Data Communication and Networking Research Topics

In the domain of data communication and networking, several topics have emerged that are considered as both interesting and significant for research work. Continuously check this platform for updates on Data Communication and Networking Research Topics for your research endeavors. We offer assistance to PhD and MS Scholars in networking research projects, providing simulation services and software support to help you succeed in your career. Relevant to this discipline, we list out numerous research topics that have the possibility to create major impact on the domain and are examined as beneficial for exploration:

  1. 5G and Beyond: Next-Generation Wireless Networks
  • In order to minimize latency, improve speed, and assist rapidly increasing devices, the progression of 5G mechanisms and beyond have to be examined. For world-wide coverage, the combination of 5G with satellite networks could also be investigated by this study.
  1. Software-Defined Networking (SDN) and Network Function Virtualization (NFV)
  • For providing scalability, adaptability, and effective usage of resources, how NFV and SDN transform network management and framework has to be explored. Deployment of virtual network function (VNF), safety limitations, or enhancement techniques for resource allotment might be the major consideration of this research.
  1. Edge Computing and IoT
  • Specifically in processing data nearer to IoT devices for enhancing effectiveness, preserving bandwidth, and minimizing latency, the contribution of edge computing should be considered. Various approaches could be investigated by this study, such as edge computing resource handling, edge-related AI techniques for making decisions in actual-time, or effective data caching policies.
  1. Quantum Networking
  • In networking, the benefits of quantum technology standards such as the advancement of a quantum internet that provides safety characteristics in a unique way, and the quantum key distribution (QKD) for safer interactions must be studied.
  1. AI and ML for Network Optimization and Security
  • For different processes like predictive maintenance, network enhancement, and identification of safety hazards, how machine learning (ML) and artificial intelligence (AI) could be utilized is explored in this study. Some of the major techniques like AI-related configuration handling, anomaly identification, or adaptive network routing might be involved in the topics.
  1. Energy-Efficient Networking
  • With the intention of dedicating to the sustainability of ICT framework, investigate policies to minimize the energy usage of end-user devices, network framework, and data centers. Eco-friendly data center designs, energy-effective routing protocols, or energy harvesting approaches for IoT devices could be included in this study.
  1. Wireless Sensor Networks (WSNs) for Environmental Monitoring
  • By concentrating on various problems such as less-power operation, deployment of sensor nodes, or data aggregation approaches, examine the WSNs placement, especially for tracking ecological parameters in actual-time.  
  1. Blockchain for Network Security and Privacy
  • In improving user confidentiality and network safety, investigate the application of blockchain mechanisms, including in secure routing, obstructing DDoS assaults, and decentralized DNS. Scalability approaches or consensus mechanisms that are appropriate for networking-based settings could be encompassed in the possible topics.
  1. Deep Learning for Traffic Classification and Network Management
  • For categorizing network traffic and handling network functionalities, the application of deep learning frameworks has to be explored. Some possible research interests could involve different processes like predictive analytics for network traffic, quality of Service (QoS) management, or automatic identification of application kinds.
  1. Privacy-preserving Technologies in Networks
  • Particularly in frameworks such as big data and cloud computing, consider the creation and incorporation of privacy preserving mechanisms like secure multi-party computation, zero-knowledge proofs, and differential privacy in interaction networks.
  1. Cross-layer Design for Wireless Communications
  • To improve the entire network credibility and efficiency, handle the connection of layers in the protocol stack by investigating the cross-layer design techniques’ possibility in the enhancement of wireless interaction protocols.
  1. Network Slicing for Multi-Service Support
  • In 5G networks, the principle of network slicing has to be explored. To fulfill various needs of credibility, bandwidth, and latency, its possibility to offer personalized network services must be studied. Isolation mechanisms, performance analysis, or slice management could be encompassed in the exploration topics.

How do I select the topic for research and thesis on wireless communication or 5G networks What are some of the latest topics on this field

The topic selection process has to be carried out based on various important aspects such as individual interest, specific research domain, and academic requirements. To choose a topic relevant to the domain of 5G networks and wireless communication for thesis or research work, we suggest a procedural flow and a few suitable current topics to consider: 

Procedures to Choose a Research Topic:

  1. Explore Your Interests: Initially, it is crucial to find the factors of 5G networks or wireless communications that you are more interested in. Note that you can maintain the focus only if you are intrigued in the selected topic, and it could be AI application in network management, network security, or the combination of IoT.
  2. Literature Review: To interpret latest patterns, areas relevant to the current studies, and significant limitations, carry out an extensive survey of existing business documentation, academic papers, and technology-based information. Through this process, you can detect the evolving queries and major gaps in expertise.
  3. Consider Relevance and Impact: It is also beneficial to select a topic that has the possibility to create effect on the business in addition to having the research as well as educational importance. You should reflect on how your study could impact upcoming principles, dedicate to the development of technology, or solve any realistic issues.
  4. Assess Feasibility: On the basis of various aspects like specified time, your latest range of expertise, and accessible resources, make sure whether the topic that you selected is practically attainable. It is approachable to think about the possible association with educational teammates or business, accessibility of data, and essential tools.
  5. Consult with Advisors: Try to share your research plans and thoughts with the experts or staff members who have knowledge in your domain. They can recommend some important resources, and their perceptions and experience assist you to find possible issues in your exploration area and enhance your topic effectively.

