Explain the basics of the technology used in the M-PBN 2009B 4.1 Explain IP Routing and Routing Protocols, VPN Technology, and security concepts in

IP Site Infrastructure & Transport Backbone

5 Explain Transport Backbone scope, requirements and limitations 5.1 Understand client requirements on transport backbone

6 Explain Site Infrastructure scope, purpose and QoS 6.1 Identify M-PBN Site Switch hardware options 6.2 Describe VLAN traffic separation principles and security design 6.3 Describe site switch redundancy mechanisms for high availability 6.4 Understand SmartEdge Integrated Routing and Bridging

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7 Illustrate IP/MPLS backbone design 7.1 Explain IGP, i-BGP and Client Network routing choice 7.2 Explain the chosen solution in Mobile-PBN IP/MPLS transport backbone design 7.3 Explain the resilience mechanism in the backbone

8 Discuss Quality of Service 8.1 Explain the general QoS purpose 8.2 Describe 3GPP QoS model, M-PBN QoS solution and SmartEdge QoS solution Packet Switch

9 Describe Access Network solution 9.1 Briefly describe overview of 3G Direct Tunnelling and SGSN in Pool 9.2 Describe new hardware BSC with NWI-E and RNC 3820 physical, logical connectivity

and IP Routing 9.3 Explain Site Infrastructure Adaptation towards new hardware

10 Describe Packet Switch Core Network 10.1 Briefly explain Evolved Packet System 10.2 Describe Packet Switch solution 10.3 Describe physical, logical connectivity and routing for Core Network 10.4 Describe physical, logical connectivity and routing for roaming solution 10.5 Briefly describe BFD usage in PS

11 Describe Packet Switch Corporate solution 11.1 Describe physical, logical connectivity and routing for PS Corporate solution 11.2 Describe physical, logical connectivity and routing for PS Internet Access, local ISP

and IMS 11.3 Explain PS Firewall Scaling Solution

12 Describe DNS solution in PS 12.1 Explain the DNS physical and logical connectivity 12.2 Describe the DNS traffic cases in PS Circuit Switch

13 Explain M-PBN 2009B Circuit Switch solution scope and requirement 13.1 Understand Mobile-PBN 2009B CS solution scope and goals 13.2 Describe CS requirement on IP transport backbone 13.3 Describe Mobile-PBN backbone technology choice

14 Explain MSS R6.0 Transport 14.1 Understand MSS R6.0 GSM/WCDMA MSS solution using IP transport 14.2 Understand implementation of improved MGw selection for ISUP routes 14.3 Understand network redundancy

15 Describe MSS R6.0 IP Signaling 15.1 Understand SS7 over IP signaling design goals and architecture 15.2 15.2 Describe SCTP layer M3UA, M2PA and MTP3b layer scenarios 15.3 15.3 Understand MSC-BC implementation

16 Explain MSS SIP Interworking scenarios and UDC connectivity 16.1 Describe SIP/SIP-I Inter-working Principle

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16.2 Describe VLAN and VPN architecture for SIP and MSS 16.3 Describe the UDC Design and implementation

Network View

17 Understand the new Security Solution as part of the Ericsson design in M-PBN 2009B 17.1 Describe the Security Domain Network Security and Design Options available. 17.2 Describe the Security Services applied for different traffic types

18 Illustrate O&M Network design as part of the Ericsson design in M-PBN 2009B 18.1 Describe O&M network used for transport of management traffic 18.2 Describe SmartEdge O&M Solution

19 Describe the charging solution for M-PBN 2009B 19.1 Describe integration of Charging System and Multi-Mediation 19.2 Describe charging solutions based on SASN or SACC 19.3 Describe charging systems for Core Network Elements

IMS

20 Define the IMS System and Ericsson IMS solution 20.1 Identify IMS position within the total telecoms picture 20.2 Understand Ericsson target network architecture 20.3 List some operator and end-user benefits of IMS 20.4 Describe the components and nodes in IMS Common System

21 Recognize Network security principle 21.1 Discuss the IMS nodes Platform and Security Threats 21.2 Understand Security Areas, Security Zones and Security Domains in IMS

22 Understand the High Availability and Scalability Concept 22.1 Describe connectivity for new nodes MTAS, MRFP and HSS Geographical

Redundancy 22.2 Describe the Networking Concept, Logical and Physical connectivity for IMS nodes 22.3 Understand IP Routing within IMS nodes



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Target audience


Prerequisites








Learning situation


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Time schedule


1 Overview

Overview of M-PBN 2009B 1 hour

M-PBN 2009B Solution and Products 1 hour

M-PBN 2009B Reference Network Designs 2 hours

Basic Technology used in M-PBN2009B 2 hours

2 Site Infrastructure & Transport Backbone

Scope, Requirement & Limitation 2 hours

IP/MPLS backbone 2 hours

Quality of Service 2 hours

3 Packet Switch

Access Network Solution 1 hour

Packet Switch Core Network 2 hours

Packet Switch Corporate solution 1 hour

DNS solution in PS 2 hours

4 Circuit Switch

Scope and Requirement 1 hour

MSS R6.0 Transport 1.5 hours

MSS R6.0 IP Signaling 1.5 hours

MSS SIP Interworking scenarios 2 hour

5 Network View

Security Solution 2 hours


Charging Solution 2 hours

6 IMS

Ericsson IMS solution 1 hour

Network security principle 1 hour

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High Availability 1 hour

Networking Concept 1 hour


Registration Process 1 hour

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Mobile Packet Backbone Network (M-PBN) 2009B Concepts - Circuit Switched - SmartEdge Track

LZU 108 7812 R1A

Description


You will learn about the scope of the M-PBN 2009B reference network based on Smartedge, the products involved as well as applied concepts and designs.

