Desafíos para el registro climático global

LZU1088266 R4A

Description

This course provides the participant with the knowledge required to use Engineering Rules to engineer the elements of a P-MSC Network to meet specified Capacity requirements. The rules, methods and formulae to required to dimension each P-MSC node is described in detail. The course teaches the participant how to use Statistics from Operational

Measurements (OMs) and Performance Measurements (PMs) to monitor system capacity and performance to ensure that the P-MSC network elements are operating within

Engineering Guidelines. This course is applicable to CDMA P-MSC Capacity & Performance Engineers.

Learning objectives

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

1 Identify the CDMA P-MSC NETWORK ENGINEERING AND CAPACITY PLANNING course objectives and agenda.

2 Describe the factors that influence Network Design and voice quality. 2.1 Describe the design cycle.

2.2 Describe network traffic engineering for voice quality. 2.3 Identify factors related to voice quality.

2.4 factors related to delay.

3 Describe the tools used to collect performance data and the Key Capacity Indicators (KCI) and Key Performance Indicators (KPI) for the P-MSC solution.

3.1 Identify management and data collection in the P-MSC solution. 3.2 Describe data collection for the P-MSC solution.

3.3 Describe the characteristics of operational measurements (OM).

3.4 Describe Key Capacity Indicators (KCI) and Key Performance Indicators (KPI) for the 3.P-MSC solution.

4 Describe the engineering rules, capacity thresholds, OMs and PMs used for MSC SERVER 2000/3000 Engineering and Performance analysis.

4.1 Describe the capacity of the MSC Server 2000.

4.2 Describe the information from the PMSC Speedometer tool. 4.3 Explain how to use Logs and operational measurements (OM). 4.4 Describe call completion rates.

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4.5 Describe information related to trunk performance within the P-MSC Solution. 4.6 Describe Quality of Service (QoS) information related to performance.

4.7 Given a scenario, identify CP OM information related to performance. 4.8 Given a scenario, identify CP2 OM information related to performance. 4.9 Given a scenario, identify STORE OM information.

5 Describe the engineering rules, capacity thresholds, OMs and PMs used for

GATEWAY CONTROLLER ENGINEERING Engineering and Performance analysis. 5.1 Identify engineering considerations related to the MSC Server Gateway Controllers. 5.2 Identify information to monitor on the Gateway Controller (GWC) as part of GWC

surveillance activities.

5.3 Identify the Call Loss Rate for the Gateway Controller. 5.4 Identify capacity monitoring for the Gateway Controller.

5.5 Identify the Call Delay Rate for the Gateway Controller (GWC). 5.6 Analyze Gateway Controller (GWC) performance.

6 Describe the engineering rules, capacity thresholds, OMs and PMs used for VSE GWC Engineering and Performance analysis.

6.1 Describe supported VSE GWC configurations 6.2 Describe VSE GWC Dimensioning Rules 6.3 Describe VSE GWC Capacities

6.4 Describe VSE GWC KPI/KCI

7 Describe the engineering rules, capacity thresholds, OMs and PMs used for DYNAMIC PACKET TRUNK Engineering and Performance analysis.

7.1 Identify engineering considerations related to the Dynamic Packet Trunks (DPT). 7.2 Describe Legacy Mobile System Domain (LMSD).

7.3 Identify how to monitor the DPT performance.

8 Describe the engineering rules, capacity thresholds, OMs and PMs used for USP Engineering and Performance analysis.

8.1 Describe capacity and dimensioning for the Universal Signaling Point (USP). 8.2 Analyze the performance and capacity of the Universal Signaling Point (USP). 8.3 Analyze the performance of the Universal Signaling Point.

9 Describe the engineering rules, capacity thresholds, OMs and PMs used for SSG Engineering and Performance analysis.

9.1 Describe the characteristics of the SIGTRAN Services Gateway (SSG). 9.2 Describe the hardware of the SIGTRAN Services Gateway (SSG).

9.3 Describe capacity and dimensioning for the SIGTRAN Services Gateway (SSG). 9.4 Analyze the performance and capacity of the SIGTRAN Services Gateway 10 Describe the engineering rules, capacity thresholds, OMs and PMs used for MS

2010/2030 Engineering and Performance analysis.

10.1 Describe the characteristics and functions of announcements and conferencing for the MS2010 and the MS2030.

10.2 Identify engineering considerations related to the Media Server 2010 and the MS2030.

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10.4 Describe performance monitoring for the Media Server 2000s.

11 Describe the engineering rules, capacity thresholds, OMs and PMs used for ERS 8600 Engineering and Performance analysis.

11.1 Identify the engineering considerations related to the Ethernet Routing Switch 8600 (ERS8600).

11.2 Identify factors to consider in analyzing the performance of the Ethernet Routing Switch 8600s.

12 Describe the engineering rules, capacity thresholds, OMs and PMs used for SMARTEDGE 1200 Engineering and Performance analysis.

12.1 Identify factors to consider in analyzing the performance of the SmartEdge 1200 (SE1200).

13 Describe the engineering rules, capacity thresholds, OMs and PMs used for MGW Engineering and Performance analysis.

13.1 Identify the engineering considerations for the MGW.

13.2 Describe factors involved in the Internet Protocol (IP) quality of service. 13.3 Identify how to calculate the PSN bandwidth for the MGW.

13.4 Describe MG 15000 performance measurements (PM) and thresholds. 13.5 Describe performance measurements and monitoring of the Voice Service

Processors on the MG 15000.

13.6 Describe IP physical interface performance measurements.

13.7 Describe how to monitor the Ethernet link performance using the inbound and outbound discard rate.

14 Describe the OMs used for TrFO2 Performance analysis. 14.1 Identify OMs used to analyze the performance of TrFO2 15 Describe the P-MSC IP requirements.

15.1 Identify IP guidelines and requirements for the P-MSC network and network components.

Target audience

The target audience for this course is:

Network Design Engineer, Network Deployment Engineer, System Engineer, Service Engineer

Prerequisites

Successful completion of the following courses: LZU1088408 CDMA Portfolio Overview

LZU1088407 CDMA Core Network Overview LZU1088702 Ericsson CDMA VSE Overview LZU1088701 Ericsson CDMA MGW Overview

306/03819-FAP 130 506 Uen Rev A Commercial in Confidence Ericsson AB Global Services SE-164 80 Stockholm Telephone: +46 10 719 0000 www.ericsson.com/ourportfolio/services/learning-services © Ericsson AB 2012

LZU1088681 Ericsson CDMA MS/MRF & AFC Overview LZU1088689 Ericsson CDMA SE1200 Overview

LZU1088690 Ericsson CDMA ERS 8600 Overview LZU1088685 CDMA SAM21 and GWC Overview LZU1088687 Ericsson CDMA USP Overview LZU1088686 CDMA PMSC CBM Overview

Duration and class size

The length of the course is 3 days and 0 hours and the maximum number of participants is 1.

Learning situation

This class is available in virtual classroom training.

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 (hours)

1 1 COURSE INTRODUCTION

_{10 minutes}

1 2 NETWORK DESIGN & VOICE QUALITY

30 minutes

In document Financiado por: Programa de Investigación Asociativa PIA CONICYT (página 99-102)