NTC 362 – FUNDAMENTALS OF NETWORKING – Complete Class Includes All DQs, Individual and Team Assignments – UOP Latest Purchase here: https://www.homework.services/shop/ntc-362-fundamentals-of-networking-complete-class-includesall-dqs-individual-and-team-assignments-uop-latest/
NTC 362
Fundamentals of Networking
Week 1:
Individual Assignment,Telecommunications Evolution Timeline
Week 2:
Integrative Network Design Project , Part 1
Review the assignment instructions in the University of Phoenix Material: Integrative Network Design Project.
Write a 3- to 5-page paper that includes the following based on your chosen Virtual Organization:
Explain the network’s fundamental characteristics and components.
Evaluate the current network topology.
Describe the standards applicable to this project.
Self-assess your work against the Peer Evaluation Rating Scale.
Week 2:
Learning Team Assignment, Analog and Digital Comparison Paper
Write a 3- to 5-page paper that provides a detailed technical analysis comparing the advantages and disadvantages of analog and digital technology. With this understanding, do the following:
Analyze the technologies for analog-to-digital and digital-to-analog conversions in telecommunications.
In analog technology, compare and contrast the advantages and disadvantages of amplitude modulation, frequency modulation, phase modulation, and Quadrature Amplitude Modulation (QAM).
Describe the specific modulation techniques that are used in a 56K modem, Asymmetrical Digital Subscriber Line, and Wi-Fi.
Explain the T(X) and the synchronous optical network (SONET) digital hierarchy.
Format your paper consistent with APA guidelines.
Week 3:
Integrative Network Design Project, Part 2
Review the assignment instructions in the University of Phoenix Material: Integrative Network Design Project.
Write a 3- to 5-page paper that includes the following based on your chosen Virtual Organization:
Explain the importance of communication protocols.
Identify the protocols in your design and provide rationale for your decision.
Define the overall network architecture.
Explain the usefulness of a traffic analysis.
Explain the terms latency, response time, and jitter, and describe their effect on overall network performance and on the performance of your chosen organization’s network.
Explain the effect of data rates on each part of the network.
Describe strategies to ensure the availability of network access in switched and routed networks.
Self-assess your work against the Peer Evaluation Rating Scale.
Week 3:
Learning Team Assignment, Protocol Paper
Write a 3- to 5-page paper in which you do the following: Describe the Open Systems Interconnection (OSI) protocol model.
Identify the advantages and disadvantages of circuit switching and packet switching—X.25, Frame Relay, Asynchronous Transfer Mode2, and Transmission Control Protocol/Internet Protocol (TCP/IP)—
regarding performance, speed and throughput potential, and end-to-end transmission reliability and predictability.
Identify major protocols for circuit switching and packet switching.
Week 4:
Assignment Hardware and Software Paper
Write a 3- to 5-page paper comparing the advantages of Time Division Multiple Access (TDMA), Frequency Division Multiple Access (FDMA), Code Division Multiple Access (CDMA), and Orthogonal Frequency Division Multiplexing, as used in wireless mobile communications.
Define the technical details of each access method, then compare their strengths and weaknesses in system use.
Address the following:
Explain radio frequency (RF) transmission characteristics.
Identify common frequency bands used in current RF communications.
Analyze the necessity for different protocols in wireless communications.
Compare the challenges of using satellites in end-to-end communications links.
Week 4:
Integrative Network Design Project, Part 3
Review the assignment instructions in the University of Phoenix Material: Integrative Network Design Project.
Write a 3- to 5-page paper that includes the following based on your chosen Virtual Organization:
Identify hardware and software needed to secure your choice of networks against all electronic threats.
Distinguish between local area networks (LANs), wide area networks (WANs), and wireless technologies.
Explain the concepts and building blocks of today’s data communication networks, such as switches, routers, and cabling.
Self-assess your work against the Peer Evaluation Rating Scale.
Week 5:
Assignment- WLAN Network
Week 5:
NTC 362 Week 5, Integrative Network Design Network (INDP)
Review the assignment instructions in the University of Phoenix Material: Integrative Network Design Project.
Review the following Learning Team assignments:
Analog and Digital Comparison Paper
Protocol Paper
Hardware and Software Paper
Consider how the information presented in each assignment applies to your chosen Virtual Organization.