Learning objectives


Overview









7 Illustrate IP/MPLS backbone design 7.1 Explain IGP, i-BGP and Client Network routing choice 7.2 Explain the chosen solution in Mobile-PBN IP/MPLS transport backbone design

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7.3 Explain the resilience mechanism in the backbone

8 Discuss Quality of Service 8.1 Explain the general QoS purpose 8.2 Describe 3GPP QoS model, M-PBN QoS solution and SmartEdge QoS solution Circuit Switch



11 Describe MSS R6.0 IP Signaling 11.1 Understand SS7 over IP signaling design goals and architecture 11.2 Describe SCTP layer M3UA, M2PA and MTP3b layer scenarios 11.3 Understand MSC-BC implementation

12 Explain MSS SIP Interworking scenarios and UDC connectivity 12.1 Describe SIP/SIP-I Inter-working Principle 12.2 Describe VLAN and VPN architecture for SIP and MSS 12.3 Describe the UDC Design and implementation Network View




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Target audience


Prerequisites








Learning situation


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Time schedule


1 Overview









3 Circuit Switch


MSS R6.0 IP Signaling and Transport 3 hours

MSS SIP Interworking scenarios 1.5 hour

UDC IP Connectivity 0.5 hour

4 Network View




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Mobile Packet Backbone Network (M-PBN) 2009B Concepts - Packet Switched - SmartEdge Track

LZU 108 7813 R1A

Description


You will learn about the scope of the M-PBN 2009B reference network based on Smartedge, the products involved as well as applied concepts and designs.

Learning objectives


Overview









7 Illustrate IP/MPLS backbone design 7.1 Explain IGP, i-BGP and Client Network routing choice

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7.2 Explain the chosen solution in Mobile-PBN IP/MPLS transport backbone design 7.3 Explain the resilience mechanism in the backbone

8 Discuss Quality of Service 8.1 Explain the general QoS purpose 8.2 Describe 3GPP QoS model, M-PBN QoS solution and SmartEdge QoS solution Packet Switch

9 Describe Access Network solution 9.1 Briefly describe overview of 3G Direct Tunneling and SGSN in Pool 9.2 Describe new hardware BSC with NWI-E and RNC 3820 physical, logical connectivity





12 Describe DNS solution in PS 12.1 Explain the DNS physical and logical connectivity 12.2 Describe the DNS traffic cases in PS Network View




Target audience

The target audience for this course is: Network Design Engineer, Network Deployment Engineer, Service Design Engineer, Service Deployment Engineer, Service Planning

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Engineer, System Technician, System Engineer, Field Technician, Service Planning Engineer, Service Engineer

Prerequisites








Learning situation


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Time schedule


1 Overview









3 Packet Switch


Packet Switch Solution 2 hours

Packet Switch Corporate solution 1 hour

DNS solution is PS 2 hours

4 Network View




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Mobile Packet Backbone Network (M-PBN) 2009B Concepts - Juniper Track

LZU 108 7814 R1A

Description


You will learn about the scope of the M-PBN 2009B reference network based on Juniper, the products involved as well as applied concepts and designs.The knowledge areas included in this course are Transport Backbone, Site Infrastrastructure, Packet Switch, Circuit, IMS, Access Network, O&M and security Network designs.

Learning objectives


Overview

1 Explain the overview of the M-PBN 2009B 1.1 Explain the challenges faced in regards to the mobile operators’ backbone







6 Explain Site Infrastructure scope, purpose and QoS 6.1 Identify M-PBN Site Switch hardware options 6.2 Describe VLAN traffic separation principles and security design 6.3 Describe site switch redundancy mechanisms for high availability

7 Illustrate IP/MPLS backbone design 7.1 Explain IGP, i-BGP and Client Network routing choice

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7.2 Explain the chosen solution in Mobile-PBN IP/MPLS transport backbone design 7.3 Explain the resilience mechanism in the backbone

8 Discuss Quality of Service 8.1 Explain the general QoS purpose 8.2 Describe 3GPP QoS model, M-PBN QoS solution Packet Switch






12 Describe DNS solution in PS 12.1 Explain the DNS physical and logical connectivity 12.2 Describe the DNS traffic cases in PS

Circuit Switch




16 Explain MSS SIP Interworking scenarios and UDC connectivity 16.1 Describe SIP/SIP-I Inter-working Principle 16.2 Describe VLAN and VPN architecture for SIP and MSS

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16.3 Describe the UDC Design and implementation Network View


18 Illustrate O&M Network design as part of the Ericsson design in M-PBN 2009B 18.1 Describe O&M network used for transport of management traffic

19 Describe the charging solution for M-PBN 2009B 19.1 Describe integration of Charging System and Multi-Mediation 19.2 Describe charging solutions based on SASN or SACC 19.3 Describe charging systems for Core Network Elements IMS







Target audience


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Prerequisites








Learning situation


Time schedule


1 Overview









3 Packet Switch


Packet Core Network 2 hours

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Packet Switch Corporate Solution 1 hour


4 Circuit Switch




SIP Interworking scenarios and UDC Connectivity 0.5 hour

5 Network View




6 IMS

Ericsson IMS solution 1 hour


High Availability 1 hour

Networking Concept 1 hour



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Mobile Packet Backbone Network (M-PBN) 2009B Concepts - Circuit Switched - Juniper Track

LZU 108 7815 R1A

Description


You will learn about the scope of the M-PBN 2009B reference network based on Juniper platform, the products involved as well as applied concepts and designs.

Learning objectives


Overview










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8 Discuss Quality of Service 8.1 Explain the general QoS purpose 8.2 Describe 3GPP QoS model, M-PBN QoS solution Circuit Switch




12 Explain MSS SIP Interworking scenarios and UDC connectivity 12.1 Describe SIP/SIP-I Inter-working Principle 12.2 Describe VLAN and VPN architecture for SIP and MSS 12.3 Describe the UDC Design and implementation Network View




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Target audience


Prerequisites








Learning situation


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Time schedule


1 Overview









3 Circuit Switch




SIP Interworking scenarios & UDC Connectivity 0.5 hour

4 Network View




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Mobile Packet Backbone Network (M-PBN) 2009B Concepts - Packet Switched - Juniper Track

LZU 108 7816 R1A

Description


You will learn about the scope of the M-PBN 2009B reference network based on Juniper platform, the products involved as well as applied concepts and designs.

