PRUEBAS REALIZADAS A LOS AGREGADOS

LZU1087086 R1B

Description

This course provides participants with the skills and knowledge needed for managing an IS domain by exploring the elements involved in operation and maintenance and network configuration. This includes fault management, network management, hardware and software management of the IS infrastructure. Each task is complemented by practical exercises on a real IS. Participants will complete practical site management exercises using on-line documentation and the IS Management Interfaces. During the network configuration part of the training, the participants will work hands-on with configuration of the EXB and ISER blade systems.

Learning objectives

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

1. Describe and handle the recommended IS infrastructure Management Interfaces

Connect to the SIS (ISM), ISER, EXB and L3X using the recommended management interfaces

Be familiar with the structure of the ISM GUI Use the on-line help and documentation 2. Inspect and verify Network Configuration and ISP

Verify defined IS and BS Logical Networks, Subnets, Subnet Segments and VLANs Check the state of virtual routers

Check the routing table in Virtual Routers (VR)

Verify the state of logical and physical IP interfaces in the ISER Verify VR redundancy

Use the performance monitoring services for the EXB and MXB Know how to read and clear ISP counters

Know how to check the routing table in the L3X

Know how to check the state of logical and physical interfaces in the L3X 3. Manage Blade System Log Files

View BS log files in the ISM GUI

Transfer ASI and BS log files to a remote location

Know what types of log files that are handled by the IS central log service 4. Manage Software

Understand the function of the Private Software Management

Understand the difference between software group (swg) and software delivery package, blade swg and BS swg

Download new software Perform software updates

Describe in service upgrade from IS 1.2 to IS 2.0

Create and restore a blade system backup and site backup Manage backups (housekeeping of backups)

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5. Manage Hardware

Understand the role of the shelf manager

Inspect installed hardware in the ISM-GUI (sub-racks, blade systems and blades) Check valid blade types in the ISM-GUI

Transfer a copy of the Hardware Inventory to a remote location Lock and unlock blades and blade systems

Replace a faulty blade

Be familiar with visual indicators on the boards

Be familiar with performing in-service upgrades of infrastructure HW Understand the function of Private HW Management

6. Detect faults and act on them

Understand the role of the IS Fault Management function Explain the function of LAN FM

Monitor the IS in terms of alarm and event notifications Find relevant information on how alarms are ceased Understand how alarms are ceased

Transfer alarm and event logs

Create user defined alarm and event logs Explain how disc usage is controlled in the IS 7. Manage Users and Accounts

Handle user accounts, access permissions and password settings in the ISM Handle access permissions and password settings in the ISER

8. Configure Management Interfaces

Describe the role of Netconf in the IS CMF

Describe how to set up Northbound SNMP communication Enable SHTTP and SFTP

Understand how scripts can be used to simplify site management 9. Perform Hardware Configuration

Setup multi-subrack connections

Define blade systems and add blades to blade systems Describe the blade system startup procedure

10. Setup Basic Network Configuration

Describe the purpose of the IS common parameters and BS parameters Understand how BS parameters are mapped to the IS parameters

Map blade system network requirements to common Integrated Site resources Explain L2 Switching and the use of link aggregation in the IS

Understand how to configure L2 switching and LAG Explain the mapping between layer 2 and layer 3

Define logical networks, subnets, subnet segments and VLANs Define traffic classes for IS common resources

Configure tunnels in the ISER

Understand how to configure static routing in the ISER and L3X Describe the security capabilities of the ISER

Describe handling of Diffserv (Differentiated services) in IS

List the routing capabilities in ISER and exemplify basic OSPF configuration Target audience

The target audience for this course is: System Technician, System Engineer, Field Technician

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Prerequisites

Successful completion of the following courses: LZU102397 IP Networking (or similar knowledge) LZU1087085 IS 2.0 Overview

Duration and class size

The length of the course is 18 hours and the maximum number of participants is 8. Learning situation

Instructor Led Training (ILT). This course is based on theoretical instructor-led lessons and practical / hands-on exercises on IS systems.

