Minimum energy accumulative routing in wireless networks

In this paper, we propose to address the energy efficient routing problem in multi-hop wireless networks with accumulative relay. In the accumulative relay model, partially overheard signals of previous transmissions for the same packet are used to decode it using a maximal ratio combiner technique...

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Hauptverfasser:	Jiangzhuo Chen, Lujun Jia, Xin Liu, Noubir, G., Sundaram, R.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Batteries Decoding Energy efficiency Intelligent networks Radio frequency Relays Routing Spread spectrum communication Wireless networks Wireless sensor networks
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creator	Jiangzhuo Chen Lujun Jia Xin Liu Noubir, G. Sundaram, R.
description	In this paper, we propose to address the energy efficient routing problem in multi-hop wireless networks with accumulative relay. In the accumulative relay model, partially overheard signals of previous transmissions for the same packet are used to decode it using a maximal ratio combiner technique [J.G. Proakis, 2001]. Therefore, additional energy saving can be achieved over traditional energy efficient routing. The idea of accumulative relay originates from the study of relay channel in information theory with a main focus on network capacity. It has been independently applied to minimum-energy broadcasting in L.G. Manish Agrawal et al. (2004), I. Maric and R. Yates (2002). We formulate the minimum energy accumulative routing problem (MEAR) and study it. We obtain hardness of approximation results counterbalanced with good heuristic solutions which we validate using simulations. Without energy accumulation, the classic shortest path (SP) algorithm finds the minimum energy path for a source-destination pair. However, we show that with energy accumulation, the SP can be arbitrarily bad. We turn our attention to heuristics and show that any optimal solution of MEAR can be converted to a canonical form - wave path. Armed with this insight, we develop a polynomial time heuristic to efficiently search over the space of all wavepaths. Simulation results show that our heuristic can provide more than 30% energy saving over minimum energy routing without accumulative relay. We also discuss the implementation issues of such a scheme.
doi_str_mv	10.1109/INFCOM.2005.1498466
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subjects	Batteries Decoding Energy efficiency Intelligent networks Radio frequency Relays Routing Spread spectrum communication Wireless networks Wireless sensor networks
title	Minimum energy accumulative routing in wireless networks
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