Top 13 Thesis Topics in Computer Networking

Computer networking is a multi-disciplinary platform to explore the connections of multiple computing devices and their communication. Generally, a group of computers is interconnected to form the computer networks that share the messages and resources within the network. Based on the context information, computer networks enable investigation on different research domains such as telecommunication, computer engineering, science, information technology, data science, etc. We guide research scholars to formulate innovative thesis topics in computer networking with expert guidance.

Outline of Computer Networking

        In computer networking, the connection among systems is established in any of the two ways: wired and wireless. For wired connection, it uses a direct dedicated physical link/cable. For a wireless connection, it uses radio waves or electromagnetic waves. Overall, this computer network has become the baseline for many communication networks. Below, we have given the list of features which different wired and wireless network projects for cse.

Wired Networks

• Security – High Security
• Trustworthiness – Enhanced
• Speed of Links – High speed but not distributed
• Switch Ports – 1 / live channel
• Mobility (User) – Associated to physical channel
• Troubleshoot / Provision – PHY layer
• Configuration Cost – High cost
• Environmental Limitation – length of switch
• Interference of Radio Frequency – No problem
• Structure Reconfiguration – Difficult and Expensive

Wireless Networks

• Security – Less Security
• Trustworthiness – Sometimes Higher and sometimes Lower
• Speed of Links – Low speed
• Switch Ports – 1 / WAP
• Mobility (User) – Unrestricted
• Troubleshoot / Provision – Complicated
• Configuration Cost – Reasonable and Acceptable price
• Environmental Limitation – effect of signal
• Interference of Radio Frequency – Need more focus
• Structure Reconfiguration – Easy and Fast

In modern days, computer networking has gained more attention in the research community due to its incredible improved characteristics. These characteristics help the scholars to enable the design novel thesis topics in computer networking and develop customized real and non-real applications.

Some of those important features are listed below,

What are the characteristics of computer networking?

• Act as utility and commodity for wireless communication applications
• Enable cognitive radio-based data transmission
• Support high (lifespan, coverage, and data rate) and low (cost and delay)
• Conjunction of optical and wireless network technologies
• User-friendly to develop heterogeneous wireless applications for ubiquitous amenities

In fact, the above-specified features play a significant role in each and every area of the wireless networking field. For an illustration purpose, we have given very few globally popular wireless networking applications. 

This page primarily focuses on new Thesis Topics in Computer Networking with their supporting technologies and tools!!!

Applications of Wireless Networking

• Wireless Telemedicine and Healthcare in WBAN
• Smart Message Sharing in Vehicular ad hoc network simulator System
• Design and Development of Smart Power Grids
• Multimedia Streaming and Control Appliances in Personal / Home Network

Next, we can see that the different types of computer networking. In other words, we can say that the current emerging research areas of wireless networking. These are comprised of a huge number of thesis topics in the computer networking field. Our research team has deep knowledge in all these areas to direct you in the right direction of study and support you in implementing mini project on electronics and telecommunication. Beyond this, we also support you in other enabling technologies.

Types of Computer Networking

• Cognitive Radio Networks (CRN)
• Wireless Sensor Networks (WSN)
• Integration of Vehicle-Infrastructure
• 6G, Beyond 5G and 5G Networking 
• Wireless Multimedia Content Sharing
• Wireless Personal Area Network (WPAN)
• Software Defined Networking (SDN)
• Network-on-Chips (Hybrid, Optical and Wireless)
• Radio Access Network (Fog / Edge / Cloud-RAN
• Radio Frequency Identification (RFID) Networks
• Ad-hoc Networks (FANET, VANET and MANET)
• Optical Networking and Communication (OBS and OCS)
• 4G / LTE Networks (LTE-M, LTE-A, LTE-A+)
• Wireless Body Area / Sensor Network (WBAN / WBSN)
• Network Function Virtualization (NFV)
• Wireless Underground and Undersea Communication

In addition, our experts from the research team have highlighted some evolving open research challenges in computer networking. These issues are seeking better solutions than the existing ones. In order to tackle these problems, we have designed several optimal approaches which are sure to yield the best results.

