DocumentCode
1579898
Title
Power saving and throughput analysis of a novel MAC algorithm in WSN
Author
Alassery, Fawaz ; Ahmed, Walid K. M. ; Sarraf, Mohsen ; Lawrence, V.
fYear
2013
Firstpage
184
Lastpage
189
Abstract
Recent research activities focus on low power and low cost sensor networks. Wireless Sensor Networks (WSNs) contain hundreds of autonomous sensor nodes which perform a required sensing or monitoring for harsh environments. In designing WSNs, limited power is considered to be the main constraint since frequently recharging a battery for a WSN node is not-feasible. Therefore, efficient utilization of power in WSNs has been addressed and investigated heavily in the literature. In this paper we analyze the performance of a novel power saving algorithm which avoids the rather high computational complexity of existing coding/decoding schemes to qualify the sanity of a packet. In addition, our proposed algorithm reduces the delay incurred in order to buffer and decode a received packet due to its ability to make a fast decision on the sanity of the received packet with low false alarm and miss probabilities which result in low throughput penalty, yet achieves a significant power saving advantage with low-complexity HW. We present simulation performance results on the amount of anticipated power saving versus the incurred throughput penalty and compare with various coding schemes commonly used in WSN´s.
Keywords
computational complexity; decoding; encoding; wireless sensor networks; MAC algorithm; WSN; autonomous sensor nodes; coding/decoding schemes; computational complexity; fast decision; harsh environments; low cost sensor networks; low power sensor networks; power saving algorithm; throughput analysis; wireless sensor networks; Decoding; Interference; Measurement; Power demand; Signal to noise ratio; Throughput; Wireless sensor networks; Low Complexity Algorithms; Power Consumption Techniques; WSN; WSN Protocols;
fLanguage
English
Publisher
ieee
Conference_Titel
Future Generation Communication Technology (FGCT), 2013 Second International Conference on
Conference_Location
London
Print_ISBN
978-1-4799-2974-0
Type
conf
DOI
10.1109/FGCT.2013.6767190
Filename
6767190
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