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 Theory

• Introduction

• Management Interfaces

• Introduction to IS Network Management

• Blade System Log Files

• Software Management

3 h

1 Exercises

• Connecting to the SIS (ISM) and ISER using recommended management interfaces

• Using the on-line help documentation

• Verifying network configuration

• Checking the state of virtual routers

3h

1 • Viewing and transferring blade system log files

• Downloading new software and performing software upgrades

• Creating and restoring backups

2 Theory

• Hardware Management

• Fault Management

• Security Management

• Management Interface Configuration

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Exercises

• Replacing blades

• Transferring a HW inventory

• Handling alarm and event logs

• Locating cause of the errors using available documentation and tools (event and alarm lists)

• Managing ISM Users and Accounts

• Managing users in the ISER

• Enabling SFTP and HTTPS 3 h 3 Theory • Hardware Configuration • Network Configuration 3 h Exercises

• Defining blade systems and adding blades to blade systems

• Setting up multi-sub rack connections

• Defining logical networks, subnets, subnet segments and VLANs

• Creating and configuring virtual routers, tunnels and routing protocols in the ISER

• Defining link aggregation for the EXB

• Defining traffic classes for IS common resources

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IS MGW 2.0 Operation & Configuration

LZU 108 7694 R1A Description

This course will learn the students how to perform an initial installation and configuration of a Media Gateway (MGW) in the Integrated Site (IS). They will get theoretical background and practice in software and hardware installation, and network configuration of the Media Gateway. The position and the role of the IS MGW in ViG, IMT and TSS networks will be explored with reference to particular configuration.

This course provides the participants with the competence needed to configure the MGW for the Telephony Soft-switch (TSS 4.0 FP1 ) Feature Package 1 solution.

Learning objectives

On completion of this course the participants will be able to: 1 Explain the IS MGW system architecture and functions. 1.1 Describe the MGW Blade System (BS) and its functions. 1.2 Create and perform the basic MGW BS configuration.

1.3 Show the different IS MGW solutions in ViG, IMT and TSS 4.0 FP1. 2 Configure the IS MGW.

2.1 Explain the IS MGW Management Functional Areas (MFA). 2.2 Use the GUI and configure all MGW functions.

3 Configure the IS MGW Network.

3.1 Explain the IS MGW subnets and VLANs.

3.2 Configure IS MGW Logical Networks and VLANs.

3.3 Describe the traffic separation function (QoS) and define the Differentiated Services on the IS.

3.4 Configure QoS parameters.

3.5 Define the IP and LAN Traffic Classes in IS and MGW 3.6 Configure the ISER connectivity using redundancy. 3.7 Describe and define IPSec in the MGW network

3.8 Describe the MGW Blade and Blade System scalability 3.9 Describe the admission control and the MGW Redundancy. 4 Operate and maintain the IS MGW.

4.1 Describe the MGW O&M functions in IS 2.0

4.2 Explain the IS MGW Operation and Maintenance architecture.

4.3 Describe and use the MGW alarm and event functions to maintain the node. 4.4 Verify the network connectivity

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Target audience

The target audience for this course is: Network Design Engineers, Network Deployment Engineers, Service Deployment Engineers, System Technicians, Service Technicians, System Engineers,.and operator personnel performing Operation, Maintenance and Engineering tasks in IS based MGWs

Prerequisites

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

• Integrated Site 2.0 Overview LZU 108 7085 R1B

• Integrated Site 2.0 Operation and Configuration LZU 108 7086 R1B

The course “IP Network Configuration for Integrated Site” LZU 108 6669 R1A is not required but should be completed as well since it covers all aspects related to networking using IS.

Duration and class size

The length of the course is 2 days and the maximum number of participants is 8.

Learning situation

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

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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, Basic IS functions MGW architecture & Functions Create MGW Blade System Traffic handling in MGW H.248 and NB-signalng setup Exercises 1 h 1 h 1 h 1 h 1 h 1 h 2 IS MGW Networking

Logical net and and VLAN configuration

Dynamic routing, redundancy and QoS handling Exercises

1.5 h 1.5 h 1.5 h 1.5 h

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MN-OSS R6 to R8 Delta for TSS

LZU 108 6630 R2A

Description

This course will give the student knowledge about how to use the new and upgraded tools in the Telephony Soft Switch Solution support functions of the MN-OSS 8.0. After the course the students will be able to handle all the new and updated applications in order to operate the system.

