Weighted Aggregation Scheme with Lifetime-Accuracy Tradeoff in Wireless Sensor Network

We consider design of wireless sensor network for event detection application. An MMSE based q-bit weighted aggregation scheme (q-WAS) is proposed in which each node transmits q bits to its parent in every session. The observation of each sensor is assumed to be one bit. The simulation results show...

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Hauptverfasser:	Jagyasi, B.G., Dey, B.K., Merchant, S.N., Desai, U.B.
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Sprache:	eng
Schlagworte:	Collaboration Costs Event detection Intelligent sensors Laboratories Network topology Object detection Sensor fusion Surveillance Wireless sensor networks
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creator	Jagyasi, B.G. Dey, B.K. Merchant, S.N. Desai, U.B.
description	We consider design of wireless sensor network for event detection application. An MMSE based q-bit weighted aggregation scheme (q-WAS) is proposed in which each node transmits q bits to its parent in every session. The observation of each sensor is assumed to be one bit. The simulation results show that 1-WAS achieves better accuracy than a previously proposed one bit aggregation scheme while offering almost same lifetime. With increasing q, the accuracy of q-WAS approaches that of the infinite precision aggregation scheme. Moreover, the lifetime for q-WAS is significantly higher than infinite precision aggregation scheme. For a 100 node sensor network, the simulation results show that 3-WAS achieves a near optimum accuracy. The lifetime of the q-WAS is approximately 1/q-th of the lifetime of the one bit aggregation schemes. Hence this class of aggregation schemes offers a trade-off between accuracy and lifetime.
doi_str_mv	10.1109/ICISIP.2006.4286055
format	Conference Proceeding
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An MMSE based q-bit weighted aggregation scheme (q-WAS) is proposed in which each node transmits q bits to its parent in every session. The observation of each sensor is assumed to be one bit. The simulation results show that 1-WAS achieves better accuracy than a previously proposed one bit aggregation scheme while offering almost same lifetime. With increasing q, the accuracy of q-WAS approaches that of the infinite precision aggregation scheme. Moreover, the lifetime for q-WAS is significantly higher than infinite precision aggregation scheme. For a 100 node sensor network, the simulation results show that 3-WAS achieves a near optimum accuracy. The lifetime of the q-WAS is approximately 1/q-th of the lifetime of the one bit aggregation schemes. Hence this class of aggregation schemes offers a trade-off between accuracy and lifetime.</abstract><pub>IEEE</pub><doi>10.1109/ICISIP.2006.4286055</doi><tpages>6</tpages></addata></record>
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subjects	Collaboration Costs Event detection Intelligent sensors Laboratories Network topology Object detection Sensor fusion Surveillance Wireless sensor networks
title	Weighted Aggregation Scheme with Lifetime-Accuracy Tradeoff in Wireless Sensor Network
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