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Design and Implementation of a Campus/University System Network Design (Project #4)

Project #4 Case Study and Requirements
Albion University is a large university which has two campuses situated 20 miles apart. The university’s students and staff are distributed in 4 faculties; these include the faculties of Health and Sciences; Business; Engineering/Computing and Art/Design. Each member of staff has a PC and students have access to PCs in the labs. Create a network topology with the main components to support the following:
  • University location.
    Main Campus
    - Building A: Administrative staff in the departments of management, HR and finance. The admin staff PCs are distributed in the building offices and it is expected that they will share some networking equipment (Hint: use of VLANs is expected here). The Faculty of Business is also situated in this building
    - Building B: Faculty of Engineering and Computing and Faculty of Art and Design.
    - Building C: Students’ labs and IT department. The IT department hosts the University Web server and other servers - There is also an email server hosted externally on the cloud.
    Smaller campus:
    Faculty of Health and Sciences (staff and students’ labs are situated on separate floors)

  • Each department/faculty is expected to be on its own separate IP network.
  • The switches should be configured with appropriate VLANs and security settings.
  • RIPv2 will be used to provide routing for the routers in the internal network and static routing for the external server.
  • The devices in building A will be expected to acquire dynamic IP addresses from a router-based DHCP server.
Configure in Packet Tracer the network with appropriate settings to achieve the connectivity and functionalities specified in the requirements.

Technologies Implemented
  1. Creating a network topology using Cisco Packet Tracer.
  2. Hierarchical Network Design.
  3. Connecting Networking devices with Correct cabling.
  4. Creating VLANs and assigning ports VLAN numbers.
  5. Subnetting and IP Addressing.
  6. Configuring Inter-VLAN Routing (Router on a stick).
  7. Configuring DHCP Server (Router as the DHCP Server).
  8. Configuring SSH for secure Remote access.
  9. Configuring RIPv2 as the routing protocol.
  10. Configuring switchport security or Port-Security on the switches.
  11. Host Device Configurations.
  12. Test and Verifying Network Communication.
Network Topology Created
The network topology below satisfy the user requirements above and everything is verified, tested and working fine. You can get source file (Packet Tracer File) or watch on YouTube below.

How to Get Source File or Watch the Project on YouTube

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  2. Watch Full Project on YouTube

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