Free List Of Best Computer Networking Dissertation Topics Ideas

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Computer networking is basically a set of interconnected devices connected via wires or wireless connections for the purpose of data sharing and transfer. Computer networking dissertation topics and ideas include a lot and our experts have covered almost all the principles and components of computer networking to provide you with the best and unique topics for dissertation proposal writing.

At Dissertation Help Services UK, our experts take care of all the rules and regulations essential for dissertation topic creation. We make sure that the topics provided to you are resonating your interests which can help you achieve better grades and a good career as you step into professional life after the completion of your university.

Topics In Computer Networking We Have Expertise In

Our experts have an excellent grip on various computer networking topics including, wireless sensor networks, 4G & 5G, network evaluation, network architecture, networking & security, vehicular ad hoc networks, and virtualisation.

They have also helped students in cloud computing, cognitive radio, communication, internet of things, mobility management, network protocols, network management, network security & services by answering their write my dissertation queries promptly.

In recent times our experts got the opportunity to write on scheduling, software networks, active attacks, authentication, flexible optical networking, and device-to-device communication, and they assisted students in achieving astonishing numbers.

List Of Computer Networking Dissertation Topics In UK

Technology Dissertation Topics are one of the most demanding ones students look for. Hence, we have gathered computer networking dissertation topics for you. You can select any of the topics from the below list, that you think is best for you. You can also mould or modify these topics as per your requirements or as instructed by professors. Moreover, you have the option to fill out the form on this page and get 100% fresh yet original topics for your computer networking dissertation.

1. Performance evaluation of different routing protocols for wireless sensor networks.

Aim

The key aspect of this dissertation aims to analyse the effectiveness of various routing methods for wireless sensor networks (WSNs). The following are the key objectives of the study.

Objectives

  • To investigate the use a simulation framework for rating routing protocol performance.
  • To analyse the benefits and drawbacks of each routing protocol and offer suggestions for enhancing performance.
  • To determine the brand-new routing protocol for WSNs that fixes the flaws in current ones and boosts overall network performance.


2. Investigating the impact of network congestion control algorithms on video streaming quality.

Aim

The key aspect of this dissertation ensures to investigates the factors how network congestion control strategies affect the caliber of video streaming. The following are the key objectives of the study.

Objectives

  •  To determine the significant elements influencing video streaming quality, such as packet loss, latency, and throughput.
  •   To identify deploy a simulation system for assessing the influence of congestion control strategies on video streaming quality.
  • To analyse the advantages and disadvantages of each congestion control strategy and make recommendations for enhancing video streaming quality.


3. Designing an efficient network architecture for data center interconnection.

Aim

The main aim of this dissertation is to create an efficient network architecture for interconnecting data centers. The following are the key objectives of the study.

Objectives

  • To identify the requirements and challenges of data center interconnection, such as scalability, reliability, and performance.
  • To access the significant requirements and challenges of data center interconnection, such as scalability, reliability, and performance.
  • To investigate the proposed network design using tests and simulations, taking into account various traffic patterns and workload scenarios.


4. Analyzing the effectiveness of network coding techniques in improving throughput and reliability

Aim

The main purpose of this dissertation is to investigate the usefulness of network coding strategies in boosting network performance and dependability. The following are the key objectives of the study.

Objectives

  •  To investigate the critical elements influencing network throughput and dependability, such as packet loss, delay, and congestion.
  • To manipulate the reliability measures, compare and analyse the performance of various network coding schemes.
  • To analyse the advantages and disadvantages of each network coding scheme and provide ideas for enhancing network performance.


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5. Evaluating the performance of different Quality of Service (QoS) mechanisms in a multi-service network

Aim

The key aspect of this dissertation ensures to investigates the effectiveness of several Quality of Service (QoS) techniques in a multi-service network. The following are the key objectives of the study.

Objectives

  • To analyse the critical performance measures for assessing QoS methods, including as throughput, latency, packet loss, and fairness.
  • To investigate the identified parameters, compare and analyse the performance of various QoS techniques.
  • To analyse the strengths and shortcomings of each QoS mechanism and make recommendations to improve their performance.


6. Investigating the scalability and reliability of Software-Defined Wide Area Networks (SD-WANs).

Aim

The key aspect of this dissertation ensures to investigates the scalability and dependability of Software-Defined Wide Area Networks (SD-WANs). The following are the key objectives of the study.

Objectives

  • To analyse the important parameters influencing SD-WAN scalability and dependability, such as network size, traffic volume, and failure recovery procedures.
  •  To investigate the effect of network size and traffic load on SD-WAN performance and identify any scaling constraints.
  • To identify SD-WAN reliability, simulating network outages and evaluating the time it takes for the network to recover.


