Case Projects 3-1, 3-2, & 3-3 of the . what type of physica…
Case Projects 3-1, 3-2, & 3-3 of the . what type of physical and logical topology will be used for each scenario. Substantively explain the reasoning for your answer. a visual representation of each chosen topology by copying and pasting the shapes provided in Appendix D—such as a bus, ring, star, or mesh—into a Microsoft Word document. Note that you will need to use the Draw feature in Microsoft Word to create lines between the shapes, and you may have to use some shapes more than once. Refer to the Figures 3-1 through 3-4 of for examples. FYI: DO NOT AGREE TO COMPLETE THIS ASSIGNMENT UNLESS YOU CAN DO IT CORRECTLY! IF YOU DO NOT HAVE ANY IT EXPERIENCE OR HAVE NOT TAKEN THIS CLASS, DO NOT AGREE TO DO THIS ASSIGNMENT!
In order to determine the appropriate physical and logical topology for each scenario in Case Projects 3-1, 3-2, and 3-3, it is important to understand the specific requirements and characteristics of each scenario. By analyzing these factors, we can make an informed decision about the most suitable topologies.
Before delving into the specific topologies for each scenario, it is necessary to provide a brief overview of physical and logical topologies. Physical topology refers to the physical arrangement of network devices, such as computers, switches, and routers, and the medium used to connect them. Examples of physical topologies include bus, star, ring, and mesh. On the other hand, logical topology defines how data is transmitted over the physical network and how devices communicate with each other. Common examples of logical topologies include Ethernet, Token Ring, and ATM.
Starting with Case Project 3-1, which involves a small office with four computers and a printer, we need to consider the requirements of the scenario. Since the number of devices is relatively low, a simple and cost-effective solution is desirable. In this case, a star physical topology would be suitable. The computers and printer can be connected to a central switch or hub, allowing for easy management and maintenance. For the logical topology, Ethernet would be a logical choice, as it is widely used and provides efficient data transmission.
Moving on to Case Project 3-2, which involves connecting five regional offices to a central headquarters, scalability and reliability become important factors. Considering the geographic distribution and the need for interconnectivity, a mesh physical topology is appropriate. With a mesh topology, each office would have a direct connection to every other office, providing redundancy and fault tolerance. For the logical topology, a combination of Ethernet and Virtual Private Network (VPN) would be suitable. Ethernet would provide efficient local data transmission within each office, while VPN would ensure secure and private communication between the offices.
Finally, in Case Project 3-3, which involves connecting multiple departments within a single building, efficiency and centralized management are key considerations. A star physical topology would be suitable for this scenario, as it allows for easy scalability and centralized control. Each department can be connected to a central switch or hub, providing a centralized point of management. For the logical topology, a combination of Ethernet and VLAN (Virtual Local Area Network) can be used. Ethernet would provide efficient local data transmission within each department, while VLAN would enable the segregation and management of network traffic.
By carefully analyzing the requirements and characteristics of each scenario, we can determine the appropriate physical and logical topologies. These decisions should be based on factors such as the number of devices, scalability, reliability, and management requirements.