Learning objectives


Overview










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8 Discuss Quality of Service 8.1 Explain the general QoS purpose 8.2 Describe 3GPP QoS model, M-PBN QoS solution Packet Switch






12 Describe DNS solution in PS 12.1 Explain the DNS physical and logical connectivity 12.2 Describe the DNS traffic cases in PS Network View




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Target audience


Prerequisites







The length of the course is 24 hours and the maximum number of participants is 16.

Learning situation


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Time schedule


1 Overview









3 Packet Switch


Packet Switch Core Network 2 hours

Packet Switch Corporate Solution 1 hour


4 Network View




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Mobile Packet Backbone Network (M-PBN) 2009B Concepts - IMS

LZU 108 7817 R1A

Description

The course is designed to provide an understanding of the Mobile-PBN 2009B IMS network designs and students will be able to use this knowledge to appreciate and recognize the concepts in their network.

The students will understand the main concepts under the Mobile-PBN 2009B IMS Solution: Modularity, Scalabilty, Resilience, Security, QoS

Learning objectives





Redundancy 3.2 Describe the Networking Concept, Logical connectivity and Physical connectivity for

IMS nodes 3.3 Understand IP Routing within IMS nodes



Target audience


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Engineer, System Technician, System Engineer, Field Technician, Service Planning Engineer, Service Engineer

Prerequisites







The length of the course is 6 hours and the maximum number of participants is 16.

Learning situation


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Time schedule


1 IMS System ½ hour

Ericsson IMS solution ½ hour


High Availability and Scalability Concept 1 ½ hours

Quality of Service Concept in IMS 1 hour

Registration Process 1 ½ hours

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Mobile Packet Backbone Network (M-PBN) Operations & Configuration

LZU 108 7818 R1A

Description

This course is for those who would like to learn to configure, verify and troubleshoot their Extreme Switches and SmartEdge Routers used in the M-PBN Site Infrastructure and Transport Solution.

Participants of this course will be able to complement their theoretical understanding of the concepts used in Ericsson M-PBN Site Infrastructure and Transport design with practical exercises on these nodes. You will perform detailed configuration, verification of the protocols and technologies used in M-PBN IP Backbone.

Learning objectives


1 Describe the M-PBN Site Infrastructure and Transport Design 1.1 Understand Client Connectivity for User Payload, O&M & SS7 Connectivity Design 1.2 Describe the summary of SEOS and XOS CLI commands

2 Describe the Site Infrastructure Theory on VLAN and VRRP 2.1 Perform configuration of Interfaces, VLAN, Link Aggregation, Forwarding Database

(FDB), ARP Cache and Static Routes on Switches

3 Describe the Transport Backbone Theory on BVI ( IRB), VPN, BFD, IS-IS, OSPF, BGP MPLS (LDP) and Aggregated Ethernet

3.1 Perform configuration of Interfaces and Aggregated Links 3.2 Perform configuration of SmartEdge for IRB, VPN,VRRP, IS-IS, OSPF, BGP, MPLS (

using LDP) and Load Balancing

4 Describe the Mobile-PBN QoS concepts on DiffServ, Queuing and Scheduling 4.1 Perform QoS configuration for Switches on DiffServ classification and marking using

ACL’s, Queuing and Scheduling 4.2 Perform QoS configuration for Routers on Packet Classification and Marking,

Queuing and Scheduling

5 Describe the Mobile-PBN Operations and Maintenance Concepts 5.1 Perform configuration of SNMP and Logs for Switches and Routers 5.2 Perform troubleshooting and monitoring using Wireshark and log files

Target audience

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The target audience for this course is: Network Design Engineer, Network Deployment Engineer, Service Engineer

Prerequisites

The participants should have successfully completed the following courses:

Mobile-PBN Concepts or M-PBN Course Reference Solution Overview

LZU 1082107 SmartEdge R6 System Survey,

LZU 1082112 SmartEdge IS-IS,

LZU 108 2113 SmartEdge BGP,

LZU 108 2114 SmartEdge L3VPN,

LZU 108 2121 SmartEdge IP QOS

Participants also require working knowledge on ExtremeOS operating system. This course is not suitable for someone intending to use this course to learn and develop general understanding of Mobile-PBN. The focus is on practical integration of the IP backbone.



Learning situation

This course is based on theoretical instructor-led lessons given in a classroom. Information for remote access to the lab will be provided by the instructor for exercises.

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Time schedule



1 Overview of SI and Transport Backbone 2 hours

Site Infrastructure Configuration 4 hours

2 Transport Backbone Configuration 6 hours

3 Quality of Service 3 hours

Operations and Maintenance 3 hours

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IP Networking

LZU 102 397 R5A

Description

This course will give the students an insight and understanding of the TCP / IP protocol stack from the physical layer to the application layer. The students will learn the operation of different protocols and applications within the TCP / IP suite such DHCP, DNS, NFS, NIS, NTP, HTTP, SMNP, SMTP, Telnet, FTP, TFTP and RTP. Students will learn about IP addresses, both classful and classless (CIDR) and how subnetting / aggregation and VLSM operates. Students will learn about different network devices and will get a detailed understanding of LAN Switching, Routing and Routing protocols. The hands-on exercises and analysers are used to facilitate the understanding of theory sessions.

Learning objectives

On completion of each module the participants will be able to:

1 List and describe the IP networking including the involved Bodies. 1.1 List the functions of the different bodies involved in IP standards / RFCs. 1.2 Analyze the OSI reference model and how it relates to the TCP / IP stack. 1.3 Explain Ethernet as Physical and Data Link Layer: MAC Address, CSMA/CD

principles, Fast Ethernet, Gigabit Ethernet and speed negotiation. 1.4 Explain the operation of Hubs, Switches and Routers. 1.5 Explain Wireless LANs. 1.6 Explain IP Protocol. 1.7 Explain IPv4 packet structure, protocol header and features. 1.8 Explain VLSM, CIDR, Subnetting, aggregation, NAT and NAPT. 1.9 Explain ICMP protocol, ping and traceroute. 1.10 Explain IGMP protocol. 1.11 Perform exercises configuring IPv4 addresses, and check connectivity. 1.12 Demonstrate IPv6 packet structure, protocol header, features.