Write a cumulative 3,500- to 4,200-word paper incorporating your prior work. Solve the design problems of your Virtual Organization. Illustrate all network design using Microsoft速Visio速 or Toolwire速.
Address the following in your paper:
Include a final network design. Include a timeline for the project. Explain the design approach and rationale. Analyze the detailed design. Prove that the design meets the data rate requirements. Analyze the existing security situation in the organization. Identify the predominant electronic and physical threats to communications networks. Explain the importance of explicit enterprise security policies and procedures. Describe potential threat detection and protection techniques. Explain the importance of explicit enterprise security policies and procedures. Describe how firewalls mitigate some network attack scenarios. Describe common security concerns inherent to wired, wireless, and mobile networking. Design a security hardware and software environment that will protect the organization.
Discussion Questions:
Write a 200- to 300-word response to the following: What is the nature of digital signals, binary, and other multilevel signal types? What are the advantages of digital signals over analog signals? Cover noise suppression in your explanation. Explain digital multiplexing, the digital T(X), and SONET hierarchy. Explain the differences between the American and European systems. Explain digital services such as Integrated Services Digital Network, Switched Multimegabit Data System, and Switch 56.
On the page xxx of our text book “Telecommunication Essential”, the author, Lillian Goleniewski explains the three areas of remarkable development that drive our networking evolution. The author says,There are three main measurements of the digital world: ■ Processing power, measured in the number of transistors and operations per second ■ Storage, measured in the number of bytes ■ Bandwidth, or digital data transmission, measured in bits per second At the end, she concludes, “As with CPUs (cost per MIPS) and storage (cost per KB), the cost per Kbps of bandwidth is rapidly approaching $0”. Do you agree with the author of the trend (Cost) rapidly approaching $0? If you don’t, why? If you do, then do you believe that the cost of Processing Power, Storage Power and Networking speed, will eventually be zero and we (normal people) will get these things for free.There are two kinds of switching technologies in telecommunication: Circuit Switching and Packet Switching. Which one comes first? Which one is more complicated? Which Switching Technology is easy to implement for voice communication?Please see the attachment. Is it appropriate to use the analogy of train track vs. free way system to explain Circuit Switching vs. Packet Switching? Voice over the Internet Protocol (VoIP). What is VoIP and how is it different from the Plain Old Telephone Service (POTS)? What are some issues an organization (not individuals) should analyze when evaluating the move from a traditional phone system to VoIP? Explain the impact (positive and negative) on an organization when moving to and using VoIP. What is the importance of explicit enterprise security policies and procedures? Many LAN administrators require frequent password changes. Why? What do you think is the purpose for this practice? Is this a valid process for strong security? Or could it be a weakness? What is a packet? What is packet switching? How would you explain the concept of packet switching? What are the advantages and disadvantages of packet switching over circuit switching? How would you describe “what is the internet?” How does it works? What makes the internet the same/different (technology wise) from other packet networks? (You may need to do additional
research on different WAN technologies). What’s the difference between the internet and the world wide web? Select one of the types of network processors such as hubs, switches, routers, and gateways? What are the advantages and disadvantages of your selection? What type of media is typically used for connectivity? What are the performance specs in terms of reliability, speed capabilities, and nominal distance for reliable spans with the typical media? Provide an example of how the selected network processor is used in the network. Briefly describing the benefits of the physical media type you chose. Briefly compare and contrast the media you chose with the others covered in the chapter. Describe why a business would choose this media. Be specific. Check out these websites on WiMax (http://www.wimax.com/, http://www.wimaxforum.org/). Combined the readings in Telecom Essentials, do additional research (such as the ERR, library and internet research), and answer the following questions: Briefly describe WiMax. What was the original intent of WiMax? How has it evolved? What are some of the upcoming visions for WiMax? Would you consider WiMax as a WAN alternative? Why/why not? What is a LAN subnet? What are some of the strategies for a network administrator to consider use subnetting (why do it)? What, if any, equipment is needed? Are there other alternatives that can accomplish similar results? Write a 200- to 300-word response to the following question: What are the predominant electronic and physical threats to communications networks?
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