Length

5 days

Course Overview

This course is intended to be a technical introduction to Unified Communications and converged Internet Protocol Networks. The course presents an incremental approach to designing, deploying and supporting an IT infrastructure for Unified Communications. The range of topics includes network technologies, Virtual LANs, Ethernet, Frame-Relay, MAC addresses, IP Addresses and TCP/IP - the discussion encompasses not only on these topics but also how they specifically relate to the successful operation of a complex converged network as typically used in most corporate enterprise environments today. The class will introduce the technologies used to create a robust and reliable IT infrastructure and incrementally build throughout the week to finally incorporate full interoperability to legacy Telecom devices and the VoIP components. Students will get hands-on experience and practice with TCP/IP design and sub and super-netting. Additionally, students will be given hands-on exercises with Cisco Router Configuration and Cisco Unified Communications Manager 5.1 (formerly Cisco CallManager) and the support of legacy Analog Telecom and Cisco IP Telephones.

Target Audience

The target audience for this course includes anyone who needs to gain a basic understanding of VOIP: individuals with strictly a PBX or Telecom Service Provider background; individuals with a fundamental data networking background who are moving into the area of converged networks; individuals who are new to supporting data networking projects such as someone with a Project Management or Business Administration background.

Course Objectives

After completing this course the student should have:

• Describe how various networks including Ethernet, Frame Relay, and MPLS function
• Describe network addressing including MAC, IP, and DLCI.
• Describe networking and network protocols in the TCP/IP suite.
• Describe networking equipment and its use including IP and Analog Phones, Cisco Routers, and Cisco Unified Communications Manager (UCM)
• Describe telephony and signaling, comparing TDM and VoIP
• Describe VOIP signaling protocols including H.323, SCCP, and MGCP.
• Describe how to ensure Voice Quality on IP networks utilizing Quality of Service.
• Navigate the Command Line Interface on a Cisco Router
• Configure Cisco Router "dial-peer" to support working VOIP environment
• Add and integrate a Cisco IP Phone to interoperate with legacy equipment.

Course Outline

Day 1

1. OSI Model Overview
2. Binary Numbering
3. Classifying Network Addressing
4. Calculating Subnet Masks
5. Operating IOS
6. Switch Startup
7. Router Startup
8. Router Configuration
9. Switch and Router Startup and Initial Configuration LAB
10. Discovering Neighbors on the Network
11. Getting Information about remote devices
12. Managing Router Startup and Configuration
13. Gathering Information about Neighboring Devices LAB

Day 2

1. Introducing Basic L2 Bridging and Switching
2. Identifying problems that occur in redundant switched topologies.
3. Introducing Spanning Tree
4. Configuring a Catalyst Switch LAB
5. Introducing VLANs
6. Configuring VLANs LAB

Day 3

1. Introducing Dial Plans
2. Creating Dial Plans in Cisco Routers
3. Discussion of Codec's sampling of Analog Voice and the conversion to a TCP/IP packet
4. Discussion of the H.323 Client Control Protocol
5. Configuring Dial Peers on a Router LAB

Day 4

1. Introducing Unified Communications Manager
2. Discussion of Unified Communications Deployment Models and Architecture
3. Discussion of SCCP and MGCP
4. Adding MGCP Gateway to CallManager
5. Adding IP Phones to Call Manager and Establishing Calls to Analog Phones LAB

Day 5

1. Discussion of SCCP and MGCP
2. Adding MGCP Gateway to CallManager
3. Adding IP Phones to CallManager and Establishing Calls to Analog Phones Lab
4. Availability, Survivability and Integrity considerations