Main Reference PaperFundamental Performance Trade-Offs in Cooperative Cognitive Radio Systems, IEEE Transactions on Cognitive Communications and Networking, May 2017 [NS2]
  • The proposed work analyzes the relay-aided cooperative underlay cognitive radio system with a single Primary user (PU) and multiple Secondary users (SUs). This work applies opportunistic relay and MUD in the primary and secondary networks respectively. The closed form expressions for the average bit error rate and scaling laws both PU and SUs are derived.

+ Description
  • The proposed work analyzes the relay-aided cooperative underlay cognitive radio system with a single Primary user (PU) and multiple Secondary users (SUs). This work applies opportunistic relay and MUD in the primary and secondary networks respectively. The closed form expressions for the average bit error rate and scaling laws both PU and SUs are derived.

  • To observe the trade-off between the PU and the selected SU and to improve the overall performance

  • To define the overall average BER and combined sum rate of the system.

+ Aim & Objectives
  • To observe the trade-off between the PU and the selected SU and to improve the overall performance

  • To define the overall average BER and combined sum rate of the system.

  • A technique is contributed to select the collision free channel selection.

+ Contribution
  • A technique is contributed to select the collision free channel selection.

  • 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.