DocumentCode :
2851180
Title :
Delay-bounded event detection in energy harvesting sensor networks
Author :
Mao, Yingchi ; Ding, Weiming
Author_Institution :
Coll. of Comput. & Inf. Eng., Hohai Univ., Nanjing, China
fYear :
2012
fDate :
24-27 June 2012
Firstpage :
312
Lastpage :
315
Abstract :
In many sensor network applications, sink node needs to actively communicate with other sensor nodes in order to perform event detection operations. For those applications, there is usually a delay bound associated with them and require the messages sent to be received within a designated time bound. In this paper, we address the event detection problems in an energy harvesting sensor network where energy efficiency and data freshness need to be balanced. To solve this problem, we propose a utility-based delay bound scheme for event detection, MaxOpUtility-based scheme. MaxOpUtility offers the ability to increase reliability through relay nodes selection as well as to ensure the timeliness. In addition, we show how nodes in the network can cooperatively bound end-to-end delay with maximum utility. Extensive simulations are conducted to verify the effectiveness of our approach compared with the optimal one. Meanwhile, we demonstrate that our solution is able to effectively provide delay bound guarantee in energy harvesting networks.
Keywords :
energy harvesting; telecommunication network reliability; wireless sensor networks; MaxOpUtility-based scheme; data freshness; delay-bounded event detection problem; designated time bound; end-to-end delay bound; energy efficiency; energy harvesting sensor networks; relay node selection reliability; sensor nodes; sink node; utility-based delay bound scheme; wireless sensor network; Cross layer design; Delay; Wireless sensor networks; delay bound; energy harvesting sensor network; event detection; utility-based data forwarding;
fLanguage :
English
Publisher :
ieee
Conference_Titel :
Electrical & Electronics Engineering (EEESYM), 2012 IEEE Symposium on
Conference_Location :
Kuala Lumpur
Print_ISBN :
978-1-4673-2363-5
Type :
conf
DOI :
10.1109/EEESym.2012.6258652
Filename :
6258652
Link To Document :
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