e-mail address: omnetmanual@gmail.com

Phone number: +91 9444856435

Tel 7639361621

DEFENDER
  • Phd Omnet++ Projects
    • RESEARCH PROJECTS IN OMNET++
  • Network Simulator Research Papers
    • Omnet++ Thesis
    • Phd Omnet++ Projects
    • MS Omnet++ Projects
    • M.Tech Omnet++ Projects
    • Latest Omnet++ Projects
    • 2016 Omnet++ Projects
    • 2015 Omnet++ Projects
  • OMNET INSTALLATION
    • 4G LTE INSTALLATION
    • CASTALIA INSTALLATION
    • INET FRAMEWORK INSTALLATION
    • INETMANET INSTALLATION
    • JDK INSTALLATION
    • LTE INSTALLATION
    • MIXIM INSTALLATION
    • Os3 INSTALLATION
    • SUMO INSTALLATION
    • VEINS INSTALLATION
  • Latest Omnet++ Projects
    • AODV OMNET++ SOURCE CODE
    • VEINS OMNETPP
    • Network Attacks in OMNeT++
    • NETWORK SECURITY OMNET++ PROJECTS
    • Omnet++ Framework Tutorial
      • Network Simulator Research Papers
      • OMNET++ AD-HOC SIMULATION
      • OmneT++ Bandwidth
      • OMNET++ BLUETOOTH PROJECTS
      • OMNET++ CODE WSN
      • OMNET++ LTE MODULE
      • OMNET++ MESH NETWORK PROJECTS
      • OMNET++ MIXIM MANUAL
  • OMNeT++ Projects
    • OMNeT++ OS3 Manual
    • OMNET++ NETWORK PROJECTS
    • OMNET++ ROUTING EXAMPLES
    • OMNeT++ Routing Protocol Projects
    • OMNET++ SAMPLE PROJECT
    • OMNeT++ SDN PROJECTS
    • OMNET++ SMART GRID
    • OMNeT++ SUMO Tutorial
  • OMNET++ SIMULATION THESIS
    • OMNET++ TUTORIAL FOR WIRELESS SENSOR NETWORK
    • OMNET++ VANET PROJECTS
    • OMNET++ WIRELESS BODY AREA NETWORK PROJECTS
    • OMNET++ WIRELESS NETWORK SIMULATION
      • OMNeT++ Zigbee Module
    • QOS OMNET++
    • OPENFLOW OMNETPP
  • Contact

DTN Protocols Examples Using Omnet++

Delay-Tolerant Network (DTN) protocols using OMNeT++ program are worked by us, in this page our experts have shared some of the latest thesis ideas we have all the tools and resources to complete your work on time. We offer creative topic ideas in this field and have compiled some new project ideas for you. We will provide you with a clear goal and a detailed explanation.:

  1. Performance Analysis of Epidemic Routing in DTNs:
    • Execute the Epidemic Routing protocol in a DTN using OMNeT++. Mimic its performance under several network conditions, like various node densities, mobility patterns, and buffer sizes. Test the metrics such as delivery probability, message delay, and overhead, specifically in scenarios with intermittent connectivity.
  2. Comparison of DTN Protocols (Epidemic vs. PRoPHET):
    • Mimic both the Epidemic and PRoPHET (Probabilistic Routing Protocol using History of Encounters and Transitivity) protocols in a DTN. Liken their performance in terms of delivery ratio, latency, and resource consumption, focusing on the trade-offs among the two methods in various network environments.
  3. Energy-Efficient Routing in DTNs:
    • Improve an energy-efficient DTN routing protocol by enhancing message forwarding decisions based on node energy levels and mobility patterns. Mimic the protocol in a DTN environment and calculate its impact on network lifetime, message delivery success, and energy consumption.
  4. Social-Aware Routing in DTNs:
    • Execute a social-aware DTN routing protocol that leverages social metrics such as centrality or community structure to make forwarding decisions. Mimic the protocol in a scenario where nodes denote individuals in a social network, and investigate how successfully the protocol increases message delivery and reduces overhead compared to traditional DTN protocols.
  5. Security-Enhanced DTN Protocols:
    • Examine security challenges in DTNs, like message tampering or unauthorized access. Execute a security-enhanced DTN protocol that comprises encryption, authentication, or secure message forwarding. Mimic the protocol and evaluate its impact on network security, delivery success, and overhead.
  6. DTN Protocols for Vehicular Networks (VANETs):
    • Execute a DTN protocol tailored for vehicular networks, where vehicles communicate in a delay-tolerant manner. Mimic the protocol’s performance in urban and highway scenarios, concentrating on delivery ratio, delay, and adaptability to high mobility and intermittent connectivity.
  7. Hybrid DTN Protocols with Opportunistic Forwarding:
    • Expand the hybrid DTN protocol that merges traditional DTN routing with opportunistic forwarding based on real-time network conditions. Mimic the protocol in a dynamic network environment and examine its performance in terms of delivery efficiency, latency, and resource utilization.
  8. DTN Protocols for Space Communication:
    • Execute a DTN protocol designed for space communication, where long delays and intermittent connections are general. Emulate the protocol in a scenario including satellite communication or interplanetary networks, and compute its performance in terms of message delivery success, delay, and network resilience.
  9. Load Balancing in DTNs:
    • Execute a DTN protocol with load balancing mechanisms to allocate message forwarding responsibilities more evenly across the network. Mimic the protocol in a network with differing traffic loads and estimate its impact on congestion, delivery ratio, and message delay.
  10. DTN Protocols for Disaster Recovery Networks:
    • Execute a DTN protocol designed for disaster recovery scenarios, where infrastructure may be damaged or unavailable. Mimic the protocol’s ability to establish and maintain communication in a highly dynamic and unpredictable environment, aiming on delivery success, recovery time, and network stability.

Thus, we had executed some instances which is helps to the implementation and analyse process for DTN protocols using OMNeT++. We will deliver the further information about DTN protocol using various tool.

Related Topics

  • Network Intrusion Detection Projects
  • Computer Science Phd Topics
  • Iot Thesis Ideas
  • Cyber Security Thesis Topics
  • Network Security Research Topics

designed by OMNeT++ Projects .