Open Issues of Computer Networking

• Multi-RAU Control
  • Beam Forming and Alignment
  • Multiplicity and MIMO
• Network Administration and Control
• Radio Resource Control
  • Transmission Scheduling and Power Management
  • Selection of Channel / Frequency Band
  • Diversity in Signaling
• Attainment of QoS
• Mitigation and Control of Interference
  • Interference Prevention and Cancellation

If you are new to this field, make sure you have a fundamental knowledge of the following network terms. Since it is not just the key terminologies, it also creates a strong basement for any kind of computer networking research. We have unlimited resources to make you expertise in core technologies of computer networks.

Key terms in Computer Networking

• Network Model Designing
• Network Topology (Architecture)
• Network Management Systems
• Network and Routing Protocols
• Overall Network Performance Assessment

As mentioned earlier, there are numerous challenges still under the research in computer networking.  Below, we have presented few more research challenges along with the appropriate solutions recommended by our experts to craft thesis topics in computer networking. Further, we are also ready to tackle other challenging issues regardless of their complexity levels.

Research Challenges of Computer Networking

• Low-band spectrum consumption
  • Solution – Use more free spectrum
• Unstable uplink and downlink traffic
  • Solution – Improve the scalability of adapting UL/DL traffic
• Unfair spectrum segmentation
  • Solution – Increase the unpaired spectrum consumption
• High data / network traffic in Large-scale Network
  • Solution – Increase the spectrum utilization and data transfer rate
• Greater power utilization
  • Solution – Harvest the unused energy and minimize the energy usage

How to Choosing a Thesis Topic? Main Steps

So far, we have debated on computer networks, different types of networking, characteristics, types, key terminologies, open issues, and research challenges of computer networking.

Now, we can see how intelligently the thesis topic in computer networking is needed to be selected. Here, we have given few important key tips to follow while choosing a research topic for networking thesis. And, these instructions are strictly followed by our team for the welfare of our handhold scholars.  

• Wisely have glance on requirements – Go through the basic needs of your university on thesis. Since, some may prefer to choose suggested subject areas.
• Select interested research domain – Identify and your interested research area and find its current importance and future scope before confirmation
• Do survey on recent articles and journals – Perform in-depth literature review on recent articles and journals related to your research topic. And, make note on research gaps and unresolved problems
• Narrow down the topic – Be specific in your topic by eliminating the unwanted background information. This help you to find more research materials from different sources
• Decide the type of research – Decide on data acquisition and analysis techniques based on type of research
• Analyze the social relevance – Inspect whether your handpicked research problem solve any real-time issues or did your research create original contribution to the world development or did your research direct the future generation technologies
• Ensure research feasibility – Prior to finalizing topic, check it matches your research needsand you have sufficient time and resources to complete the study within stipulated time
• Finalize the topic – Get the guidance from experts in same field and discuss with them thoroughly before confirming the topic. Once, topic is confirmed then start writing your manuscript

In addition, we have also given some attention-grabbing research topics from top-demanding research areas of computer networking. And, those areas are already listed under “Types of computer networking” in the above sections. Additionally, if you need more Thesis Topics in Computer Networking in other related areas, then approach us.

Overall, we have limitless research ideas to support you in all means.

Trending Thesis Topics in Computer Networking

• Reliable Future Technologies of WBAN Security
• Enhanced QoS Provisioning and Control
• RFID assisted Mobile Devices Identification in WSN
• Node Mobility and Spectrum Handoff Management
• Controlling of Radio Resources for Improved Packet Access
• W-Fi / Wi-Max enabled Vehicular Telematics Applications and Services
• Inventory Maintenance of Fingerprinting and Security Evaluation
• Wireless Heterogeneous Networks Interworking and Management
• Data Protection in Communications using Cryptographic Encryption Technique
• Wireless Information-Centric Accessibility in Vehicular Telematics
• Efficient Computing of Cookie flags, Time and Scope for User Session Management
• New Authorization, Authentication and Accounting (AAA) Mechanisms

For any thesis topic, the proposed solutions are more important. Since it only determines how effectively you tackled your research problems. Also, it needs to positively impact your research work, which is better than the other existing techniques. Our research team is unique in proposing suitable research solutions because of their smart-thinking capabilities. Here, we have itemized few techniques based on key network operations that elevate network performance.

