• TSS OSS-RC 10 TSS Operation LZU 108 7698 R1A
Duration and class size
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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, 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 User management
2 h 4 h 2 Disk & Volume Management
CIF Platform Overview
3 h 3 h 3 CIF Platform Services
Network Resource Model
4 h 2 h 4 Fault Management AXE NE Integration 4 h 2 h 5 AXE NE Integration AXD NE Integration IS NE Integration 2 h 2 h 2 h
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Networking and Ethernet Standards
LZU 108 5941 R2A
Description
Upon completion of this course, you will be able to explain the main principles of modern LAN and WAN technologies and concepts, from Ethernet to Wireless LAN.
Learning objectives
1 Describe Local Area Networks (LAN) and the Ethernet Standard 1.1 Define the building blocks in a LAN
1.2 Outline the different types of Ethernet standard
1.3 Explain data transmission in an Ethernet LAN - Ethernet frame 1.4 Understand Ethernet basics (CSMA/CD)
1.5 Outline the difference between a Hub and a Switch
1.6 Describe how to connect communication devices and design a LAN 2 Describe Wireless Local Area Networks (WLAN)
2.1 Describe two basic types of Wireless LAN (Ad Hoc and Infrastructure mode) 2.2 Outline the IEEE 802.11 standard and its applications
2.3 Outline the properties of Home RF
2.4 Understand Bluetooth drivers and communication models
Target audience
The target audience for this course is: Service Planning Engineers, Service Design
Engineers, Network Design Engineers, Network Deployment Engineers, Service Deployment Engineers, System Technicians, Service Technicians, System Engineers, Service
Engineers, Field Technicians, System Administrators, Application Developers, Business Developers.
Prerequisites
The participants should be familiar with Networking Basics, An Overview, LZU 108 5940.
Duration and class size
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Learning situation
This is a web-based interactive training course with multimedia content.
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 • Local Area Networks and the Ethernet Standard 1 hour 10 mins
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Networking Basics, An Overview
LZU 108 5940 R1B
Description
When you finish this course, you will have acquired knowledge of the basic networking principles and be able to describe how a PC communicates with other devices and networks.
Learning objectives
1 Explain the basics of networking
1.1 Outline the input and output devices of a PC and how they are connected 1.2 Describe the communication parameters necessary to understand connections 1.3 Describe physical and logical network topologies
2 Describe how to connect a PC to a datacom network
2.1 dentify and describe communication devices in a LAN (Hub, Switch and Router) 2.2 Understand the different types of cables (UTP,STP and Fiber Optical)
2.3 Explain how to connect computers to a LAN
2.4 Explain the difference between Internet and Intranet
2.5 Outline how to implement a Structured Cabling System (independent cabling system)
Target audience
The target audience for this course is: Service Planning Engineers, Service Design
Engineers, Network Design Engineers, Network Deployment Engineers, Service Deployment Engineers, System Technicians, Service Technicians, System Engineers, Service
Engineers, Field Technicians, System Administrators, Application Developers, Business Developers, Customer Care Administrators.
Prerequisites
There are no prerequisites for this course. The course is open to anyone wishing to gain a basic understanding of modern datacom networking technologies.
Duration and class size
The length of the course is 2 hours.
Learning situation
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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 • Network Basics 1 hour
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TSS 4.0 Introduction
LZU 108 6637 R3A Description
This course provides an introduction into the Telephony Softswitch (TSS 4.0 Feature
Package 1) concept, as part of this course we will look at the main conponents that make up the TSS 4.0 network. At the end of this introduction course students will have a good
understanding of what TSS 4.0 is and an introduction into it’s various conponents.
Learning objectives
On completion of this course the participants will be able to:
1 Describe the reasons for introducing the TSS solution and the benefits provided by the solution
1.1 Explain the functional architecture of the TSS 4.0 solution 1.2 Explain the signaling interfaces of TSS 4.0
1.3 Explain the use of the DNS server and ENUM in TSS 4.0 2 Describe the Different signaling in TSS 4.0
2.1 Understand some typical signaling sequences related to the TSS 4.0 2.2 Describe some terms and concepts used in TSS 4.0
3 Have a basic knowledge of the Integrated Site concept and how it is used with TSS 4.0 FP1
3.1 Have a basic idea of the HW structure within the Integrated Site concept 3.2 Have a basic understanding of the IS Blade and Blade System concept 3.3 Understand the role of the MGW and TGC in the Integrated Site concept
3.4 Be familiar with basic aspects of the management system for the Integrated Site and Integrated Site Application Blade Systems
4 Describe the APZ 21260
4.1 Outline the capacity of different APZ versions 4.2 Understand the APZ 21260 architecture
4.3 Understand the APZ subsystems and functions 4.4 Understand the layout of the APZ 21260 Cabinet 5 Describe the APG 43
5.1 Explain Key Features of the APG 43
5.2 Explain Hardware Differences between APG 40 (C2 / C4) and APG43 6 Explain the AXD 301 7.5
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Target audience
The target audience for this course is: Service Planning Engineers, Service Design
Engineers, Network Design Engineers, Network Deployment Engineers, Service Deployment Engineers, System Technicians, Service Technicians, System Engineers, Service
Engineers, Field Technicians, System Administrators, Application Developers, Business Developers, Customer Care Administrators
Prerequisites
The participants should have a good general knowledge of telecommunications.
