9/25/12 Chapter 5 Mini-case MIS-589-19217
Armando Gomez
II. Central University
Suppose you are the network manager for Central University, a medium-size university with 13,000 students. The university has 10 separate colleges (e.g., business, arts, journalism), 3 of which are relatively large (300 faculty and staff members, 2,000 students, and 3 buildings) and 7 of which are relatively small (200 faculty and staff, 1,000 students, and 1 building). In addition, there are another 2,000 staff members who work in various administration departments (e.g., library, maintenance, and finance) spread over another 10 buildings. There are 4 residence halls that house a total of 2,000 students. Suppose the university has the 128.100.xxx.xxx address
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3. College 3 router with 3 buildings will be assigned the IP address 128.100.255.3. Each building has its own separate LAN. LAN 1 will be assigned the IP address 128.100.7.x. LAN 2 (128.100.8.x), and LAN 3 (128.100.9.X).
4. The rest of college buildings 4 through 10 have one LAN and one router. LAN IP’s will be respectively as follows: College 4 (128.100.10.x), College 5 (128.100.11.x), College 6 (128.100.12.x), College 7 (128.100.13.x), College 8 (128.100.14.x), College 9 (128.100.15.x), and College 10 (128.100.16.x). Router IP’s will be respectively as follows: (128.100.255.4), (128.100.254.5), (128.100.255.6), (128.100.255.7), (128.100.255.8), (128.100.255.9), and (128.100.255.10).
5. Administration departments spread over another 10 buildings. LAN IP’s: Building 1 (128.100.17.x), Building 2 (128.100.18.x), Building 3 (128.100.19.x), Building 4 (128.100.20.x), Building 5 (128.100.21.x), Building 6 (128.100.22.x), Building 7 (128.100.23.x), Building 8 (128.100.24.x), Building 9 (128.100.25.x), and Building 10 (128.100.26.x). Router IP’s will be respectively as follows: (128.100.254.11), (128.100.254.12), (128.100.254.13), (128.100.254.14), (128.100.254.15), (128.100.254.16), (128.100.254.17), (128.100.254.18),
City Hall will host the Layer 3 routers and switches, in addition point to point source radios. Connecting the 9 schools and 9 buildings using the PTP radios and then distributed with simple Layer 2 switches to wireless access points located inside each of the buildings.
| Given a network topology of two or more routers and an IPv4 addressing scheme, implement static routing and confirm layer 3 connectivity.
Based on our designs ranging from the WAN of the overall network, LAN of each individual
Newton’s rural satellite office is requiring at least 200 users/PCs. The IP assignment for this branch is going to be 192.168.103.0/24. The addressing will start at 192.168.103.1 and continue to 192.168.103.254 giving the remote office 254 IP addresses. Address 192.168.103.0 will be reserved for the switch. The subnet mask for this range is going to be 255.255.255.0.
Develop a subnetting plan and implement it in the lab. Configure RIP as a routing protocol.
Library is interested in an upgrade to its network system. Students have complained about occasional downtime and slow response times when accessing the network, especially at peak access times. At a minimum, Library wishes to correct these issues through an upgrade to their system, but management is also looking to be able to improve productivity and increase security of the confidential data sent over their network.
The University has recently leased a building in Adelphi, Maryland to house offices, classrooms, library, and computer labs. The goal of this proposal is to design a network for these facilities. The Student computers are to be on a separate network from the staff computers. The facility will share one Internet connection (T-1 link from Verizon). With a T-1 link the network will be able to function with the speed of 1.544 mbps over 24 channels each running 64 kbps (Labsim). Security is always a big concern and has been taken into consideration. Additional considerations for each floor/classroom/lab/office include printing capabilities and the WiFi (Wireless Access) in the Student Lobby.
Ranging from only free access option to overpriced hotspot in a box option. Then we talked about the location of our project in next chapter. We considered a number of locations that we can implement our project and we explained our reason the location we chose. In chapter 8 we talked about all the necessary equipment we need for the project, and the reason. Chapter 9 deals with the design and physical setup of the network, where the next chapter we discussed the issues of configuring routers, our access point. Cpahter 11 and 12 is detailed and visual aided step by step configuration of the ZoneCD and PublicIP respectively. In the following chapter we tested for the accuracy and effectiveness of our project. We concluded our project with personal thought and opinion in the 14th chapter.
Determine the IP addresses that you will use for the required interfaces on the three routers and two switches. Use the information in the Addressing Table and follow the guidelines below:
The current network has approximately 3000 end users in which 2500 are students and 500 staff members furthermore we have 240 access points through which any users can connect to the
The company being discussed in this paper is a small-sized network consulting business that concentrates on LAN setup, Inter-LAN routing framework, topology structures, and VLAN setups. Our quality group of specialists is all CCIE certified in the wide-ranging yet specific services that our company offers for the 2 networks when they are combined. Numerous of our experts are extremely renowned ranked high in the sector.
Each department will be on a separate Local Area Network (LAN) segment from the other departments.
The facility being examined is used by several departments that conduct minor functions such as payroll, network surveillance, business training, and IT maintenance. There are very few offices, and most services are part of larger off-site departments. Nevertheless, the facility also serves a vital role as a data center and a node in emergency call routing center for a large geographic network.
A LAN network (Local Area Network) is an establishment created when clients or devices such as computers and phones etc. with the right networking specifications allowing them to be connected with each other using a common connecion such as Ethernet or wireless. This establishment allows the sharing of resources from the device through the network and to the desired destination such as another device e.g. Mobile phone, pc, tablet etc. all locally within the network by Ethernet etc. In this scenario the LAN network is used for gaming where two computers connected to the same network are trying to connect with each other to allow an established connection between the two allowing data to be shared, effectively creating a game server. A user will mainly use a specific LAN to share data between clients by pairing them together.