Ns3 Projects for B.E/B.Tech M.E/M.Tech PhD Scholars.  Phone-Number:9790238391   E-mail: ns3simulation@gmail.com

Named Data Networking projects examples using ns3

Explore a full list of Named Data Networking projects examples with ns3. Check out the info on this page and don’t hesitate to ask us for some creative tips and valuable resources we have to help you out. See our dissertation ideas on how our experts will tackle these projects with the needed tools. For solid solutions, head over to ns3simulations.com.

Here are some Named Data Networking (NDN) project examples using ns3

  1. Performance Analysis of NDN vs. IP-based Networks:
    • Simulate both NDN and traditional IP-based networks in ns3.
    • Implement identical applications on both network types.
    • The performance of the network has to be evaluated and compare in terms of throughput, latency, and packet loss.
  2. Caching Strategies in NDN:
    • Implement various caching strategies like LRU (Least Recently Used), LFU (Least Frequently Used), and random caching in an NDN scenario.
    • Simulate a network with popular content being requested by multiple users.
    • The performance impact of different caching strategies on content retrieval times and network traffic has to be evaluated.
  3. Security in NDN:
    • For NDN implement the security mechanisms such as data packet signature verification and encryption.
    • Simulate scenarios with potential security threats like data spoofing and unauthorized content access.
    • To ensure data integrity and confidential we should evaluate the effectiveness of the security mechanisms.
  4. Content Dissemination in NDN for IoT:
    • Using NDN principles simulate an Internet of Things (IoT) network.
    • Implement content dissemination protocols optimized for IoT devices.
    • The terms data retrieval latency, network load, and energy consumption performance has to be analyzed.
  5. NDN-Based Vehicular Networks (V-NDN):
    • In ns3 simulate a vehicular network using NDN principles.
    • Implement V-NDN protocols to facilitate content sharing among vehicles, such as traffic updates and multimedia content.
    • The terms data delivery ratio, latency, and the impact of vehicle mobilities performance need to be evaluated.
  6. Interest Flooding Attack Mitigation in NDN:
    • Implement and simulate an NDN network experiencing interest flooding attacks.
    • To counteract these attacks develop and test mitigation strategies.
    • To maintain network performance and security we need to evaluate the effectiveness of these strategies.
  7. NDN in Wireless Sensor Networks (WSNs):
    • In ns3 simulate a wireless sensor network using NDN.
    • Implement protocols for efficient data collection and dissemination in the sensor network.
    • We need to analyze the performance in terms of data retrieval latency, network traffic, and energy consumption.
  8. NDN-Based Content Distribution Networks (CDNs):
    • Using NDN principles simulate a CDN in ns3.
    • Implement content distribution and retrieval strategies optimized for NDN.
    • The performance of NDN in terms of content delivery latency, network load, and cache hit ratios has to be evaluated.
  9. NDN-Based Disaster Recovery Networks:
    • Using NDN principles simulate a disaster recovery network.
    • Implement protocols for efficient data dissemination and retrieval in scenarios with disrupted infrastructure.
    • In terms of data delivery reliability and latency the performance of NDN has to be analyzed.
  10. Quality of Service (QoS) in NDN:
    • We must implement QoS mechanisms in an NDN network to prioritize certain types of traffic (e.g., video streaming over web browsing).
    • Simulate a network with mixed traffic types and varying QoS requirements.
    • The impact of QoS mechanisms needs to evaluated on overall network performance and user experience.
  11. NDN-Based Smart City Applications:
    • Using NDN principles, simulate smart city applications, such as smart traffic management and public safety systems.
    • Our team will  be implementing  communication protocols optimized for NDN in smart city scenarios.
    • Our developers will evaluate the performance in terms of data retrieval latency, network traffic, and system reliability.
  12. NDN Routing Protocols Comparison:
    • We will be Implementing  and comparing  different NDN routing protocols such as NLSR (Named-data Link State Routing) and Hyperbolic Routing.
    • Simulate a network with varying topologies and traffic patterns.
    • The performance of NDN routing protocols in terms of routing efficiency, data delivery ratio, and network overhead has to be evaluated.
  13. NDN-Based Multimedia Streaming:
    • We will be using NDN simulate a multimedia streaming service in ns3.
    • For high-quality video and audio streaming implement the protocols.
    • The performance of NDN has o be in terms of streaming quality, buffering times, and network load.
  14. NDN in Edge Computing:
    • By Using the NDN principles we simulate an edge computing environment.
    • Implement protocols for efficient data retrieval and processing at the network edge.
    • Evaluate the impact on latency, network traffic, and computational load.
  15. NDN-Based Educational Content Delivery:
    • In ns3simulate an educational content delivery system using NDN.
    • We Implement protocols for efficient distribution and retrieval of educational materials.
    • The performance has to be analyzed in terms of content delivery latency, user experience, and network traffic.

The above given steps discussed about the implementation process of Named data Networking in ns3. The performance, stratagies and security mechanisms has also explained clearly.

Named Data Networking (NDN) project thesis topics along with writing and implementation are granted by us make use of our services for good outcomes.