Title :
Light-weight history-based Medium Access Control (MAC) protocol for body area networks
Author :
Mouzehkesh, N. ; Shafigh, S. ; Zia, T. ; Lihong Zheng
Author_Institution :
Centre for Res. in Complex Syst. (CRiCS), Charles Sturt Univ., Wagga Wagga, NSW, Australia
Abstract :
Different MAC techniques in body area networks (BAN) are to make different tradeoffs to suit for the variety of situations that may be caused by the heterogeneous traffic behavior of the BANs. Previously, we proposed a dynamic delayed MAC scheme with a fuzzy technique to add a traffic adaptive quality to the existing IEEE 802.15.4 which addresses traffic diversity in BAN applications. In this paper we investigate reducing the complexity of our previous method by integrating it with a caching technique enabling the MAC algorithm to minimize the iterations of running the fuzzy engine. We examine the efficiency of the previously fuzzy-based MAC algorithm in terms of energy to be implemented on real SHIMMER sensor platforms by evaluating the reliability and battery lifetime.
Keywords :
access protocols; body area networks; communication complexity; fuzzy set theory; iterative methods; personal area networks; quality of service; telecommunication network reliability; telecommunication traffic; BAN; IEEE 802.15.4 standard; SHIMMER sensor; battery lifetime; body area networks; caching technique; complexity reduction; dynamic delayed MAC scheme; fuzzy engine; fuzzy technique; fuzzy-based MAC algorithm; heterogeneous traffic behavior; iterations minimization; lightweight history-based MAC protocol; medium access control; reliability evaluation; traffic adaptive quality; traffic diversity; Batteries; Body area networks; Fuzzy systems; IEEE 802.15 Standards; Media Access Protocol; Multiaccess communication; Reliability; Fuzzy; IEEE 802.15.4; MAC; Reliability;
Conference_Titel :
Sensing Technology (ICST), 2013 Seventh International Conference on
Conference_Location :
Wellington
Print_ISBN :
978-1-4673-5220-8
DOI :
10.1109/ICSensT.2013.6727622