1 Explain and compare the transport protocols. 2.1 Explain TCP, UDP and SCTP protocol structures, headers and functionality.

2 List the applications protocols. 3.1 List and explain the operation of different protocols / applications such as DHCP, DNS,

NFS, NIS, NTP, HTTP, SMNP, SMTP, Telnet, FTP, TFTP and RTP.

4 Describe IP Switching and Routing Protocols and perform exercises using Netsim Simulator.

4.1 Explain and perform exercises about ARP. 4.2 Explain and perform exercises of VLANs.

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4.3 Explain the purpose of Spanning Tree Protocol (STP). 4.4 Explain the operation of Static and Dynamic routing protocols. 4.5 Perform Static routing exercises. 4.6 List the differences between Vector Distance and Link State protocols. 4.7 Explain RIP routing protocol. 4.8 Explain OSPF routing protocol. 4.9 Explain BGP routing protocol. 4.10 Explain IS-IS routing protocol. 4.11 Perform routing Protocol exercises.

Target audience

The target audience for this course are personnel who are involved in IP networking or those who require more knowledge on IP addressing, application and routing protocols.

Prerequisites

There are no pre-requisites.



Learning situation

This course is based on theoretical and practical instructor-led lessons given in both classroom and in a technical environment using equipment or simulation tools.

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Time schedule


Day Short description of the topics in the course Estimated time 1 List the functions of the different Standard Bodies

involved in IP Standards / RFCs

0,5 h

Analyze the OSI Reference Model and how it relates to the TCP / IP stack

1,0 h

Explain Ethernet as Physical and Data Link Layer: MAC Address, CSMA/CD principles, Fast Ethernet, Gigabit Ethernet and speed negotiation

1,5 h

Explain the operation of Hubs, Switches and Routers 2,0 h

Explain Wireless LANs 0,5 h

Explain IP Protocol 0,5 h

2 Explain IPv4 packet structure, protocol header and features

1,0 h

Explain VLSM, CIDR, Subnetting, aggregation, NAT and NAPT

1,0 h

Explain ICMP protocol, ping and traceroute

Explain IGMP protocol

1,0 h

Perform exercises configuring IPv4 addresses, and check connectivity

2,5 h

Demonstrate IPv6 packet structure, protocol header, features

0,5 h

3 Explain TCP, UDP and SCTP protocol structures, headers and functionality

2,0 h

List and explain the operation of different protocols / applications such as DHCP, DNS, NFS, NIS, NTP, HTTP, SMNP, SMTP, Telnet, FTP, TFTP and RTP

2,0 h

Explain and perform exercises about ARP 2,0 h

4 Explain and perform exercises of VLANs 3,0 h

Explain the purpose of Spanning Tree Protocol (STP) 0,5 h

Explain the operation of Static and Dynamic routing protocols

0,5 h

Perform Static routing exercises 1,0 h

List the differences between Vector Distance and Link State protocols

1,0 h

Explain RIP routing protocol 1,0 h

5 Explain OSPF routing protocol 1,5 h

Explain BGP routing protocol 0,5 h

Explain IS-IS routing protocol 0,5 h

Perform routing protocol exercises 2,5 h

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IP Quality of Service and MPLS

LZU 108 7716 R1A

Description

This course will give the students an insight and understanding of QoS. The students will learn the operation of QoS supporting IP Protocols and MPLS. The hands-on exercises are used to facilitate the understanding of theory sessions.

Learning objectives


1 Understand how Quality of Service (QoS) works 1.1 Explain QoS Fundamentals and QoS related Protocols 1.2 Analyze the enhancement of the IP networks to support transmission of Real Time

data 1.3 Describe QoS Basic Concepts 1.4 Describe QoS Architectures 1.5 Describe QoS Mechanisms 1.6 Explain Resource Reservation Protocol (RSVP) – RFC 2205 1.7 Explain Basic MPLS Concepts 1.8 Describe MPLS Labels and Label Stack 1.9 Explain MPLS Applications 1.10 Describe Generalized Multiprotocols Label Switching – GMPLS 1.11 Perform practical exercises covering Class Based Marking (CBM) using IP

Precedence, DSCP and basic MPLS setup

Target audience

The target audience for this course is the staff involved in IP networking and require more knowledge on IP networks to guarantee quality of service.

Prerequisites

Successful completion of the following course or equivalent knowledge:

IP Networking, LZU 102 397 R5A

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Learning situation


Time schedule


Day Short description of the topics in the course Estimated time

1 Explain QoS Fundamentals and QoS related Protocols 0.3 h

Analyze the enhancement of the IP networks to support transmission of Real Time data

0.2 h

Describe QoS Basic Concepts 0.5 h

Describe QoS Architectures 0.5 h

Describe QoS Mechanisms 1.0 h

Explain Resource Reservation Protocol (RSVP) 1.0 h

Explain Label Distribution Systems (LDP, RSVP-TE, BGP)

1.5 h

1, 2 Explain Basic MPLS Concepts 1.5 h

Describe MPLS Labels and Label Stack 1.0 h

Explain MPLS Applications 1.5 h

Describe Generalized Multiprotocols Label Switching GMPLS

1.0 h

Perform practical exercises covering Class Based Marking (CBM) using IP Precedence, DSCP and MPLS

2.0 h

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IP Security

LZU 108 7717 R1A

Description

This course will give the students an insight and understanding of Security issues. The students will learn the operation of Security topics such as authentication, confidentiality, and integrity. The hands-on exercises are used to facilitate the understanding of theory sessions.

