Dynamic critical-path task mapping and scheduling for collaborative in-network processing in multi-hop wireless sensor networks

Although task mapping and scheduling in wired networks of processors has been extensively studied, their application to WSNs remains largely unexplored. Existing algorithms cannot be directly implemented in WSNs due to limited resource availability and shared communication medium. In this work, an a...

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Hauptverfasser:	Yuan Tian, Yaoyao Gu, Ekici, E., Ozguner, F.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Availability Collaboration Collaborative work Dynamic scheduling Dynamic voltage scaling Energy consumption Processor scheduling Scheduling algorithm Spread spectrum communication Wireless sensor networks
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creator	Yuan Tian Yaoyao Gu Ekici, E. Ozguner, F.
description	Although task mapping and scheduling in wired networks of processors has been extensively studied, their application to WSNs remains largely unexplored. Existing algorithms cannot be directly implemented in WSNs due to limited resource availability and shared communication medium. In this work, an application-independent task mapping and scheduling solution in multi-hop WSNs is presented that provides realtime guarantees. Using a novel multi-hop channel model and a communication scheduling algorithm, computation tasks and associated communication events are scheduled simultaneously with a dynamic critical-path scheduling algorithm. Dynamic voltage scaling (DVS) mechanism is implemented to further optimize energy consumption. According to the simulation results, the proposed solution outperforms existing mechanisms in terms of guaranteeing application deadlines with minimum energy consumption
doi_str_mv	10.1109/ICPPW.2006.33
format	Conference Proceeding
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Availability Collaboration Collaborative work Dynamic scheduling Dynamic voltage scaling Energy consumption Processor scheduling Scheduling algorithm Spread spectrum communication Wireless sensor networks
title	Dynamic critical-path task mapping and scheduling for collaborative in-network processing in multi-hop wireless sensor networks
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