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Limited Contention Scheme(LCS) to Reduce Collision in LR-WPAN  

Ko, Su-Hwan (한양대학교 컴퓨터공학과 정보통신 연구실)
Lee, Jong-Kyu (한양대학교)
Publication Information
The Journal of Korean Institute of Communications and Information Sciences / v.33, no.5B, 2008 , pp. 310-317 More about this Journal
Abstract
Data collision in LR-WPAN(Low Rate Wireless Personal Area Network) causes retransmission of which energy consumption may reduce life of the entire network. Furthermore LR-WPAN is very sensitive to collision as it has relatively fewer frequencies of backoff retries. LCS(Limited Contention Scheme) suggested in this study is a way to transmit data by certain groups of the total nodes so that it can reduce possibilities of data collision and retransmission by decreasing the number of competing nodes. As a result LCS can increase a throughput and the life of the entire network. As using LCS in designing LR-WPAN in the future can extend battery life, LCS can be useful in any application that requires low energy consumption.
Keywords
Limited contention; Collision; Guaranteed time slot; Group; LR-WPAN;
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  • Reference
1 Sean Middleton, "IEEE 802.15 WPAN Low Rate Study Group PAR", doc. number IEEE, P802.15-00 /248r3, Sep. 2000
2 L.J. Hwang, S.T. Sheu, Y.Y. Shih, Y.C. Cheng, "Grouping Strategy for Solving Hidden Node Problem in IEEE 802.15.4 LR-WPAN", WICON, pp.26-32, July. 2005
3 Sheu, S-T, Shih, Y-Y, "A Collision-free Based Rotational Listening Strategy(RLS) for IEEE 802.15.4 WPAN", Communications, 2007. ICC '07. IEEE International Conference, pp.4535-4541, June. 2007
4 Rose, Bill, "Home Networks : A Standard Perspective", IEEE Communications Magazine, Vol.39, issue 12, pp.78-85, Dec. 2001
5 "IEEE Standard Part 15.4:Wireless Medium Access Control(MAC) and Physical Layer(PHY) Specifications for Low-Rate Wireless Personal Area networks (LR-WPANs)", IEEE, Dec. 2003
6 Jianliang Zheng, Lee, M.J, "Will IEEE 802.15.4 Make Ubiquitous Networking a Reality : a discussion on a potential low power, low bit rate standard?", Communications Magazine IEEE, Vol.42, issue 6, pp.140-146, June. 2004
7 Jose A. Gutierrez, Marco Naeve, Ed Callaway, Monique Bourgeois, Vijay Mitter, and. Bob Heile, "IEEE 802.15.4-A Developing Standard for Low-Power, Low-Cost Wireless Personal Area Networks", IEEE Network Magazine, Vol.15, issue 5, pp.12-19, Sep/Oct. 2001
8 Shiann-Tsong Sheu and Yun-Yen Shih, "P-Frozen Contention Strategy (PFCS) for Solving Collision Chain Problem in IEEE 802.15.4 WPANs", IEEE Vehicular Technology Conference, pp.1323-1327, May. 2006
9 Anis Koubâa, Mario Alves, Melek Attia, Anneleen Van Nieuwenhuyse, "Collision-Free Beacon Scheduling Mechanisms for IEEE 802.15.4/Zigbee Cluster- Tree Wireless Sensor Networks", ASWN2007, May. 2007
10 T.D. Hamalainen, M. Kohvakka, M. Kuorilehto, M. Hannikainen, "Performance analysis of IEEE 802.15.4 and ZigBee for large-scale wireless sensor network applications", ACM International, pp.48-57, Oct. 2006
11 P. C. Ng, S. C. Liew, K. C. Sha, and W. T. To, "Experimental Study of Hidden Node Problem in IEEE 802.11 Wireless Networks", IEEE Sigcomm, Aug. 2005
12 A. Bachir, D. Barthel, M. Heusse, A. Duda, "Hidden Node Avoidance in Wireless Sensor Networks", IEEE Wireless Networks, Vol.1, pp.612-617, June. 2005
13 "Data sheet for CC2420 2.4GHz IEEE 802.15.4/ Zigbee RF Tran-sceiver", Chipcon AS, 2006