Applications of Game theory for Smart Grids in Cognitive radio Networks

Call for Workshop Papers

Cognitive radio (CR) is a form of wireless communication in which a transceiver can intelligently detect which communication channels are in use and which are not, and instantly move into vacant channels while avoiding occupied ones. This optimizes the use of available radio-frequency (RF) spectrum while minimizing interference to other users. With the effective utilization of the natural resource the radio spectrum, CR includes more potential practical applications such as TV white spaces, emergency networks, military networks, mesh networks, cellular networks, multimedia, leased networks, vehicular communications. CR brings the tremendous impact in bandwidth optimization and cost efficiency, especially in the next-generation cellular network. It attracts the attention of today’s researchers due to the challenges and issues remaining in utilizing the full potential of radio spectrum in cognitive radio network. With the effective utilization of the natural resource the radio spectrum, CR includes more potential practical applications such as TV white spaces, emergency networks, military networks, mesh networks, cellular networks, multimedia, leased networks, vehicular communications. CR brings the tremendous impact in bandwidth optimization and cost efficiency, especially in the next-generation cellular network. Besides the IOT and data analytics using the CR networks is most proficiently applied in health care sectors now adays. It attracts the attention of today’s researchers due to the challenges and issues remaining in utilizing the full potential of radio spectrum in cognitive radio network. Smart grid is a two-way communication enabled power grid, in which electrical power generation is integrated with emerging technologies such as wireless communication, pervasive computing, and adaptive control to substantially improve the efficiency, reliability and sustainability. Game Theory is a fascinating tool with which to analyse the potential conflict of interest arising between independent rational agents when they strategically interact with each other. The game theory application proposes a shared resources in a fashioned way in wireless CR networks. The combination of game theory and the architecture will identify a energy aware solution for the smart grid. This special session focuses on application of game theory for the smart grid application in CR networks.

Topics:

  • Cognitive Network Architecture and Deployment for Smart grid
  • Spectrum Sharing Methods of Cognitive Radio for Smart grid
  • Spectrum Decision Techniques of Cognitive Radio for Smart grid
  • Game Theory in Cognitive Radio Networks for Smart grid
  • Cross-Layer Solutions in Cognitive Radio for Smart grid
  • Energy Efficiency Solutions in Cognitive Radio Networks for Smart grid
  • Bandwidth Management in Cognitive Radio Networks for Smart grid
  • Cluster Management in Cognitive Radio Networks for Smart grid
  • Trust Management in Cognitive Radio Networks for Smart grid
  • Data analytics and IOT analytics using Cognitive Radio Networks for Smart grid

Submit workshop paper

Paper submission

Papers should be submitted through EAI ‘Confy+‘ system, and have to comply with the Springer format (see Author’s kit section). Papers should be in English.

Publication

All registered workshop papers will be submitted for publishing together with EAI SmartGift 2020 Proceedings by Springer and made available through SpringerLink Digital Library.

Important dates

Submission Deadline: 12 October 2020
Notification Deadline: 26 October 2020
Camera-ready deadline: 11 November 19 November 2020
Video submission deadline: 15 November 19 November 2020
 

Workshop Chairs:

Dr. S. Vimal
National Engineering College, India

Dr. Danilo Pelusi
University of Teramo, Italy

Dr.Manju Khari
Ambedkar Institute of Advanced Communication Technologies & Research, India