Main Reference PaperThroughput-Optimal Multi-Hop Broadcast Algorithms, IEEE/ACM Transactions on Networking, July 2017 [NS2]
  • The proposed work designs a throughput-optimal dynamic broadcast algorithms for multi-hop networks with arbitrary topologies. The proposed work designs a class of dynamic algorithms, instead of computing a set of spanning trees. This scheme obviates the need for maintaining any global topological structures, such as spanning trees. The back-pressure algorithm is used for unicast traffic.

+ Description
  • The proposed work designs a throughput-optimal dynamic broadcast algorithms for multi-hop networks with arbitrary topologies. The proposed work designs a class of dynamic algorithms, instead of computing a set of spanning trees. This scheme obviates the need for maintaining any global topological structures, such as spanning trees. The back-pressure algorithm is used for unicast traffic.

  • To design a throughput optimal multihop broadcast algorithms using class of dynamic algorithms

  • To improve the performance of unicast traffic using back-pressure algorithm.

+ Aim & Objectives
  • To design a throughput optimal multihop broadcast algorithms using class of dynamic algorithms

  • To improve the performance of unicast traffic using back-pressure algorithm.

  • A technique is contributed to find the minimum number of optimal classes k.

+ Contribution
  • A technique is contributed to find the minimum number of optimal classes k.

  • Operating System : Ubuntu 12.04 LTS 64bit

  • Simulator: NS 2.35, Language : TCL and AWK Script, (C++)

+ Software Tools & Technologies
  • Operating System : Ubuntu 12.04 LTS 64bit

  • Simulator: NS 2.35, Language : TCL and AWK Script, (C++)

  • B.E / B.Tech / M.E / M.Tech

+ Project Recommended For
  • B.E / B.Tech / M.E / M.Tech

Professional Ethics: We S-Logix would appreciate the students those who willingly contribute with atleast a line of thinking of their own while preparing the project with us. It is advised that the project given by us be considered only as a model project and be applied with confidence to contribute your own ideas through our expert guidance and enrich your knowledge.