7. Designing a secure and efficient authentication mechanism for Internet of Things (IoT) devices in a network environment.

Aim

The key aspect of this dissertation ensures to make a safe and efficient authentication system for Internet of Things (IoT) devices in a network setting. The following are the key objectives of the study.

Objectives

  • To access the security requirements and problems unique to IoT devices in a network setting.
  • To analyse the prototype of the proposed authentication mechanism and assess its security, efficiency, and scalability.
  • To investigate the research findings, make recommendations for increasing the security and efficiency of the authentication process.


8. Analyzing the impact of network virtualization on network performance and resource allocation.

Aim

The key aspect of this dissertation aims to investigates the impacts of network virtualisation on network performance and resource allocation. The following are the key objectives of the study.

Objectives

  • To determine the network virtualisation’s benefits and drawbacks in terms of network performance and resource allocation.
  • To emphasises the effect of network virtualization on important performance measures like latency, throughput, and packet loss.
  • To analyse the efficiency of resource allocation in a virtualized network environment to that of traditional non-virtualized networks.


9. Investigating the challenges and solutions for securing wireless ad hoc networks.

Aim

The key aspect of this dissertation ensures to investigates the issues and solutions for safeguarding wireless ad hoc networks. The following are the key objectives of the study.

Objectives

  • To access the wireless ad hoc network vulnerabilities and attack paths, as well as their impact on network security.
  • To identify the present security procedures and protocols used in wireless ad hoc networks.
  • To analyse multiple factors which implement a prototype of the recommended security mechanisms and assess their security, efficiency, and scalability.


10. Designing an efficient routing protocol for vehicular ad hoc networks (VANETs).

Aim

The key aspect of this dissertation aims to provides an efficient routing system for vehicular ad hoc networks (VANETs). The following are the key objectives of the study.

Objectives

  • To access the impact of VANET characteristics such as high mobility and dynamic topology on routing protocol design.
  •  To analyse the needs and goals of an efficient routing protocol for VANETs, such as low latency, high dependability, and scalability.
  • To investigate the proposed routing protocol’s scalability and robustness under various traffic situations and network density.


11. Analyzing the performance and reliability of multicast protocols in wireless networks.

Aim

The key aspect of this dissertation aims to determine the performance and dependability of multicast protocols in wireless networks.

Objectives

  • To evaluate the impacts of wireless network features such as low bandwidth, heavy interference, and dynamic topology on multicast protocol performance and dependability.
  •  To access multicast protocols’ scalability and their capacity to handle an increasing number of multicast group members and network traffic.
  • To analyse the dependability of multicast protocols under various network situations and their ability to recover from packet loss or node failures.


12. Investigating the impact of network latency on real-time applications such as online gaming or video conferencing.

Aim

The key aspect of this dissertation ensures to analyse the dependability of multicast protocols under various network situations and their ability to recover from packet loss or node failures.

Objectives

  • To examine the requirements and characteristics of real-time applications such as online gaming and video conferencing, as well as their sensitivity to network delay.
  • To identify the impact of network latency on critical real-time application performance criteria such as responsiveness, user experience, and quality of service.
  • To analyse relationship between network latency and other network parameters like as bandwidth, packet loss, and jitter, as well as the influence of these factors on real-time applications.


13. Designing an energy-efficient routing algorithm for wireless sensor networks.

Aim

The key aspect of this dissertation ensures to build an energy-efficient routing system for wireless sensor networks. The following are the key objectives of the study.

Objectives

  • To identify the energy features of wireless sensor networks, such as limited power supply and energy limits, and how they influence routing algorithm design.
  • To evaluate the needs and goals of an energy-efficient routing algorithm for wireless sensor networks, such as minimising energy usage, increasing network lifetime, and balancing energy consumption across sensor nodes.
  • To analyse the suggested routing algorithm’s scalability and reliability under various network sizes and traffic situations.


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    14. Analyzing the performance and scalability of Software-Defined Networking (SDN) controllers.

    Aim

    The key aspect of this dissertation ensures to examine the performance and scalability of Software-Defined Networking (SDN) controllers.

    Objectives

    • To analyse the essential SDN controller performance parameters, such as control plane latency, scalability, and resource utilisation.
    • To investigate the effect of various aspects on the performance and scalability of SDN controllers, such as network size, traffic load, and controller placement.
    • To access the SDN controller performance in terms of key parameters such as control message processing time, flow setup time, and controller throughput.


