Fault Tolerant Data Aggregation Scheduling with Local Information in Wireless Sensor Networks 被引量：1

Fault Tolerant Data Aggregation Scheduling with Local Information in Wireless Sensor Networks

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摘要 We study the problem of efficient data aggregation in unreliable wireless sensor networks by designing a fault tolerant data aggregation protocol. A fault tolerant data aggregation protocol consists of two parts： basic aggregation scheduling and amendment strategies. On default, data is aggregated according to the basic aggregation scheduling strategy. The amendment strategy will start automatically when a middle sensor node is out of service. We focus our attention on the amendment strategies and assume that the network adopts a connected dominating set （CDS） based aggregation scheduling as its basic aggregation scheduling strategy. The amendment scheme includes localized aggregation tree repairing algorithms and distributed rescheduling algorithms. The former are used to find a new aggregation tree for every child of the corrupted node, whereas the latter are used to achieve interference free data aggregation scheduling after the amendment. These amendment strategies impact only a very limited number of nodes near the corrupted node and the amendment process is transparent to all the other nodes. Theoretical analyses and simulations show that the scheme greatly improves the efficiency of the data aggregation operation by reducing both message and time costs compared to rebuilding the aggregation tree and rescheduling the en- tire network. We study the problem of efficient data aggregation in unreliable wireless sensor networks by designing a fault tolerant data aggregation protocol. A fault tolerant data aggregation protocol consists of two parts： basic aggregation scheduling and amendment strategies. On default, data is aggregated according to the basic aggregation scheduling strategy. The amendment strategy will start automatically when a middle sensor node is out of service. We focus our attention on the amendment strategies and assume that the network adopts a connected dominating set （CDS） based aggregation scheduling as its basic aggregation scheduling strategy. The amendment scheme includes localized aggregation tree repairing algorithms and distributed rescheduling algorithms. The former are used to find a new aggregation tree for every child of the corrupted node, whereas the latter are used to achieve interference free data aggregation scheduling after the amendment. These amendment strategies impact only a very limited number of nodes near the corrupted node and the amendment process is transparent to all the other nodes. Theoretical analyses and simulations show that the scheme greatly improves the efficiency of the data aggregation operation by reducing both message and time costs compared to rebuilding the aggregation tree and rescheduling the en- tire network.

作者 Yunxia Feng Shaojie Tang Guojun Dai

机构地区 School of Computer Science and Technology Department of Computer Science

出处《Tsinghua Science and Technology》 SCIE EI CAS 2011年第5期451-463,共13页 清华大学学报（自然科学版（英文版）

基金 Supported by the National Basic Research and Development (973) Program of China (No. 2010CB334707) the National Natural Science Foundation of China (No. 60903167) the Zhejiang Provincial Natural Science Foundation (Nos. Y1111063 and Y1101336) the Zhejiang Provincial Key Innovative Research Team

关键词 data aggregation fault tolerated local information wireless sensor networks data aggregation fault tolerated local information wireless sensor networks

分类号 TP212 [自动化与计算机技术—检测技术与自动化装置] TP311.13 [自动化与计算机技术—计算机软件与理论]

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