Reactive Protocol Projects Examples Using NS2

Reactive Protocol Projects Examples of utilizing the NS2 tool are presented. We have collaborated effectively in the areas outlined below, and we are committed to being your reliable experts in advancing your research by offering top-notch paper writing and simulation services. Here are some project examples for implementing reactive protocols in NS2:

  1. AODV (Ad hoc On-Demand Distance Vector) Protocol:
    • Execute an AODV in NS2 to discover its route discovery and maintenance process. Measure its performance based on packet delivery ratio, end-to-end delay, and routing overhead in diverse network scenarios with changing node mobility and density.
  2. DSR (Dynamic Source Routing) Protocol:
    • Replicate DSR in NS2 to learn its route discovery process using source routing. Measure how it manages high mobility and frequent topology varies in dynamic networks. Relate its performance with other reactive protocols such as AODV.
  3. TORA (Temporally-Ordered Routing Algorithm):
    • Execute TORA in NS2; concentrate on its ability to manage dynamic topology changes. Mimic diverse network conditions to evaluate its performance based on route stability, control message overhead, and scalability in mobile ad-hoc networks.
  4. Performance Comparison of Reactive Protocols (AODV vs. DSR):
    • Execute both AODV and DSR in NS2 and relate their performance via numerous parameters like packet delivery ratio, route discovery time, and routing overhead. Mimic different network scenarios such as high mobility or changing node density to highlight their assets and flaws.
  5. QoS-Aware Reactive Protocol:
    • Encompass an existing reactive protocol (e.g., AODV) to contain Quality of Service (QoS) parameters like bandwidth, delay, and jitter. Mimic the enhanced protocol in NS2 and evaluate its ability to select different traffic types, such as real-time and non-real-time data.
  6. Energy-Efficient AODV:
    • Adapt the AODV protocol to contain energy-aware metrics. Execute it in NS2 to learn on how the protocol expands network lifetime by selecting energy-efficient routes. Mimic diverse network sizes and node mobility levels to measure energy consumption and network performance.
  7. Reactive Protocol for Vehicular Ad-Hoc Networks (VANETs):
    • Execute a reactive protocol such as AODV or DSR in a VANET scenario using NS2. Measure its performance in high-mobility environments that concentrates on parameters like packet loss, latency, and scalability in dynamic vehicular networks.
  8. Reactive Protocol in Disaster Recovery Networks:
    • Replicate a reactive protocol such as AODV in a disaster recovery network in which infrastructure is disturbed. Learning the protocol’s effectiveness in rapidly introducing communication routes among emergency responders in a highly dynamic environment.
  9. AOMDV (Ad hoc On-Demand Multipath Distance Vector) Protocol:
    • Execute AOMDV, a multipath extension of AODV, in NS2. Discover its ability to deliver multiple redundant paths to enhance fault tolerance and route stability. Relate its performance with AODV in changing network conditions like node failure or high mobility.
  10. Reactive Protocol with Mobility Prediction:
  • Improve a reactive protocol such as DSR or AODV by integrating mobility prediction approaches to minimize route breakages. Mimic the protocol in NS2 and study how predicting node movement enhances routing stability and performance in mobile environments.

These projects will give you practical insights into the performance and behaviour of reactive protocols in different network scenarios using NS2

Overall, we have entirely explained every projects example using the implementation and execution process that related to reactive protocols which is enforced using ns2. We will deliver more projects examples in upcoming manuals.