    15. Investigating the impact of network protocols on the performance of Internet of Things (IoT) applications.

    Aim

    The key aspect of this dissertation aims to investigates the impact of network protocols on the performance of Internet of Things (IoT) applications.

    Objectives

    • To analyse the requirements and characteristics of IoT applications, such as power consumption, latency, and scalability, as well as their sensitivity to network protocols.
    • To access the network protocols’ scalability for IoT applications, as well as their ability to handle a high number of devices and data traffic.
    • To determine the impacts of network protocols on the security and privacy of IoT applications, as well as the efficacy of protocol-level security methods.


    16. Designing an efficient load balancing algorithm for cloud data centers.

    Aim

    The key aspect of this dissertation aims to access an effective load balancing algorithm for cloud data centers.

    Objectives

    • To determine the load balancing needs and challenges in cloud data centers, such as resource allocation, workload distribution, and response time minimization.
    • To identify the innovative load balancing strategies or algorithms that can better handle difficulties and optimise cloud data center performance.
    • To examine the main performance indicators for analyzing cloud data center load balancing techniques, such as response time, throughput, and resource utilisation.


    17. Analyzing the effectiveness of network traffic analysis techniques for detecting and mitigating Distributed Denial of Service (DDoS) attacks.

    Aim

    The key aspect of this dissertation ensures to investigates the efficacy of network traffic analysis techniques for identifying and mitigating Distributed Denial of Service (DDoS) assaults.

    Objectives

    • To investigates the DDoS attack features and behaviour to understand their influence on network traffic and uncover patterns or signatures that can be used for detection.
    • To identify the efficacy and accuracy of various network traffic analysis approaches in identifying and mitigating DDoS attacks, such as anomaly detection, statistical analysis, and machine learning.
    • To analyse the scalability and efficiency of the techniques under consideration in dealing with large-scale DDoS attacks and high network traffic volumes.


    18. Investigating the impact of network topology on the performance of Peer-to-Peer (P2P) networks.

    Aim

    The key aspect of this dissertation ensures to investigates the effect of network topology on the performance of peer-to-peer (P2P) networks.

    Objectives

    • To determine the data and determine the advantages and disadvantages of various network topologies in P2P networks.
    • To provide recommendations and provide guidelines for choosing the best network design for various P2P applications or scenarios.
    • To identify existing information and understanding of the interaction between network topology and peer-to-peer networks.


    19. Designing a secure and efficient communication protocol for wireless body area networks (WBANs).

    Aim

    The main aspect of this dissertation aims to build a safe and efficient wireless body area network (WBAN) communication protocol. The following are the key objectives of the study.

    Objectives

    • To investigate the unique needs and limitations of WBANs, such as limited power and processing capacity, significant mobility, and the need for privacy and data confidentiality.
    • To analyse the protocol that addresses the identified restrictions while still meeting the needs of WBANs.
    • To examine the evaluation results, provide recommendations for further changes or upgrades to the protocol.


    20. Analyzing the performance and scalability of Content Delivery Networks (CDNs) for video streaming services.

    Aim

    The key aspect of this dissertation aims to examine the performance and scalability of Content Delivery Networks (CDNs) for video streaming services. The following are the key objectives of the study.

    Objectives

    • To analyse the most important performance indicators for CDNs in the context of video streaming services.
    • To evaluate the experiments to assess the performance of the chosen CDNs in terms of the identified KPIs.
    • To investigates the CDNs’ performance and find the reasons that contribute to the variations.

    Frequently Asked Questions

    • Investigating the impact of network congestion control algorithms on video streaming quality.
    • Designing an efficient network architecture for data centre interconnection.
    • Evaluating the performance of different Quality of Service (QoS) mechanisms in a multi-service network.

    There are a lot of types of networks but the basic ones are,

    • Local Area Network (LAN)
    • Wide Area Network (WAN)
    • Metropolitan Area Network (MAN)
    • Personal Area Network (PAN)
    • Global Area Network (GAN)
    • Virtual Private Network (VPN)
    • Content Delivery Network (CDN)

    The basic concept is to interconnect multiple computing devices in order to exchange data and share resources with one another. These network systems are governed by a set of rules, known as communication protocols.

    A computer network is like a web connecting devices to share information. It has a physical layer with cables or wireless connections. The data travels through these paths, following rules called protocols. Networks can be small, like in homes, or large, like the internet. Devices, such as computers and printers, link together, allowing communication and resource sharing.

    • Devices
    • Network Interface Cards
    • Cables/Wireless Connections
    • Switches & Hubs
    • Routers
    • Protocols
    • Firewalls
    • Servers
    • Software
    • Data

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