Duration and class size
The length of the course is 1 day and the maximum number of participants is 16.
Learning situation
This course is based on theoretical instructor-led lessons given in a classroom environment.
Time schedule
The time required always depends on the knowledge of the attending participants and the hours stated below can be used as estimate.
Day Topics in the course Estimated time
1 TSS 4.0 Introduction
TSS 4.0 Signalling Introduction IS in TSS 4.0
Technologies in the Connectivity Network (APZ 21260) APG 43 AXD 301 R7.5 1.5 hours 1.5 hours 1 hour 1 hour 0.5 hour 0.5 hour
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TSS Dimensioning
LZU 108 6668 R3A Description
The course emphasizes on calculation and dimensioning of an Telephony Soft-switch FP1 (TSS 4.0) network. The focus is especially on capacity of the TeS, TGC/ML and MGWs nodes. For ML and MGWs, Integrated Site and AXD301 platforms are covered. The course includes also general TSS aspects needed to understand the included dimensioning
procedures.
The course contains presentations, exercises and cases in order to train the participants to handle the structuring, calculation and dimensioning of an TSS 4.0 network.
Learning objectives
On completion of this course the participants will be able to:
1 Retain basic understanding in the traffic theory used in TSS 4.0 dimensioning 1.1 Explain the Network Architecture for Telephony Softswitch Solution, TSS
1.2 Mention the protocols needed in TSS solution 1.3 Know the features in FP1
2 Mention the different terms and concepts regarding TSS 4.0 and TSS 4.0 FP1 solution
2.1 Describe the main components in TSS Solution 2.2 Describe the main TeS functions TCC, TGC, MGW/IC 2.3 Describe the MGW functions and the different GW in TSS 2.4 Shortly describe IS and its role in TSS
2.5 How the TGC and MGW can be implemented using IS 3 Describe the nodes in the TSS 4.0 solution
3.1 Describe the TSS solution nodes and the components and functions within each node 3.2 Pay attention to IS 2.0 solution
3.3 Understand how the capacity needed for TSS is depended on the type of traffic and type of access
4 Explain the Traffic Cases in TSS 4.0
4.1 Shortly describe the protocols needed in TSS solution 4.2 Describe terms and concepts needed in TSS Solution 5 Explain the call types
5.1 Describe basic concepts in Traffic Theory needed in dimensioning process 5.2 Understand and explain processor load Definitions
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6 Draw the Traffic distribution examples showing the traffic flows 6.1 Describe the Node Dimensioning process in TSS Solution
7 Calculate and Dimension the Capacity of IS-based ML/MGW 7.1 Explain the concept Reference call
7.2 Describe the different traffic cases in TSS 7.3 Explain the Workload concept
8 Calculate and Dimension the Capacity of AXD301 based ML/MGW 8.1 Explain for TeS Call Handling capacity for Reference Calls
8.2 Explain the different TGC platforms that can be used for TGC implementation 8.3 Go through the Workload factors (WLF) of TeS in TSS 4.0
8.4 Go through the Workload factors (WLF) for TGC implemented in IS and AXD 8.5 Explain the tables for MGW traffic and call handling capacity and WLF for MGW
implemented in IS and AXD 9 Calculate Work Load factors
9.1 Understand how the MGW can be dimensioned in a Transit solution 9.2 Understand how a TGC controlling several MGWs can be dimensioned 9.3 Understand how the MGW can be dimensioned in a Local solution 9.4 Understand how the TGC can be dimensioned in a Local solution
10 Calculate and Dimension the Capacity of the TeS in TSS 4.0 network 10.1 Understand the bandwidth needs
10.2 Learn to calculate bandwidth needs
Target audience
The target audience for this course is: Network Design Engineers, Network Deployment Engineers.
Prerequisites
Successful completion of the following course:
TSS 4.0 Introduction LZU 108 6637 R3A
Duration and class size
The length of the course is 3 days and the maximum number of participants is 16.
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This course is based on theoretical instructor-led lessons and exercises given in a classroom environment.
Time schedule
The time required always depends on the knowledge of the attending participants and the hours stated below can be used as estimate.
Day Topics in the course Estimated time
1 • TSS Architecture and node description 1.5 h
• Capacity Characteristics 1 h
• Concepts and Definitions 1 h
• Traffic Theory 1 h
• Node Dimensioning 1.5 h
2 • Reference Call and Work Load Factor (WLF)
• Traffic Cases
• WLF in TeS, MGW (implemented in IS or AXD)
• Examples
• Conclusion what to dimension
2 h
• Traffic Distribution examples 1 h
• MGW Dimensioning example 1 h
• TeS Dimensioning example 1 h
• Bandwidth dimensioning example 1 h
3 • Dimensioning Case 5 h
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