Reactive protocol Project examples using omnet++

Reactive protocol Project examples using omnet++ project ideas for students at every level, are listed here and we’ve highlighted some of the best research topics. If you’re interested in getting help from top developers, you can check out omnet-manual.com for excellent results. We offer the best solutions to help elevate your work to the next level.

1. Implementation and Simulation of AODV (Ad-hoc On-Demand Distance Vector) Protocol

• Objective: Execute the AODV protocol and measure its performance in a dynamic ad-hoc network.
• Details:
  • Generate a mobile ad-hoc network (MANET) topology in which the nodes interact without predefined routes.
  • Execute an AODV that introduces the routes only when needed by the source node.
  • To mimic the numerous scenarios with diverse node mobility patterns and traffic loads, measuring the parameters such as route discovery time, packet delivery ratio, and end-to-end delay.

2. Performance Comparison of DSR (Dynamic Source Routing) and AODV in MANETs

• Objective: Compare the performance of two popular reactive routing protocols, DSR and AODV, in a MANET environment.
• Details:
  • Configure a simulation environment with a changing number of mobile nodes and movement patterns.
  • Execute both DSR and AODV protocols that concentrates on how they manage the route discovery and maintenance.
  • Compare the protocols based on parameters like route overhead, latency, and packet delivery ratio in numerous network conditions.

3. Energy-Efficient AODV Protocol for Mobile Ad-Hoc Networks

• Objective: Adjust the AODV protocol to contain the energy-aware routing decisions to prolong network lifetime.
• Details:
  • Execute an energy-efficient version of AODV, in which route selection considers the remaining battery life of nodes.
  • To mimic a network with nodes having limited energy resources.
  • Measure the effects on network lifetime, energy consumption, and overall performance compared to the standard AODV protocol.

4. Reactive Protocol in Delay Tolerant Networks (DTNs)

• Objective: Execute and measure a reactive protocol in a Delay Tolerant Network (DTN) environment.
• Details:
  • To emulate a DTN in which the nodes experience erratic connectivity.
  • Execute a reactive routing protocol that only starts the route discovery when a communication opportunity increases.
  • Measure how the protocol performs in terms of message delivery success, latency, and overhead in stimulating network conditions.

5. Reactive Protocol for VANETs: AODV in Urban Environments

• Objective: Execute the AODV protocol in a VANET scenario and measure its efficiency in an urban environment.
• Details:
  • Emulate a VANET environment with high vehicle mobility, traffic lights, and intersections.
  • Execute AODV to manage the dynamic route changes as vehicles move via the network.
  • Measure the protocol’s performance in terms of route discovery efficiency, delivery success, and adaptability to urban traffic patterns.

6. Security Enhancement for Reactive Routing Protocols

• Objective: Execute a security mechanism for reactive routing protocols such as AODV to secure against common network attacks.
• Details:
  • Build a security-enhanced version of AODV that contains measures such as route verification and encryption.
  • To emulate a network in which the malicious nodes attempt attacks like route poisoning or packet dropping.
  • Measure the efficiency of the security improvements in maintaining network integrity and performance under attack.

7. QoS-Aware Reactive Routing Protocol

• Objective: Adjust a reactive routing protocol to support Quality of Service (QoS) requirements in a MANET.
• Details:
  • Apply a version of AODV or DSR that selects the routes based on QoS parameters like bandwidth, delay, or jitter.
  • To mimic a network with mixed traffic like voice, video, data and measures how well the protocol meets QoS demands.
  • Compare the QoS-aware protocol with the standard version in terms of service delivery success and overall network performance.

8. Reactive Protocol for Underwater Acoustic Networks

• Objective: Execute and measure a reactive protocol in an underwater acoustic network environment.
• Details:
  • To emulate an underwater network in which the nodes like sensors interact via acoustic waves.
  • Execute a reactive routing protocol that accounts for the distinct issues of underwater communication like high latency and low bandwidth.
  • Measure the protocol’s performance in terms of packet delivery ratio, energy efficiency, and flexibility to the harsh underwater environment.

Here, we talk about the examples projects for reactive protocol that were implements in tool of OMNeT++ and also we deliver the more additional information about the reactive protocol.