In computer network-based research, network routing simulators play a crucial role in an effective manner. The following are a few project topics and plans that are appropriate for various research as well as academic objectives and can be investigated through the utilization of network routing simulators:

  1. Comparative Analysis of Routing Protocols
  • Goal: On the basis of diverse network topologies and constraints, the performance of various routing protocols such as RIP, EIGRP, OSPF, and BGP has to be assessed.
  • Procedure: Carry out the process of designing networks with various topologies and simulating traffic models through the utilization of a network simulator, especially for contrasting the resource consumption of every protocol, intersection times, effectiveness, and scalability.
  1. Routing in Ad-hoc Networks
  • Goal: In terms of mobility and diverse density contexts, explore the performance and activity of routing protocols such as OLSR, AODV, and DSR that are specifically modeled for ad-hoc networks.
  • Procedure: Consider the simulation of various ad hoc networks like vehicular ad-hoc networks (VANETs) or mobile ad-hoc networks (MANETs). At what extent various protocols handle packet routing effectiveness, link faults, and dynamic topology variations must be analyzed.
  1. Energy-Efficient Routing in Sensor Networks
  • Goal: To expand the endurance of the network in wireless sensor networks (WSNs), create and assess energy-effective routing methods.
  • Procedure: A WSN along with nodes that have constrained battery durability should be designed. To identify the highly energy-effective paths which stabilize the load between nodes and reduce energy usage, simulate different routing methods.
  1. QoS-Based Routing Strategies
  • Goal: For actual-time applications and multimedia, model and evaluate routing policies that specifically prefer arguments related to Quality of Service (QoS), such as jitter, delay, and bandwidth.
  • Procedure: In order to assure that traffic including various needs of QoS is handled and routed in a proper way to align with service level agreements (SLAs), QoS-aware routing policies have to be applied in a simulated network platform.
  1. Routing Security Mechanisms
  • Goal: In securing routing protocols against different assaults like route poisoning and spoofing, assess the safety mechanisms’ efficiency.
  • Procedure: On network routing, simulate various assaults. In obstructing assaults and assuring routing morality, examine the potential of different safety approaches by applying them, including trust frameworks, encryption, and authentication.
  1. Scalability of BGP in Large Networks
  • Goal: By considering routing table dimension and intersection time, the scalability of the Border Gateway Protocol (BGP) has to be examined, particularly in extensive networks.
  • Procedure: The major approach is to develop extensive internet-based topologies, including a wide range of autonomous systems (ASes) and analyze the activity and scalability issues of BGP by simulating it. All these can be accomplished with the help of a network simulator.
  1. Load Balancing in Software-Defined Networks (SDN)
  • Goal: To enhance network efficiency and traffic distribution, the load balancing policies must be explored in SDN platforms.
  • Procedure: With the intention of handling the flow tables of switches, simulate an SDN by encompassing a centralized controller. For dynamic load balancing, specifically in terms of network traffic rates, create methods.
  1. Impact of Routing on IoT Network Performance
  • Goal: It is important to analyze how the credibility and efficiency of IoT networks are impacted by various routing protocols.
  • Procedure: With the aid of a simulator, design an IoT-based network. By focusing on aspects like data generation rates, network latency, and device density, the efficiency of different IoT routing protocols should be assessed.
  1. Multipath Routing for Increased Network Reliability
  • Goal: As a means to improve fault tolerance and network credibility, model and evaluate multipath routing methods.
  • Procedure: In a simulated network, apply multipath routing. When compared to single-path routing, in what range it minimizes congestion, stabilizes load, and enhances network strength have to be examined.
  1. Routing in Underwater Wireless Sensor Networks
  • Goal: By concentrating on acoustic interaction limitations, investigate the issues of routing and appropriate strategies in underwater wireless sensor networks (UWSNs).
  • Procedure: Through the use of particular routing protocols which are tailored for underwater constraints, simulate UWSNs. Regarding energy utilization, latency, and data delivery, assess their efficiency.

How can I pick a research topic from routing protocols Can somebody contribute a list of topics related to network routing protocols?

The network routing is considered as a fast growing as well as an extensive domain. It covers all the major aspects that particularly range from the basics of data transmission within networks to complicated problems that are based on effectiveness, scalability, and safety. Relevant to network routing, we suggest a various collection of research topics which could instigate a new research possibility or stimulate your passion:

  1. Dynamic Routing Protocol Optimization
  • With the aim of achieving greater performance and scalability in extensive networks, improve dynamic routing protocols such as EIGRP and OSPF by exploring effective approaches.
  1. Routing in Software-Defined Networks (SDN)
  • By concentrating on enhancing adaptability and performance of the network, investigate new routing policies that are supported by the centralized control technology of SDN.
  1. Security Enhancements for Routing Protocols
  • In opposition to different kinds of assaults like spoofing and route poisoning, protect routing protocols by creating and assessing techniques.
  1. Energy-Efficient Routing in Wireless Sensor Networks (WSNs)
  • The major aim of this study is to model routing protocols for WSNs which have the ability to extend the functional durability of the network and reduce energy utilization.
  1. Routing Protocol Adaptation for IoT Networks
  • Specifically for the specific needs and features of IoT networks, in what way conventional routing protocols could be enhanced or adjusted are studied in this research.
  1. Multipath Routing for Load Balancing and Reliability
  • To improve fault tolerance and network credibility and accomplish efficient load balancing, explore multipath routing approaches.
  1. QoS-Aware Routing Protocols
  • Aim to create effective routing protocols. Based on the different Quality of Service (QoS) needs of various services and applications, these protocols must have the ability to adjust in a dynamic manner.
  1. Routing in Vehicular Ad-hoc Networks (VANETs)
  • By examining extensive mobility and dynamic network topologies, the issues of routing in VANETs have to be analyzed. Then, effective routing strategies must be created.
  1. Inter-Domain Routing Scalability
  • In inter-domain routing such as BGP, examine the issues related to scalability. To enhance intersection time and routing effectiveness in the worldwide network, suggest strategies.
  1. Routing in Underwater Acoustic Sensor Networks
  • By considering problems based on acoustic interactions, like latency and signal attenuation, the specific routing-related issues in underwater sensor networks should be investigated.
  1. Machine Learning Approaches to Routing
  • In order to forecast network constraints and enhance routing choices in a dynamic way, employ the methods of machine learning.
  1. Integration of Routing Protocols in Hybrid Networks
  • Among various kinds of networks such as ad hoc, wired, and wireless, explore the routing protocols combination and communication, especially for assuring stable connections.
  1. IPv6 Adoption and Routing Optimization
  • On network framework and routing protocols, the impacts of IPv6 must be analyzed by examining transition policies and routing enhancements.
  1. Cross-Layer Routing Protocol Design
  • This project intends to create cross-layer routing protocols that enhance routing choices by considering details based on different layers of the network stack.
  1. Routing Protocol Performance in High-Speed Networks
  • In data transmission, assure that the routing will not turn into an obstruction. For that, the performance of routing protocols for ultra-speed networks has to be assessed and improved.
Network Routing Simulator Projects

Network Routing Simulator Project Topics

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  1. PRONET: Proactive context-aware support for mobility in heterogeneous access networks
  2. Research on Theory and Application of Solving Central Node in Complex Networks
  3. NOMA-CAP Modulation Format for Next Generation Converged Fronthaul-Optical Access and Data Center Interconnect Networks
  4. Hotspot slicer: Slicing virtualized home Wi-Fi networks for air-time guarantee and traffic isolation
  5. Evaluating the Vulnerability of Network Traffic Using Joint Security and Routing Analysis
  6. A novel optical burst ring network with optical-layer aggregation and flexible bandwidth provisioning
  7. Knowledge Graph Aided Network Representation and Routing Algorithm for LEO Satellite Networks
  8. Network Situation Features Extraction Method of Computer Network Based on Knowledge Graph
  9. COG: Overlay network functions assisting connected next generation society systems
  10. Fiber-to- The-Room (FTTR) Technologies for the 5th Generation Fixed Network (F5G) and Beyond
  11. Encrypted Network Traffic Classification Using Deep and Parallel Network-in-Network Models
  12. Service Provisioning in WSS-Based All-Optical Data Center Network with Dragonfly Topology
  13. A SDN-Based Heterogeneous Networking Scheme for Profinet and Modbus Networks
  14. Model Design of Wireless Sensor Network Based on Scale-Free Network Theory
  15. EasyOrchestrator: An End-user Oriented Network Service Creation Platform with Verification Mechanism
  16. Research and implementation of network planning and design for community
  17. Performance of Multipath in Fiber-Wireless (FiWi) Access Network with Network Virtualization
  18. On the use of terminal and inline conversion in planar optical interconnection networks
  19. Home network management for IPTV service operations — A service provider perspective
  20. Two dimensional cooperation prediction algorithm of communication network traffic in smart grid
  21. Emerging DDoS attack detection and mitigation strategies in software-defined networks: Taxonomy, challenges and future directions
  22. Unsupervised online anomaly detection in Software Defined Network environments
  23. EDiPSo: An Efficient Scalable Topology Discovery Protocol for Software-Defined Vehicular Networks
  24. Attack detection analysis in software-defined networks using various machine learning method
  25. Simulated annealing based optimal controller placement in software defined networks with capacity constraint and failure awareness
  26. Survivability of mobile and wireless communication networks by using service oriented Software Defined Network based Heterogeneous Inter-Domain Handoff system
  27. Matchmaker: Maintaining network programmability for Software-Defined WANs under multiple controller failures
  28. Energy-efficient and delay-guaranteed routing algorithm for software-defined wireless sensor networks: A cooperative deep reinforcement learning approach
  29. An efficient approach to robust controller placement for link failures in Software-Defined Networks
  30. Route manipulation aware Software-Defined Networks for effective routing in SDN controlled MANET by Disney Routing Protocol
  31. Implementing an intrusion detection and prevention system using Software-Defined Networking: Defending against ARP spoofing attacks and Blacklisted MAC Addresses
  32. A Software Defined Network information security risk assessment based on Pythagorean fuzzy sets
  33. Performability evaluation of switch-over Moving Target Defence mechanisms in a Software Defined Networking using stochastic reward nets
  34. An efficient heuristic switch migration scheme for software-defined vehicular networks
  35. Intent-based zero-touch service chaining layer for software-defined edge cloud networks
  36. DPLBAnt: Improved load balancing technique based on detection and rerouting of elephant flows in software-defined networks
  37. (Re-)defining software defined networks under the European electronic communications code
  38. Software-defined vehicular network (SDVN): A survey on architecture and routing
  39. Deep Learning Algorithms for Detecting Denial of Service Attacks in Software-Defined Networks
  40. Citadel: Cyber threat intelligence assisted defense system for software-defined networks

Important Research Topics