Learning objectives

On completion of this course the participants will be able to: 1. Give an overview of the MN-OSS 8.0

1.1. Describe the work areas of MN-OSS 8.0

1.2. Describe the MN-OSS components: AXE,AXD,IMT,TSS 1.3. Describe the MN-OSS security levels

1.4. Describe the MN-OSS external interfaces 1.5. Describe the supported nodes

2. Explain differences between MN-OSS R6.0 and MN-OSS R8.0 on feature level 2.1. Describe the main differences between MN-OSS 6.0 and MN-OSS 8.0

2.2. Describe the tools have been removed in MN-OSS 8.0 2.3. Describe the tools have been upgraded in MN-OSS 8.0 2.4. Describe the tools have been added in MN-OSS 8.0

3. Give an overview of the MN-OSS 8.0 HW system implementation and the new system services

3.1. Describe the Hardware of MN-OSS 8.0

3.2. Describe the O&M architecture of MN-OSS 8.0 3.3. Describe the Node Hardening function

3.4. Describe the Hrdware Matrix

3.5. Describe the Business Continuity Management 3.6. Explain the usage of Health Check OPI

4. Describe the tools added in MN-OSS 8.0 4.1. Describe the SMIA tool

4.2. Describe SGw

4.3. Describe SN-CM application 4.4. Describe the XML Mediation

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5. Describe the tools updated in MN-OSS 8.0 5.1. Describe the updates in ALV

5.2. Describe the updates in BASE 5.3. Describe the updates in ACT 5.4. Describe the updates in PMR 5.5. Describe the updates in TMG

Target audience

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

Prerequisites

The participants should have successfully completed the following courses: MN-OSS Operations ToP LZU 108 6099

Or have equivalent knowledge & experience of MN-OSS R6.0.

Duration and class size

The length of the course is 2 days and the maximum number of participants is 8.

Learning situation

This course is based on theoretical and practical instructor-led lessons given on both classroom and technical environment using equipment and tools, which are accessed remotely.

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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 ₁

• Differences from 6.0 to 8.0 ₁

• System Implementation & Services ₂

• SMIA ₂

2 • SMIA 1

• SGW _0,5

• XML Mediation _0.5

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MN-OSS Operation for AXE

LZU 108 6632 R1A Description

This course will give the student knowledge about how to use the Telephony Soft switch Solution support functions of the MN-OSS 8.0. After the course the students will be able to handle all the standard applications in order to operate the system.

The focus of the course is communication, fault management and performance management of AXE and TSS based network element.

The course consists of modules with mostly practical sessions (task-oriented) but there will also be theoretical parts. The students solve the tasks on the training system, using the on- line documentation.

After the course the students should have the knowledge required to work as system operators, i.e. to perform the most common tasks required to operate and supervise AXE network elements.

Learning objectives

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

1 Describe the work areas of the MN-OSS as well as the HW implementation

2 Describe the structure and contents of the User Documentation and help functions 3 Use ONE to launch applications and customize a network browser view

4 Configure and Use CHA to communicate with, and manage AXEs 5 Configure and Use WinFiol to communicate with, and manage AXEs

6 Use Element Management Tools to communicate with and configure AXE network elements. Schedule scripts and system command files, use command/response log and subscribe to spontaneous reports

7 Describe and use the Command File Language (CFL) in OPS and produce simple OPS command files

8 Describe and use OPS both as a development tool and part of an expert system 9 Transfer files between MN-OSS & AXE (IOG) network elements using FHA and FTP 10 Use the Software Management Organizer, SMO to handle software packages and

files for AXE (IOG) (APG 40)

11 Use Fault Manager Tools to survey the network situation manage alarms, configure the way the alarms are presented, retrieve and analyze alarms from the alarm log 12 Use SMIA for setting up measurement jobs in the AXE based Network elements 13 Use SGW for collecting and handling of network statistical data for AXE based

network elements Target audience

The target audience for this course is: System Technicians, System Engineers, System Administrators.

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This audience is system operators, who need to know the MN-OSS system concept and how to operate the system on the Windows 2003, Windows NT or UNIX platform.

Prerequisites

The participants should have successfully completed of the following courses:

AXE Operation & Configuration LZU 108 6145 (or equivalent knowledge) Basic UNIX knowledge

Duration and class size

The length of the course is 3 days and the maximum number of participants is 8.

