Greedy Perimeter Stateless Routing Projects using omnet++

Greedy Perimeter Stateless Routing (GPSR) protocol using OMNeT++ tool we offered some project examples focused on the current trends, Explore our innovative topic suggestions tailored for this field, along with a selection of fresh project ideas designed just for you. We will outline a clear objective and provide comprehensive explanations to ensure your success. reach out to omnet-manual.com for expert guidance.

1. Basic Implementation and Analysis of GPSR:

 Execute GPSR in a simulated network and evaluate its performance based on the routing proficiency and packet delivery. Mimic a wireless ad-hoc network where GPSR is used for routing. Estimate metrics includes packet delivery ratio, regular hop count, and routing overhead. Evaluate the effectiveness of GPSR in various network topologies like grid, random, and clustered node placements.

2. GPSR vs. Traditional Routing Protocols:

 Compare the performance of GPSR with old-fashioned routing protocols like AODV (Ad hoc On-Demand Distance Vector) and DSR (Dynamic Source Routing). Replicate a network where GPSR, AODV, and DSR are executed in similar conditions. Compare metrics like route discovery time, packet delivery ratio, dormancy, and protocol overhead. Monitor the scenarios where GPSR outperforms or underperforms related to other routing protocols.

3. GPSR Protocol in Vehicular Ad-Hoc Networks (VANETs):

1. • Use OMNeT++ to execute GPSR in a VANET environment. Imitate how GPSR works in urban and highway environments, concentrating on metrics like packet delivery ratio, end-to-end delay, and routing overhead. Measure how vehicle mobility patterns impacts the performance of GPSR.

1. GPSR with Enhanced Perimeter Mode:

1. • Expend the simple GPSR protocol by executing an enhanced perimeter mode to optimize routing in cases where greedy forwarding fails. Emulates scenarios with hindrances or sparse networks, and compare the performance of the optimized GPSR with the standard version.

1. Energy-Efficient GPSR in Wireless Sensor Networks (WSNs):

1. • Accomplish an energy-efficient version of GPSR in a wireless sensor network. Concentrate on minimizing energy utilization while upholding routing proficiency. Compute the trade-offs amongst energy usage, network lifetime, and data delivery success in several network set ups.

1. GPSR in a Mobile Ad-Hoc Network (MANET):

1. • Use OMNeT++ to simulate GPSR in a MANET environment. Discover how GPSR manages dynamic topologies with changing node densities and mobility patterns. Estimate the protocol’s capability to uphold connectivity and efficient routing in various levels of node mobility.

1. Security Analysis of GPSR:

1. • Examine the security weakness of GPSR like susceptibility to routing attacks like black hole or wormhole attacks. Execute security features into the GPSR including secure neighbor discovery or validation, and analyze their effectiveness in guarding the protocol.

1. GPSR Performance in Disaster Recovery Scenarios:

1. • Applying GPSR in a network generated for disaster recovery situations, where the network topology is highly dynamic and changeable. Mimic an environment where nodes often join and quit the network, and assess how GPSR works based on consistency and speed of communication.

1. Scalability of GPSR in Large-Scale Networks:

1. • Use GPSR to generate a large-scale network simulation in OMNeT++ to learn its scalability. Aim on how the protocol manages maximizing amounts of nodes, changing network sizes, and traffic loads. Assess the effect on routing efficiency, packet loss, and network jamming.

1. GPSR with Geographic Routing Enhancements:
   • Deploy and examine enhancements to GPSR that integrates more advanced geographic routing strategies like predictive routing or adaptive beaconing. Measure how these enhancements optimize routing decisions, minimize overhead, and improve the overall proficiency of the network.

11. GPSR with Quality of Service (QoS) Support:

 Prioritize traffic as per the service demands by incorporating QoS mechanisms into GPSR. Mimic a network where GPSR is used with QoS help, making certain that high-priority traffic involves video and voice, is delivered with lower delay and jitter. Evaluate the effect on latency, jitter, packet loss, and whole network performance, especially for high-priority traffic.

1. GPSR with Security Enhancements:

• Apply security features in GPSR to guard the network against attacks like route tampering and packet dropping. Recreate a network where GPSR is enhanced with security features like encryption and authentication. Compute the protocol’s flexibility to security challenges, concentrating on metrics like routing integrity, overhead, and network performance.

13. GPSR for Multicast Routing:

 Adjusts GPSR for multicast routing, where data needs to be delivered to several destinations concurrently. Replicate a network with multicast traffic and use an adjusted version of GPSR to manage multicast delivery. Assess the influence on multicast delivery proficiency, latency, and protocol overhead. Compare the outcomes with other multicast routing protocols.

1. . GPSR in Delay-Tolerant Networks (DTNs):

• Adjusts GPSR for utilize in DTNs, where network connectivity is intermittent, and paths may requires to be accomplished over extended periods. Use GPSR to simulate a DTN environment to handle routing in the existence of regular disconnections and delays. Compute the protocol’s performance based on the message delivery success, delay, and overhead compared to other DTN routing protocols.

15. GPSR with Adaptive Route Selection:
    

• Design an adaptive version of GPSR that modifies its routing decisions depends on real-time network conditions. Model a network where GPSR dynamically adjusts to changes in node density, traffic patterns, and link quality. Evaluate the influence on network stability, convergence time, and entire routing proficiency compared to the standard GPSR

Here, we showcased more insights about how to implement GPSR Protocol’s project examples about how to implement and evaluate it using OMNeT++ tool. If you need any extra projects information of the GPSR protocol, we will provide them too.