DocumentCode
647143
Title
CMESR: A hybrid approach for data collection and sensor redeployment using mobile element in WSNs
Author
Jiaxing Xiao ; Ruonan Zhang ; Jianping Pan ; Yi Jiang
Author_Institution
Northwestern Polytech. Univ., Xi´an, China
fYear
2013
fDate
12-14 Aug. 2013
Firstpage
616
Lastpage
621
Abstract
The data collection schemes in wireless sensor network (WSNs), have been intensively studied in the decade yet still a very active area. A number of schemes, such as the multihop data forwarding and the mobile element (ME) gathering, have been proposed. In the majority of the literatures, the full sensing field coverage and network connectivity are usually ignored or assumed to be true. However, such conditions may not be satisfied in reality due to the random deployment of the sensor nodes (SNs) over the target area. In this paper we jointly consider the network connectivity, field coverage and data collection, and propose a hybrid approach called cluster-based mobile element scanning and redeployment (CMESR) to achieve these goals simultaneously. CMESR combines the intra-cluster data gathering and the ME harvesting to collect data and redeploy SNs adaptively. Furthermore, the mechanisms of low-overhead multihop routing, redundant sensing and transmission avoidance, dynamic cluster-head selection and SN redeployment are provided. The performance of CMESR is simulated extensively and compared to other cluster-based schemes such as LEACH, BCDCP and PEGASIS. The results have shown that using CMESR, not only the energy consumption is significantly reduced and balanced among the SNs, but also the latency is minimized. The 100% field coverage and network connectivity can also be ensured by using the ME to redeploy SNs adaptively.
Keywords
mobile radio; pattern clustering; sensor placement; telecommunication network routing; wireless sensor networks; BCDCP; CMESR; LEACH; ME harvesting; PEGASIS; SN redeployment; WSN; cluster- based mobile element scanning and redeployment; data collection; dynamic cluster-head selection; full sensing field coverage; low-overhead multihop routing; mobile element; multihop data forwarding; network connectivity; random sensor nodes deployment; sensor redeployment; wireless sensor network; Conferences; Data collection; Indexes; Mobile communication; Sensors; Tin; Wireless sensor networks;
fLanguage
English
Publisher
ieee
Conference_Titel
Communications in China (ICCC), 2013 IEEE/CIC International Conference on
Conference_Location
Xi´an
Type
conf
DOI
10.1109/ICCChina.2013.6671187
Filename
6671187
Link To Document