DocumentCode
2364011
Title
Interference mitigation using spectrum sensing and dynamic frequency hopping
Author
Rahman, Mohammad J. Abdel ; Krunz, Marwan ; Erwin, Richard
Author_Institution
Dept. of Electr. & Comput. Eng., Univ. of Arizona, Tucson, AZ, USA
fYear
2012
fDate
10-15 June 2012
Firstpage
4421
Lastpage
4425
Abstract
Wireless communications are prone to both unintentional and intentional RF interference. Such interference has significant impact on the reliability of packet transmissions. In this paper, we consider interference mitigation in frequency hopping (FH) systems. We employ cognitive radios (CRs) for proactive interference sensing in such systems. Through this proactive approach, we propose a scheme for dynamic adjustment of the FH sequence. Our protocol, called SSDFH, relies on exploiting the spectrum sensing capabilities of CRs for proactive detection of channel quality. We analyze the characteristics of the proposed SSDFH using a continuous-time Markov chain framework. Level crossing rate (LCR) analysis is used to determine the transition rates for the Markov chain, which are then used to measure the “channel stability,” a metric that reflects the freshness of sensed channel interference. The selection of different protocol parameters is studied by means of analysis. In particular, we provide a numerical procedure for determining the “optimal” total sensing time that minimizes the probability of “black holes.” We run simulations to study the performance of our proposed protocol.
Keywords
Markov processes; cognitive radio; continuous time systems; probability; protocols; radio spectrum management; radiofrequency interference; telecommunication network reliability; CR; FH sequence; FH systems; LCR analysis; Markov chain; SSDFH; black holes probability; channel interference; channel quality; channel stability; cognitive radios; continuous-time Markov chain framework; dynamic frequency hopping; intentional RF interference; interference mitigation; level crossing rate analysis; numerical procedure; packet transmission reliability; proactive interference sensing; protocol parameters; spectrum sensing capabilities; unintentional RF interference; wireless communications; Signal to noise ratio; Wireless communication; Spectrum sensing; cognitive radio; continuous-time Markov chains; dynamic frequency hopping;
fLanguage
English
Publisher
ieee
Conference_Titel
Communications (ICC), 2012 IEEE International Conference on
Conference_Location
Ottawa, ON
ISSN
1550-3607
Print_ISBN
978-1-4577-2052-9
Electronic_ISBN
1550-3607
Type
conf
DOI
10.1109/ICC.2012.6363744
Filename
6363744
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