Learning objectives


1 Understand how IP Security (IP Sec) works 1.1 Analyze the existing security threats types 1.2 Explain Access control lists (ACL) 1.3 Explain the purpose and use of Firewalls 1.4 Explain Encryption techniques 1.5 Identify different Security Services 1.6 Explain how Virtual Private Networks (VPN) operate 1.7 Explain IP Security (IPSec) – RFC 4301 1.8 Explain Authentication Header (AH) – RFC 4302 1.9 Explain Encapsulating Security Payload (ESP) – RFC 4303 1.10 Explain Internet Key Exchange (IKE) – RFC 2409 v1/RFC 4306 v2 1.11 Show some Transport Layer Security Protocols (SSL and TLS) – RFC 2246v1/RFC

4346 v1.1 1.12 Perform practical exercises covering the configuration of an IPSec VPN tunnel (Phase

I and Phase II negotiation)

Target audience

The target audience for this course is the staff involved in IP networking and require more knowledge on IP networks to guarantee security.

Prerequisites





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Learning situation


Time schedule



1 Analyze the existing security threats types 1.0 h

Explain Access control lists (ACL) 1.0 h

Explain the purpose and use of Firewalls 1.0 h

Explain Encryption techniques 1.0 h

Identify different Security Services 1.0 h

Explain how virtual Private Networks (VPN) operate 1.0 h

2 Explain IP Security (IPSec) 1.0 h

Explain Authentication Header (AH) 1.0 h

Explain Encapsulating Security Payload (ESP) 1.0 h

Explain Internet Key Exchange (IKE) 1.0 h

Show some Transport Layer Security Protocols (SSL and TLS)

1.0 h

Perform practical exercises covering the configuration of an IPSec VPN tunnel (Phase I and Phase II negotiation)

1.0 h

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Voice and Video over IP

LZU 108 7718 R1A

Description

This course will give the students an insight and understanding of Voice and Video over IP. The students will learn the operation of VoIP protocols and understand the concept about Video over IP.

Learning objectives


1 Describe the Voice over IP protocols 1.1 Explain the main VoIP protocols: H.323, Media Gateway Control Protocol (MGCP) –

RFC 2705 and H.248 (MEGACO) 1.2 Explain Session Initiation Protocol (SIP) – RFC 3261 1.3 List the Real-Time Transport Protocol (RTP) and Real Time Control Protocol (RTCP) –

RFC 3611 and RFC 3550 1.4 Perform Theoretical Exercise 2 Describe the Video over IP protocols 2.1 Explain Video over IP 2.2 Describe traditional video and IP Multicast 2.3 Describe concept of Internet Group Management Protocol IGMP 2.4 Describe video formats MPEG and Streaming 2.5 Comment Traditional solutions, Video conferencing over IP 2.6 Perform theoretical exercises covering SIP messages

Target audience

The target audience for this course is the staff involved in IP networking and require more knowledge on IP networks to guarantee quality of service, security, and management of real-time traffic.

Prerequisites




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Learning situation

This course is based on theoretical instructor-led lessons given in classroom environment.

Time schedule



1 Explain the main VoIP protocols: H.323, Media Gateway Control Protocol (MGCP) and H.248 (MEGACO)

0.5 h

Explain Session Initiation Protocol (SIP) 1.0. h

List the Real-Time Transport Protocol (RTP) and Real-Time Control Protocol (RTCP) –RFC 3611 RFC 3550

0.5 h

Explain Video over IP 0.5 h

Describe Traditional Video Transport and IP Multicast 0.5 h

Comment concept of Group Management Protocol - IGMP 0.5 h

Describe video format MPEG and Streaming 0.5 h

Describe video on demand vs. video broadcasting 0.5 h

Comment traditional solutions, video conferencing over IP 0.5 h

Perform theoretical exercises 1.0 h

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IPv6 Networking

LZU 108 7424 R2A

Description

This course gives a profound technical presentation of the Internet protocol IPv6. The course is focused on the protocols and mechanisms defined within IPv6 as well as functions affected by IPv6, such as routing protocols and DNS.

The course gives a clear view of how the Transition Mechanisms function and how they are used to establish IPv6 networks in a world of IPv4 networks and to ensure connectivity between different IPv6 networks and between IPv6 and IPv4 networks.

The students will get experience in how to set up an IPv6 network configuring routers and hosts.

Learning objectives


1 Give a technical overview of IPv6 networking 1.1 Understand why need IPv6; 1.2 Describe the IPv6 header and platform 1.3 Compare IPv4 with IPv6; 1.4 Identify new features; 1.5 Describe how to increase Address Space; 1.6 Describe Main Bodies. 2 Describe the IPv6 header and platform 2.1 Explain the IPv6 Base Header and Extension Header; 2.2 Explain how to create IPv6 from IPv4; 2.3 Describe the ICMPv6;Explain Fragmentation and Authentication Header. 3 Describe the IPv6 Addressing 3.1 Explain the address architecture; 3.2 Describe Unicast, Multicast and Anycast addresses; 3.3 Describe an IPv6 basic configuration in routers and hosts and auto-configuration; 3.4 Describe Neighbor Discovery; 3.5 Describe built in security and quality of service. 4 Determine the Affected Mechanisms 4.1 Describe DNS and DHCP for IPv6; 4.2 Explain the Routing Protocols and Transport Layer protocols; 4.3 List and explain some applications;

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5 Describe Mobile IPv6 5.1 Understand the Building Blocks; 5.2 Explain Registration and Bindings. 6 Describe and configure the Transition Mechanisms between IPv4 and IPv6 6.1 Connecting IPv6 islands; 6.2 Configure tunnels; 6.3 Describe IPv6 to IPv4 (6to4); 6.4 Explain ISATAP and Teredo; 6.5 Explain SIIT NAT-PT; 6.6 Describe Tunnel Mechanisms; 6.7 Explain the automatic Tunnels and Tunnel Broker; 6.8 Describe IPv6 over IPv4 (6over4); 6.9 Understand Routing IPv6 on the internet; 7 Explain DSTM 7.1 Describe Header Translation; 7.2 Explain NAT-PT; 7.3 Escribe DNS-ALG; 7.4 Explain BIS; 7.5 Understand Socks64; 7.6 Describe TCP/UDP Relay.