Learning situation

This course is based on theoretical and practical instructor-led lessons given in both classroom and in a technical environment using equipment and tools, which are accessed remotely.

Time schedule

The time required always depends on the knowledge of the attending participants and the hours stated below can be used as estimate

Day _{Topics in the course} Estimated Time

1 _{• Introduction} 0.5

• MN-OSS Library 0.5

• ONE 1

• Element Management Tools/WinFiol 4

2 _{• Element Management Tools/OPS} 2

• SMO/FHA 4

3 _{• SMIA/SGW} 2

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MN-OSS Operation for TSS

LZU 108 6631 R2A Description

This course will give the student knowledge about how to use the Telephony Soft switch Solution support functions of the MN-OSS 8.0. After the course the students will be able to handle all the standard applications in order to operate the system.

The focus of the course is communication, bulk configuration, fault management and performance management of AXE and TSS based network element.

The course consists of modules with mostly practical sessions (task-oriented) but there will also be theoretical parts. The students solve the tasks on the training system, using the on- line documentation.

After the course the students should have the knowledge required to work as system operators, i.e. to perform the most common tasks required to operate and supervise AXE and TSS network elements.

Learning objectives

On completion of this course the participants will be able to: 1. Explain the MN-OSS implementation and structure 1.1. Describe the work areas of MN-OSS

1.2. Describe the MN-OSS components: AXE, AXD, IMT ,TeS 1.3. Describe the MN-OSS security levels

1.4. Describe the MN-OSS external interface 1.5. Describe the supported nodes

2. Explain the different types of documentation for MN-OSS 2.1. Describe the structure of ALEX

2.2. Find relevant information in ALEX regarding MN-OSS functions and applications 2.3. Describe the documentation/help in AMS for AXD301 nodes

3. Explain the functionalities of ONE application

3.1. Use the ONE GUI to access the available support activities for O&M in the network 3.2. Find network objects and view object properties

3.3. Create and edit a network browser view 3.4. Launch applications

4. Explain the CHA application towards AXE nodes as a handling tool 4.1. Describe CHA for communicating with and managing AXE nodes 4.2. Describe how to run command files by using CHA

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5. Explain the EMT tools and Winfiol for managing AXE nodes

5.1. Perform Element Management by communicating with and configuring AXE network elements

5.2. Use Winfiol to communicate with AXEs

5.3. Use CLS to search in the Command and Response log

5.4. Setup time activation of command files/scripts with the Activity Manager 5.5. Set up subscriptions of spontaneous reports with the SRM

6. Describe the OPS application

6.1. Explain and use OPS both as a development tool and part of an expert system 6.2. Run command files by using OPS

6.3. Edit existing command files

6.4. Create and debug simple command files

7. Explain the SMO tool for performing SW and (optional) HW administration of AXE nodes

7.1. Describe SMO for handling software packages and files for AXE (IOG) (APG40) 7.2. Describe how to view network element details

7.3. Monitor started jobs 7.4. Run SMO procedures

8. Explain FHA application functionalities as both an AXE file destination and processing system

8.1. Transfer files between MN-OSS and AXE nodes using FHA 8.2. Describe how file transfers may be initiated to and from AXE 8.3. Setup and perform a file transfer between MN-OSS and AXE

8.4. Describe the structure of the AXE and MN-OSS file stores and be able to use them 8.5. Understand the file subscription to other external system

8.6. Describe how to set up post processing of files

9. Explain Fault Management implementation in MN-OSS 9.1. Describe the Fault Handling functions in MN-OSS

9.2. Use FM tools to manage alarms and configure the way they are presented 9.3. Configure the GNIP and connect the Alarm Status Viewer

9.4. Configure the ASM and interpret the different objects and alarm symbols 9.5. Configure and filter the information in ALV

9.6. Acknowledge alarms and write comments in ALV

9.7. Use filters to retrieve alarms and statistics from the alarm log with the ALB 10. Explain Performance management implementation in MN-OSS 8.0

10.1. View,Create,Modify,Copy,Delete and stop measurement jobs in AXE NEs with SMIA 10.2. Initiate audits on AXE nodes and check their current status

10.3. Display the MML/Error/Audit/Activity log s associated with administration of the measurement jobs

10.4. Print the STS DB Collection status 10.5. Explain the SGW functionality

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