Energy-efficient relay selection for QoS provisioning in MIMO-based underwater acoustic cooperative wireless sensor networks | IEEE Conference Publication | IEEE Xplore
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Energy-efficient relay selection for QoS provisioning in MIMO-based underwater acoustic cooperative wireless sensor networks

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Ping Wang; Xi Zhang
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Abstract:

In recent years, the MIMO-based underwater acoustic (UWA) wireless sensor networks have attracted significant research attention because of its wide and critical applicat...Show More

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Abstract:

In recent years, the MIMO-based underwater acoustic (UWA) wireless sensor networks have attracted significant research attention because of its wide and critical applications in marine research, oceanography, marine commercial operations, offshore oil industry, and defense systems. The cooperativecommunications- based wireless relay networks have been widely cited as a very efficient technique to enhance the transmission and lifespan performances of the wireless networks. However, how to make the energy-efficient relay selection in the MIMObased UWA wireless sensor networks, particularly under the harsh underwater wireless environments with the stringent power supply constraint, have been not well understood, neither thoroughly studied. To overcome the above problems, in this paper we propose the optimal relay selection scheme to minimize the energy consumption while guaranteeing the quality of service (QoS) of each link over the MIMO-based UWA cooperative wireless sensor networks. We use the Finite-state Markov chain to model the UAW channel. Moreover, we also incorporate MIMO multiplexing-gain and diversity-gain techniques, as well as residual relay energy in the relay selection process. We implement our proposed optimal relay selection scheme by the linear programming (LP) technique. We conduct the simulations to validate and evaluate our proposed scheme, showing its superlatives over the other existing schemes.
Published in: 2013 47th Annual Conference on Information Sciences and Systems (CISS)
Date of Conference: 20-22 March 2013
Date Added to IEEE Xplore: 10 October 2013
ISBN Information:
DOI: 10.1109/CISS.2013.6624269
Conference Location: Baltimore, MD, USA
References is not available for this document.
Contents

I INTRODUCTION

IN recent years, underwater acoustic wireless sensor networks (UWA-WSN) [1] have experienced a rapid growth, due to their high significance to commercial and military applications such as oceanographic data collection, pollution monitoring, offshore exploration, disaster prevention, and tactical surveillance. Underwater communications applications mainly involve long-term monitoring of selected water areas, which usually costs a great of energy/power and bandwidth of UWA-WSN [2]. Supposing multimedia (e.g., video and audio) transmissions with QoS requirements represents one of important features and challenges of the next generation UWA-WSN, which introduces the further demands on both energy and bandwidth consumptions to guarantee the high-data-rate, delay-tolerant, and low-bit-error-rate QoS requirements. Consequently, the UWA-WSN research community has made significant efforts on the explorations and applications of various advanced efficient wireless techniques, including MIMO, cooperative communication, and relay networks.

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