DIT07M7-SP Foundations of TCP/IP and VoIP

DIT07M7-SP Foundations of TCP/IP and VoIP

  • Duration:
  • Investment: US$ 199.00
Certificate:

Must complete all lessons

Content

Viewed
Overview

Description

A network consists of a larger number of the communication devices like Routers, Repeaters, Hubs and Switches. A router works like a traffic light between the networks. Without routers there would be no Internet.
Today, IP is the main protocol in use on the Internet, as it is a routed protocol. A routing protocol specifies how routers communicate with one another. The routing protocol also specifies how routers in a network share information with each other and report changes. Some of the common routing protocols include IGRP, EIGRP, OSPF, IS-IS and BGP.
This course covers some basic topics in networking like routers, hubs, bridges, repeaters, routing concepts and protocols.
After completion of this course, students will get a clear view on Basics of switches, Hubs and Bridges, routing basic concepts, hierarchical routing and about some advanced routing concepts.

 

WHO SHOULD COMPLETE THIS COURSE?

  • Networking Technicians
  • Systems Engineers
  • Computer science & Networking Engineers
  • Telecommunication Engineers
  • IT Engineers
  • Process Engineers
  • Electronics Engineers

 

COURSE OUTLINE

REPEATERS, HUBS & BRIDGES

  • Allow the Network to Grow
  • Repeaters: Physical Layer
  • Hubs: Physical Layer
  • Bridges: Link layer
  • Bridge operation
  • Transparent Bridge
  • Store & forward bridge

 

SWITCHES

  • Switches: Link layer/ Network layer
  • Ethernet switches
  • Micro segmentation
  • Switches advantages/disadvantages
  • Switch table
  • Loops

 

SPANNING TREE PROTOCOL & VLAN

  • Spanning tree protocol
  • Bridge PDUs & ID
  • Spanning tree port states
  • Election of root switch/port
  • Spanning tree address management 
  • STP: Simulation (1)
  • Virtual LAN (VLAN)
  • Tagged VLAN
  • IEEE 802.1 p/Q Header

 

ROUTING BASICS & PRINCIPLES

  • Routing fundamentals
  • Routing options
  • Destination-based routing
  • Routing components
  • Routing table & algorithm
  • Routing protocol
  • Routing metrics

 

CLASSIFICATIONS OF ROUTING ALGORITHM 

  • Classifications of routing algorithm
  • Two methods of operation
  • Static routing
  • Three methods of dynamic routing
  • Convergence

 

DYNAMIC ROUTING: DISTANCE-VECTOR

  • Distance-vector algorithm
  • Distance-vector routing
  • Distance-vector: Simulation 1
  • Distance-vector: Simulation 2
  • Distance-vector: Simulation 3
  • Distance-vector count to ∞
  • Advantages/Disadvantages of distance vector

 

LINK STATE & HYBRIDIZED ROUTING

  • Link-state routing
  • Advantages/Disadvantages of Link-state routing
  • Hybridized routing
  • BGP routing

 

ROUTING PROTOCOLS: RIP

  • Hierarchical routing
  • IGP – EGP
  • Origin of RIP
  • RIP packet format
  • RIP timers
  • Routing database
  • IP RIP 2 packet
  • Limitations of RIP

 

ROUTING PROTOCOLS: IGRP & EIGRP

  • Goals of IGRP
  • Limitation of IGRP
  • Metrics
  • RIP and IGRP comparison
  • Enhanced Interior Gateway Routing Protocol (EIGRP)
  • EIGRP packet types, capabilities & attributes
  • Routing techniques
  • Routing concepts

 

ROUTING PROTOCOLS: OSPF

  • OSPF characteristics
  • OSPF areas
  • OSPF features

 

ROUTING CONCEPTS: MPLS

  • Multi-Protocol Label Switching (MPLS)
  • WAN topologies
  • MPLS principle
  • MPLS characteristics
  • Label switching with ATM
  • MPLS label format

 

COMPONENTS OF MPLS

  • MPLS components
  • Control plane
  • Label switch router
  • Edge label switch router
  • Label Information Base (LIB)
  • Label Forwarding Instance Base (LFIB)
  • Label distribution Protocol (LDP)

 

ADVANCED ROUTING CONCEPTS

  • Internet Protocol Security – IPSec
  • Access Control Lists (ACLs)
  • Hierarchical routing
  • Quality of Service
  • MPLS QoS
  • Multi-layer 2 protocols
  • Protocol-Interdependent Multicast
  • Redundant paths

Investment

Plan Name Investment
Unlimited Access for 2 Years: US$ 199.00

Instructor

Brian Hobby

BE (Electrical and Electronic) Auckland University

Brian has 20 plus years of engineering experience. He thinks in systems and the connections between them as a result of his time as a Naval Weapons Electrical Engineering Officer.

As a design, commissioning and project engineer with Rio Tinto Alcan he oversaw the first application of devicenet in an aluminium smelting environment and assisted with piloting fully automated anode changing.

More recently he has been involved with collecting data from process using the OSISoft historian and using their toolset for analysis.  His experience with networking goes back to becoming the accidental sysadmin for a Novell Netware system in the early 1990’s and has been a part of his roles ever since.

He is now ISA99 qualified and currently works for Griffith University as a Technical Lead (IT and Engineering) where he is assisting in collecting and analysing data in support of their sustainability initiatives.

Viewed
Duration
Overview