Methods for Computer Networking

• Network Environs Scanning
  • Multi-Agent RL
  • Model based RL
  • Q-learning
• Network Administration
  • Bayesian
  • Partitioned
  • Hierarchical
• Minimization of Overhead
  • Isomap
  • Principal Curves
  • T-Distributed SNE
  • Non-linear Multiple Dimension Scaling
  • Generative Topographic Network Model
  • Locally Linear Embedding (LLE)
• Network Performance Analysis
  • Bayesian Models
  • Mixture Dissemination
  • Hidden Markov Model
  • Probabilistic Graph Models
  • Matrix Factorization (Non-Negative)
  • Factor Examination

Then from the code development aspect, our developers have listed some widely used network simulation tools for computer networking projects. These tools are refined with modern toolboxes, libraries, modules, packages, plug-ins, etc., to construct the best networking models. Also, these tools are effective in measuring the performance of the network. Our developers have regular practice in all below computer networking tools. More than these, we are ready to serve you in other emerging technologies.

Simulation Tools for Computer Networking

• Qualnet
• Network Simulator 3
• Opnet
• Gns3
• Tossim
• OMNeT++
• Mininet
• Network Simulator 2

Experimental Results for Thesis Topics in Computer Networking

Majorly, the network performance is achieved through the simulation and network parameters.

For example, based on the large packet size, we can prove that the proposed model is more efficient for managing any challenging packets (as multimedia streaming with high quality).  In the case of a real-world scenario, the deployed sensors will capture the data from their surroundings. It performs both theoretical design and practical study on proposed issues based on project needs. Next, it combines these results to create an overall simulation model.  

Next, we can see that the basic standard for experimental settings depends on our ongoing projects investigation. In order to find the QoE of the simulated model, we need to determine the application and network QoS parameters. Since these two QoS are collectively referred to as quality of experience (QoE). For instance:

•             Application QoS – buffer level, re-buffering events, etc.

•             Network QoS – latency, packet loss ratio (PLR), etc.

It is possible to acquire the privilege of a custom-based simulation environment setting that depends on the application’s needs. When the researchers commonly follow the same settings for utilizing protocols, it will be benefited for upcoming scholars in reality. Further, it is also easy to do a comparative study and identify the area’s developments on applying their proposed protocol. And, it saves the time of scholars on using previous experimental settings and enables them to test the application in different scenarios and settings. Below, we have enumerated some performance metrics used to assess the computer network model.

Simulation Parameters for Computer Networking

• Network Topology
• Transmission Power levels
• Node Placement and Type
• Network, Packet and Buffer Size
• Data Rate and Type(Transmission)
• Area of Convergence
• Overall Quantity of Sensor Nodes
• Simulator and Simulation Duration
• Number of Sensors / Sinks (Nodes)
• Mobility Speed and Models
• Link, Antenna and Channel Type
• Traffic and Packet Inter-Arrival Interval
• MAC and Routing Protocols

Thus far, we have completely seen the current research scope of computer networking. Now, we can see future research directions of the computer networking field. Our experts accurately predict these after the long survey and investigation of the current research scope of computer networks in many aspects.

Future Directions of Computer Networking

• Network Protocol Management
  • MAC and PHY protocol
  • Routing and Security Protocol
• Software Defined Wide Area Networks
  • Separation of Control Plane form Data Plane
  • Enhancing the Speed of Communication
• Spectrum Efficiency
  • Efficient Spectrum Sensing and Analysis
  • Resource-Aware Spectrum Allocation
• Approaches of Signal Processing
  • Interference Revocation
  • MIMO, Spectrum Sensing and Beamforming Methods
• Traffic Offloading
  • Advance Traffic Monitoring and Control
  • Improved Traffic Load Balancing
• Mixed Traffic Management in LTE
  • Minimization of Control Signals
  • Enhancing Spectrum Usage
• Multiple-Antenna based LTE System
  • New 3D M-MIMO Technology for Communication
  • 3D Beamforming Techniques to Control Beam
• Security in Cyber Systems
  • Insider Threats Analysis
  • Malicious Attack Detection
• Network Densification
  • Secure Network Architecture Construction
  • New Design for Multi-tier Cells Infrastructure Development
• Various Networks in IoT Environments
  • New Technologies of Heterogeneous Networks
  • Adapting Device with Heterogeneity Nature
• Cloud-based Transaction Management
  • Auditing and Accounting
  • Security Strategies for Data Privacy
• Techniques of Radio Resource Management
  • Interference Avoidance and Control
  • Power and Channel Assignments

To the end, we are glad to inform you that we wholeheartedly support you in research thesis topics in computer networking, code development, and thesis writing in the field of computer networking. So, if you are interested in availing of our end-to-end finest research service, then make contact with us.

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