Target audience

The target audience for this course is: Network Design Engineers, Network Deployment Engineers, System Technicians, Service Technicians, System Engineers and Service Engineers.

Prerequisites



IP Advanced, LZU 108 6748 R1A

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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



1 Introduction

Welcome

Presentation

Training Schedule

0,5 h

IPv6 Introduction

IPv4-IPv6 Comparison

Increased Address Space

1 h

IPv6 Header and Platform

IPv6 Base Header

IPv6 Extension Headers

ICMPv6

1,5 h

IPv6 Addressing

Address Architecture

Unicast, Multicast and Anycast

Router and Host Configuration

Auto-configuraiton

Neighbor Discovery

Built in security

Quality of service

1,5 h

Affected Mechanisms

DNS

DHCPv6

Routing Protocols

Transport Layer Protocols

Applications

1

Mobile IPv6

Building Blocks

Registration

Bindings

0,5 h

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2 IPv4 – IPv6 Transition Mechanisms

Introduction

Connecting IPv6 islands

Configured tunnels

IPv6 to IPv4 (6to4)

ISATAP

Teredo

SIIT NAT-PT

Other Tunnel Mechanisms

Automatic Tunnels

Tunnel Broker

IPv6 over IPv4 (6over4)

Routing IPv6 on the internet

3 h

IPv4 – IPv6 Translation Mechanisms

Introduction

DSTM

Header Translation

NAT-PT

FTP-ALG

DNS-ALG

SIIT

BIS

Socks64

TCP/UDP Relay

3 h

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IPv6 Routing

LZU 108 7520 R2A

Description

This course is a profound technical presentation of the routing protocols OSPFv3, ISIS and BGP4+. The protocols and their different functions in the Internet will be discussed.

The participants will learn how to configure the advanced features on an IPv6 router.

Learning objectives


1 Explain how the Routing Protocols are used in IPv6 1.1 List the Routing Protocols used in IPv6 1.2 Explain how they are working on a router and the hosts of an IPv6 network 1.3 Explain static routing and routing protocol 2 Work with OSPFv3 2.1 Describe the OSPFng Header 2.2 Explain Link State Advertisements (LSAs) 2.3 Explain Link-State Database and Hello packets 2.4 Explain Database Synchronization and Flooding 2.5 Explain Routing Calculations and SPF Algorithm 2.6 Explain External Routing Information 2.7 Explain OSPF Areas, Range and Stub Areas 2.8 Explain Support on data link layer 2.9 Explain Link State packets 2.10 Explain Sequence number packets 2.11 Explain Options 2.12 Explain Level 1 and Level 2 routers 2.13 Explain Designated router election and area reconfiguration 2.14 Explain Overload state 2.15 Describe the comparison with OSPFv3 2.16 Perform practical exercises covering OSPFv3 protocol 3 Work with ISIS 3.1 Explain Support on data link layer 3.2 Explain Hello packets 3.3 Explain Link State packets 3.4 Explain Sequence number packets 3.5 Explain Options 3.6 Explain Level 1 and Level 2 routers 3.7 Explain Designated router election 3.8 Explain Area reconfiguration 3.9 Explain Overload state

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3.10 Describe the comparison with OSPFv3 3.11 Perform practical exercises covering ISIS protocol 4 Work with BGP4+ 4.1 Explain the BGP Header and Session 4.2 Describe Attributes 4.3 List Keep-Alive Features 4.4 Explain Internal-External BGP 4.5 Understand Best Path Calculation 4.6 Explain Synchronizing with OSPFng 4.7 Describe Policy Routing – Multi-homing 4.8 Understand Explosion of routing tables 4.9 Perform practical exercises covering BGP4+ protocol

Target audience


Prerequisites


IPv6 Networking, LZU 108 7424 R1A



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


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1 Introduction

Welcome

Presentation

Training Schedule

0,5 h

Routing Protocols

List the Routing Protocols used in IPv6

How they are working in IPv6 network

Static routing and routing protocol configuration

Configure static routing and routing protocol configuration

2,5 h

OSPFv3

The OSPFng Header

Link State Advertisements (LSAs)

The Link-State Database

Hello Packets

Database Synchronization

Flooding

Routing Calculations

SPF Algorithm

External Routing Information

OSPF Areas

OSPF Range

3 h

2 OSPFv3 (Contd.)

Stub Areas

History

Support on data link layer

Hello packets

Link State packets

Sequence number packets

Options

Level 1 and Level 2 routers

Designated router election

Area reconfiguration

Overload state

Comparison with OSPFv3

Perform practical exercises covering OSPFv3 protocol

6 h

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3 ISIS

History

Support on data link layer

Hello packets

Link State packets

Sequence number packets

Options

Level 1 and Level 2 routers

Designated router election

Area reconfiguration

Overload state

Comparison with OSPFv3

Perform practical exercises covering ISIS protocol

2,5 h

BGP4+

The BGP Header

BGP Sessions

Attributes

Keep-Alive Features

Internal-External BGP

Best Path Calculation

Synchronizing with OSPFng

Policy Routing – Multi-homing

Explosion of routing tables

Perform practical exercises covering BGP4+ protocol

3,5 h

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IPv6 Quality of Service

LZU 108 7521 R2A

Description

This course is a technical presentation of the feature related to IPv6: Quality of Service (DiffServ, RSVP / IntServ). IPv6 and this feature are essential in a 3G network.

Learning objectives


1 Explain how QoS works 1.1 Explain what is quality of service 1.2 Explain QoS Mechanisms 1.3 Describe DiffServ and IntServ (RSVP) 1.4 Describe MPLS 1.5 Differentiate between Policing and Metering 1.6 Explain Traffic Class and Flow label for IPv6 1.7 Describe Traffic Conditioning 1.8 Explain Scheduler and Shaper 1.9 Explain Queue Management (RED)

Target audience


Prerequisites





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Learning situation

This course is based on theoretical instructor-led lessons given in a classroom environment.

