2. internetworks based on enterprise requirements.
LO3 Critically evaluate various multi-area routing functions and
benefits for routing efficiencies in network operations in order
to implement and verify routing in a complex enterprise
network.
LO4 Implement and verify a redistribution solution in a multi-
protocol network with control path selection and loop-free
topology according to a given network design meeting
enterprise requirements.
LO5 Evaluate common network security and performance issues
and identify the tools needed to control the path
INSTRUCTIONS
These instructions apply to the Project
Group Project (Weightage 20%) – The submissions should be
uploaded on the LMS by Session 12
This Project will focus on student’s ability to implement an
enterprise level network that runs multiple
routing protocols. The project should be conducted as a group
task by a group of 4 students. Upon the
implementation of the network, students should produce a
comprehensive report, which includes
screenshots of configuration of routers and other nodes, and
brief explanation of the screenshots.
Students should implement the network based on the given
scenario in a virtual environment using
7. Task 3: Configure BGP in the network
i. Configure eBGP Peering between Router 1 and ISP router
ii. Configure iBGP Peering between Router 1 and Router 2
Task 4: Securing routing table with Filtering Ingress Routes
i. Configure Ingress Filtering in ISP router
What to Submit.
During Session 3, students should present the member list and
one A4 page proposal on how they
would plan and implement the network.
During Session 5, students should demonstrate the initial
topology implementation on gns3 and
connectivity among the local sites. The configuration of Interior
Gateway Protocols is optional at this
stage.
During Session 10, students should demonstrate the
configuration of Interior Gateway Protocol and
connectivity between the two sites. Route re-distribution should
be configured for Interior Gateway
Protocol
During Session 12, students should demonstrate the
configuration of Exterior Gateway Protocol and
9. The proposal must contain i. Cover page with Unit Code, Group
Name, Unit Name
and Student IDs ii. Requirement
iii. Proposed
Solution
iv. Step Involved v. Potential Obstacles
Final Report 60
Report Layout The report style, language and structure should
be appropriate. All screenshots and descriptions need to be
compiled and in a single final report and any given suggestions
need to be incorporated. The report must contain
i. Cover page with Unit Code, Group Name, Unit Name and
Student IDs
ii. Table of Contents iii. Introduction iv. Technical Discussion
v. Critical Analysis vi. Conclusion
4
10. Introduction The students should include purpose of the report,
sections covered which should convince the reader that the
report is worth reading. Word count limit – 125 words
4
Technical Discussion
This section should include the configurations done in the
virtualized network environment. You should break down this
section into four tasks and include at least 7 screen shots from
each of these tasks and a brief description
i. Successful configuration of task 1
ii. Successful configuration of task 2
iii. Successful configuration of task 3
iv. Successful configuration of task 4
10
ITNE3007 Advanced Routing
12. vi. Evaluate WAN connection methods available for
connecting two sites
35
Conclusion Summarize your findings. Word count limit – 125
words
4
References Should follow IEEE style 3
Demonstrations 30
In class demonstration during Lesson 5
You are required to demonstrate in class i. Initial topology
implementation on gns3
ii. Connectivity among the local sites
10
In class demonstration during Lesson 9
13. You are required to demonstrate in class i. The configuration of
Interior Gateway Protocol
ii. Connectivity between the Melbourne and Sydney sites iii.
Route re-distribution should be configured for IGP
10
In class demonstration during Lesson 12
You are required to demonstrate in class i. The configuration of
Exterior Gateway Protocol
ii. Connectivity between all the nodes
10