Current Topics in Wireless Communication and 5G Networks:

  1. Network Slicing for Diverse Applications: Ranging from IoT to ultra-speed mobile internet and task-critical interactions, in what 5G networks could facilitate various applications by means of network slicing has to be explored.
  2. Energy Efficiency in 5G Networks: By concentrating on energy-effective network design, sustainable functionalities, and eco-friendly interaction technologies, explore policies in order to minimize the 5G networks’ energy utilization.
  3. Integration of AI and Machine Learning in 5G: The major aim of this topic is to investigate how methods of ML and AI can strengthen safety, reinforce the allotment of resources, offer customized services, and refine network functionalities, especially in 5G networks.
  4. Security Challenges in 5G Networks: It is important to consider the detection and reduction of novel safety risks such as authentication-based limitations, the secure handling of enormous IoT devices, and confidentiality-related problems, which are caused by the mechanisms of 5G.
  5. Massive MIMO (Multiple Input Multiple Output) Technologies: For improving the effectiveness and ability of 5G networks, the massive MIMO frameworks’ model, execution, and enhancement have to be examined.
  6. 5G and IoT Integration: By considering scalability-based issues, the advancement of IoT services that utilize the abilities of 5G, and advanced connection features, this research examines the influence of 5G on the IoT devices expansion.
  7. Ultra-Reliable Low-Latency Communications (URLLC): For various applications like business automation and self-driving vehicles that need quick response and actual-time control, support URLLC in 5G by exploring the protocols and mechanisms.
  8. 5G for Rural and Remote Connectivity: With the aim of solving issues relevant to cost-efficiency, technology implementations, and deployment of framework, expand the coverage of 5G to remote and rural regions by exploring effective approaches.
  9. Edge Computing in 5G Networks: In processing data nearer to the place where it is generated, enhancing the efficiency of 5G networks applications, and minimizing latency, the contribution of edge computing must be investigated.
  10. 5G and Beyond: Preparing for 6G: By researching applications, possible mechanisms, and issues in the progression of 6G networks, predict the upcoming possibilities of wireless interaction over 5G.
Data Communication And Networking Research Projects

Data Communication and Networking Thesis Topics

 Explore a wide range of Research Data Communication and Networking Thesis Topics suitable for both undergraduate and postgraduate students. Security remains a critical concern in wired and wireless networks, including cloud networking. With extensive research being conducted in this field, we are here to assist you with best services. Share your details with and let us guide you towards high-quality solutions tailored to your specific interests.

  1. A Cost Modeling of High-capacity LTE-advanced and IEEE 802.11ac based Heterogeneous Networks, Deployed in the 700MHz, 2.6GHz and 5GHz Bands
  2. Numerical analysis of the power saving with a bursty traffic model in LTE-Advanced networks
  3. Gateway-assisted two-stage radio access for machine type communication in LTE-Advanced network
  4. Users’ classification-based call admission control with adaptive resource reservation for LTE-A networks
  5. Effective resource block allocation procedure for quality of service provisioning in a single-operator heterogeneous LTE-A network
  6. Influence of antenna configuration on achievable throughput in real indoor propagation environment for 2-by-2 single-user MIMO in LTE-advanced uplink
  7. Tradeoff design of radio resource scheduling for power and spectrum utilizations in LTE uplink systems
  8. Enhanced class based dynamic priority scheduling to support uplink IoT traffic in LTE-A networks
  9. Mobile femtocell utilisation in LTE vehicular environment: Vehicular penetration loss elimination and performance enhancement
  10. Coalition-based downlink resource allocation for LTE system with divide-and-conquer approach
  11. Enhanced handoff scheme based on efficient uplink quality estimation in LTE-Advanced system
  12. Performance and security enhanced authentication and key agreement protocol for SAE/LTE network
  13. Coverage and capacity optimization in LTE network based on non-cooperative games
  14. High performance parallel turbo decoder with configurable interleaving network for LTE application
  15. Regression model for handover control parameter configuration in LTE-A networks
  16. Efficient cooperative access class barring with load balancing and traffic adaptive radio resource management for M2M communications over LTE-A
  17. Effects of the inclusion of bending-to-stretching transitions in the non-LTE modeling of ozone vibrational temperatures
  18. Duplicate suppression for efficient floating car data collection in heterogeneous LTE-DSRC vehicular networks
  19. Resource allocation for LTE-based cognitive radio network with queue stability and interference constraints
  20. A cross-layer protocol of spectrum mobility and handover in cognitive LTE networks
  21. Flexible Resource Scheduling for Software-Defined Cloud Manufacturing with Edge Computing
  22. Investigating on the robustness of flow-based intrusion detection system against adversarial samples using Generative Adversarial Networks
  23. Vulnerability retrospection of security solutions for software-defined Cyber–Physical System against DDoS and IoT-DDoS attacks
  24. Stochastic modelling and analysis of mobility models for intelligent software defined internet of vehicles
  25. SoftCaching: A framework for caching node selection and routing in Software-Defined Information Centric Internet of Things
  26. Cost_EACP: Cost-effective adaptive controller provisioning in software defined DCNs
  27. A broad approach to expert detection using syntactic and semantic social networks analysis in the context of Global Software Development
  28. A software vulnerability detection method based on deep learning with complex network analysis and subgraph partition
  29. A FeedForward–Convolutional Neural Network to Detect Low-Rate DoS in IoT
  30. Detect software vulnerabilities with weight biases via graph neural networks
  31. Modeling and optimization of packet forwarding performance in software-defined WAN
  32. BiTCN_DRSN: An effective software vulnerability detection model based on an improved temporal convolutional network
  33. Graph contextualized self-attention network for software service sequential recommendation
  35. Towards energy efficient Smart city services: A software defined resource management scheme for data centers
  36. Management of industrial communications slices: Towards the Application Driven Networking concept
  37. Pulse wave signal modelling and feature extraction based on Lognormal function from photoplethysmography in wireless body area networks
  38. Textile and metasurface integrated wide-band wearable antenna for wireless body area network applications
  39. A battery-free wireless body area network towards state perception under all-weather conditions
  40. Effective spectrum sensing using cognitive radios in 5G and wireless body area networks

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