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A simulation‐based study of wireless sensor network middleware
Author(s) -
Wolenetz Matthew,
Kumar Rajnish,
Shin Junsuk,
Ramachandran Umakishore
Publication year - 2005
Publication title -
international journal of network management
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.373
H-Index - 28
eISSN - 1099-1190
pISSN - 1055-7148
DOI - 10.1002/nem.572
Subject(s) - computer science , wireless sensor network , computer network , latency (audio) , distributed computing , efficient energy use , middleware (distributed applications) , key distribution in wireless sensor networks , sensor node , wireless network , real time computing , wireless , telecommunications , electrical engineering , engineering
Future wireless sensor networks (WSNs) will transport high‐bandwidth, low‐latency streaming data, and will host sophisticated processing, such as image fusion and object tracking, in‐network on sensor network nodes. Recent middleware proposals provide capabilities for in‐network processing, reducing energy drain based on communication costs alone. However, hosting complex processing on WSN nodes incurs additional processing energy and latency costs that impact network lifetime and application performance. There is a need for a WSN planning framework to explore energy saving and application performance trade‐offs for models of future sensor networks that account for processing costs in addition to communication costs. In this work, we present a simulation framework to analyze the interplay between resource requirements for compute‐ and communication‐intensive in‐network processing for streaming applications. We simulate a surveillance application workload with middleware capabilities for data fusion, adaptive policy‐driven migration of data fusion computation across network nodes, and prefetching of streaming data inputs for fusion processing. Our study sheds light on application figures of merit such as latency, throughput, and lifetime with respect to migration policy and node CPU and radio characteristics. Copyright © 2005 John Wiley & Sons, Ltd.

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