Time schedule




1 Introduction

Welcome

Presentation

Training Schedule

0,5 h

Explain How QoS work

Explain what is quality of service

Explain QoS Mechanisms

Describe DiffServ and IntServ (RSVP)

Describe MPLS

Differentiate between Policing and Metering

Explain Traffic Class and Flow label for IPv6

Describe Traffic Conditioning

Explain Scheduler and Shaper

Explain Queue Management (RED)

5,5 h

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IPv6 Security

LZU 108 7522 R2A

Description

This course is also a profound technical presentation of the advanced feature related to IPv6: IPSec. IPv6 and this feature are essential in a 3G network.

Learning objectives


1 Describe how IPv6 Security (IPsec) is working 1.1 Describe Security Threats 1.2 Explain Basic Security Concepts and Security Associations 1.3 Describe Crypto Primitives 1.4 Explain Authentication Header (AH) 1.5 Explain Encapsulating Security Payload (ESP) 1.6 Explain Internet Key Exchange (IKEv2)

Target audience


Prerequisites





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Learning situation

This course is based on theoretical instructor-led lessons given in a classroom environment.

Time schedule



1 Introduction

Welcome

Presentation

Training Schedule

0,5 h

IPSec

Security Threats

Basic Security Concepts

Security Associations

Crypto Primitives

Authentication Header (AH)

Encapsulating Security Payload (ESP)

Internet Key Exchange (IKEv2)

Perform exercises covering these mechanisms and features

5,5 h

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M-PBN 2010A Concepts - SmartEdge Track

LZU 108 8048 R1A

Description

This course provides an insight and understanding of the M-PBN 2010A architecture, concepts and design.

You will learn about the scope of the M-PBN 2010A reference network based on Smartedge, the products involved as well as applied concepts and designs. The knowledge areas included in this course are Transport Backbone, Site Infrastrastructure, Packet Switch, Circuit, IMS, Access Network, O&M and security Network designs.

Learning objectives


Overview

1 Explain the overview of the M-PBN 2010A 1.1 Explain the challenges faced in regards to the mobile operators’ backbone


2 Explain the M-PBN 2010A solution and products 2.1 Explain M-PBN 2010A solution variants 2.2 Identify the infrastructure nodes in the M-PBN 2010A model

3 Explain the M-PBN 2010A Reference Network design 3.1 Explain the network connectivity and site infrastructure requirements

4 Explain the basics of the technology used in the M-PBN 2010A 4.1 Explain IP Routing and Routing Protocols, VPN Technology, and security concepts in

IP

Transport Backbone

5 Explain Site Infrastructure and Transport Backbone scope, requirements and limitations

5.1 Describe Network Modularization 5.2 Identify M-PBN Site Switch and Router options 5.3 Describe redundancy mechanisms for high availability 5.4 Describe VLAN traffic separation principles and security design 5.5 Describe M-PBN intra-site and inter-site connectivity choices 5.6 Explain IGP, iBGP and Client Network routing choice

6 Illustrate IP/MPLS backbone design

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6.1 Explain the chosen solution in Mobile-PBN IP/MPLS transport backbone design 6.2 Describe Entry Level Site Connectivity

7 Discuss Quality of Service 7.1 Explain the general QoS purpose 7.2 Describe 3GPP QoS model, M-PBN QoS solution and SmartEdge QoS solution

8 Understand SmartEdge Integrated Routing and Bridging (IRB) 8.1 Describe BVI port feature in M-PBN

Packet Switched

9 Describe Access Network solution 9.1 Explain connectivity options from RNC to SGSN 9.2 Understand how 3G Direct Tunneling works 9.3 Understand the concept and guideline of SGSN pool 9.4 Understand the design guidelines for Gb and IU-PS interface

10 Describe Packet Switch solution 10.1 Describe physical, logical connectivity and routing of Gn, Gi and Gp interface 10.2 Understand Inband and Outband Radius server implementation 10.3 Describe DNS physical and logical connectivity 10.4 Describe Brach Office Connectivity

11 Briefly Describe IPRAN alignment

12 Briefly Explain System Architecture Evolution 12.1 Briefly Explain System Architecture Evolution 12.2 Describe the nodes involved in SAE 12.3 Explain Backbone and Site Infrastructure Adaptation

Circuit Switched

13 Explain M-PBN 2010A Circuit Switch solution scope and requirement 13.1 Describe CS connectivity to IP transport backbone 13.2 Describe the connectivity to all nodes

14 Explain MSS R6.0 IP Signaling 14.1 Understand SCTP, M3UA , M2PA and MTP3b layer scenarios 14.2 Understand AoverIP concept 14.3 Describe PRA implementation in MPBN 14.4 Understand MSC-BC implementation 14.5 Understand implementation of IUPCH in MSC-S R14.1 14.6 Understand network redundancy 14.7 Understand the operator’s network scenario

15 Explain MSS R6.0 IP Transport 15.1 Describe SIP/SIP-I Inter-working Principle 15.2 Describe VLAN and VPN architecture for SIP and MSS 15.3 Describe IPX Connectivity

16 Explain MSS SIP Interworking scenarios 16.1 Describe the UDC Design and implementation

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Network View

17 Discuss Network View Overview 17.1 Describe the various Network Modules within the M-PBN 2010A design solution

18 Understand the new Security Solution as part of the Ericsson design in M-PBN 18.1 Describe the Security Domain Network Security and Design Options available. 18.2 Describe the Security Services applied for different traffic types

19 Illustrate O&M Network design as part of the Ericsson design in M-PBN 19.1 Illustrate O&M Network design as part of the Ericsson design in M-PBN 2010A 19.2 Describe O&M network used for transport of management traffic 19.3 Describe SmartEdge O&M Solution

