Title :
Recovery in Channel-Hopping Cognitive Networks Under Random Primary-User Activity
Author :
MisÌŒicÌ, Jelena ; MisÌŒicÌ, Vojislav B.
Author_Institution :
Dept. of Comput. Sci., Ryerson Univ., Toronto, ON, Canada
Abstract :
We investigate the performance of a recovery mechanism in channel-hopping cognitive networks. The recovery algorithm is based on a list of backup channels to be used as alternatives if primary-user activity interrupts ongoing communication on the current channel; if all backup channels are exhausted without success, the nodes revert to a blind-rendezvous mechanism. We evaluate the performance of the recovery algorithm using the tools of probabilistic analysis and renewal theory and validate the results through simulation. We discuss the impact of various network and channel parameters on the performance of the recovery algorithm and show the importance of accurate sensing information for successful recovery.
Keywords :
access protocols; channel allocation; cognitive radio; radio spectrum management; telecommunication network reliability; backup channel; blind rendezvous mechanism; channel hopping cognitive networks; primary-user activity interrupts; probabilistic analysis; random primary-user activity; recovery algorithm; recovery mechanism; renewal theory; Media Access Protocol; Personal area networks; Phantoms; Sensors; Switches; Synchronization; Channel-hopping cognitive networks; channel hopping cognitive networks; opportunistic spectrum access; recovery after collision; wireless personal area networks;
Journal_Title :
Vehicular Technology, IEEE Transactions on
DOI :
10.1109/TVT.2013.2291360
