Monte-Carlo Simulation based Analysis of Sender-Jump Receiver-Wait Rendezvous Technique with Asymmetric Channels for Cognitive Networks

Islam, M, Sithamparanathan, K and Evans, R 2018, 'Monte-Carlo Simulation based Analysis of Sender-Jump Receiver-Wait Rendezvous Technique with Asymmetric Channels for Cognitive Networks', in Proceedings of the 12th International Conference on Signal Processing and Communication Systems (ICSPCS 2018), Cairns, Australia, 17-19 December 2018, pp. 1-8.


Document type: Conference Paper
Collection: Conference Papers

Title Monte-Carlo Simulation based Analysis of Sender-Jump Receiver-Wait Rendezvous Technique with Asymmetric Channels for Cognitive Networks
Author(s) Islam, M
Sithamparanathan, K
Evans, R
Year 2018
Conference name ICSPCS 2018
Conference location Cairns, Australia
Conference dates 17-19 December 2018
Proceedings title Proceedings of the 12th International Conference on Signal Processing and Communication Systems (ICSPCS 2018)
Publisher IEEE
Place of publication Cairns, Australia
Start page 1
End page 8
Total pages 8
Abstract Underutilization of radio spectrum is being rehabilitated into resources with the dynamic configuration characteristics of cognitive radio. Upon detection of vacant channel, consensus of transmitter and receiver on one channel is precondition for data transmission which is termed as rendezvous. Blind and asymmetric views of channels necessitate a substantial cost on agreement of transmitter and receiver for attaining a common channel. In this paper, analytical views of statistical distribution with asymmetric channel for rendezvous are put into display. Upon analysis of statistical characteristics, the rendezvous times for different repetition rates and delays are obtained. Based on the analysis, we have perceived finest repetition rate for different point of views. Through Matlab simulations, it is demonstrated that, proper guaranteed consensus of channel within optimal time is ensured with statistical distribution over conventional system.
Subjects Electrical and Electronic Engineering not elsewhere classified
Wireless Communications
Keyword(s) asymmetric channel
blind detection
cognitive radio
rendezvous
statistical distribution
DOI - identifier 10.1109/ICSPCS.2018.8631741
Copyright notice © 2018 IEEE
ISBN 9781538656020
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