20 Describe the charging solution for M-PBN 2010A 20.1 Describe the Charging Solution for M-PBN 2010A 20.2 Describe integration of Charging System and Multi-Mediation 20.3 Describe charging solutions based on SASN or SACC 20.4 Describe charging systems for Core Network Elements

IMS

21 Define the IMS System 21.1 Identify IMS position within the total telecoms picture 21.2 Understand Ericsson target network architecture 21.3 List some operator and end-user benefits of IMS 21.4 Describe the components and nodes in IMS Common System






Target audience


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Engineer, System Technician, System Engineer, Service Planning Engineer, Service Engineer

Prerequisites








Learning situation


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Time schedule



1 Overview

Overview of the M-PBN 2010A 1 hour

M-PBN 2010A solution and products 1 hour

M-PBN 2010A Reference Network design 2 hours

Basics of the technology used in the M-PBN 2010A 2 hours

2 Transport Backbone

Site Infrastructure and Transport Backbone scope, requirements and limitations

3 hours

IP/MPLS backbone design 1 hour


SmartEdge Integrated Routing and Bridging (IRB) 1 hour

3 Packet Switched

Access Network solution 2 hours

Packet Switch solution 2 hours

IPRAN alignment 1 hour

System Architecture Evolution 1 hour

4 Circuit Switched

M-PBN 2010A Circuit Switch solution scope and requirement

1 hour




5 Network View

Network View Overview 1 hour

Security Solution as part of the Ericsson design in M-PBN 1 hour

O&M Network design as part of the Ericsson design in M-PBN

2 hours

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Charging solution for M-PBN 2010A 2 hours

6 IMS

IMS System 1 hour


High Availability and Scalability Concept 1 hour



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M-PBN 2010A Concepts - Circuit Switched - SmartEdge Track

LZU 108 8043 R1A

Description


This course cover the scope of the M-PBN 2010A Circuit Switched network, the products involved as well as applied concepts and designs. On top of that, the content also includes Overview, Network View and Transport backbone of M-PBN 2010A using SmartEdge.

Learning objectives


Overview






IP

Transport Backbone



6 Illustrate IP/MPLS backbone design 6.1 Explain the chosen solution in Mobile-PBN IP/MPLS transport backbone design

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6.2 Describe Entry Level Site Connectivity



Circuit Switched





Network View





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Target audience

The target audience for this course is: Network Design Engineer, Network Deployment Engineer, Service Design Engineer, Service Deployment Engineer, Service Planning Engineer, System Technician, System Engineer, Service Planning Engineer, Service Engineer

Prerequisites








Learning situation


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Time schedule



1 Overview







3 hours




3 Circuit Switched


1 hour




4 Network View




2 hours


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M-PBN 2010A Concepts - Packet Switched - SmartEdge Track

LZU 108 8047 R1A

Description


This course cover the scope of the M-PBN 2010A Circuit Switched network, the products involved as well as applied concepts and designs. On top of that, the content also includes Overview, Network View and Transport backbone of M-PBN 2010A using SmartEdge.

Learning objectives


Overview






IP

Transport Backbone




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6.2 Describe Entry Level Site Connectivity



Packet Switched





Network View





Target audience

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Time schedule



1 Overview







3 hours




3 Packet Switched





4 Network View




2 hours


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M-PBN 2010A Concepts - Juniper Track

LZU 108 8045 R1A

Description


You will learn about the scope of the M-PBN 2010A reference network based on Juniper, the products involved as well as applied concepts and designs. The knowledge areas included in this course are Transport Backbone, Site Infrastrastructure, Packet Switch, Circuit, IMS, Access Network, O&M and security Network designs.

Learning objectives


Overview






IP

Transport Backbone



6 Illustrate IP/MPLS backbone design

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6.1 Explain the chosen solution in Mobile-PBN IP/MPLS transport backbone design

7 Discuss Quality of Service 7.1 Explain the general QoS purpose

Packet Switched





Circuit Switched





Network View


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18 Illustrate O&M Network design as part of the Ericsson design in M-PBN 18.1 Illustrate O&M Network design as part of the Ericsson design in M-PBN 2010A 18.2 18.2 Describe O&M network used for transport of management traffic

19 Describe the charging solution for M-PBN 2010A 19.1 Describe integration of Charging System and Multi-Mediation 19.2 Describe charging solutions based on SASN or SACC 19.3 Describe charging systems for Core Network Elements

IMS







Target audience


Prerequisites

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Time schedule



1 Overview







3 hours



3 Packet Switched





4 Circuit Switched


1 hour




5 Network View




2 hours


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M-PBN 2010A Concepts - Circuit Switched - Juniper Track

LZU 108 8042 R1A

Description


This course cover the scope of the M-PBN 2010A Circuit Switched network, the products involved as well as applied concepts and designs. On top of that, the content also includes Overview, Network View and Transport backbone of M-PBN 2010A using Juniper products.

Learning objectives


Overview






IP

Transport Backbone




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Time schedule



1 Overview







3 hours



3 Circuit Switched


1 hour




4 Network View




2 hours


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M-PBN 2010A Concepts - Packet Switched - Juniper Track

LZU 108 8046 R1A

Description


This course cover the scope of the M-PBN 2010A Packet Switched network, the products involved as well as applied concepts and designs. On top of that, the content also includes Overview, Network View and Transport backbone of M-PBN 2010A using Juniper products.

Learning objectives


Overview






IP

Transport Backbone




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Time schedule



1 Overview







3 hours



3 Packet Switched





4 Network View




2 hours


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M-PBN 2010A Concepts - IMS

LZU 108 8044 R1A

Description


The course is designed to provide an understanding of the M-PBN 2010A IMS network designs and students will be able to use this knowledge to appreciate and recognize the concepts in their network. The students will understand the main concepts under the M-PBN 2010A IMS Solution: Modularity, Scalabilty, Resilience, Security, QoS.

Learning objectives


IMS







Course description MPBN (1)

Documents

Transcript of Course description MPBN (1)