Degree Constrained Topology Control for Very Dense Wireless Sensor Networks | IEEE Conference Publication | IEEE Xplore

Degree Constrained Topology Control for Very Dense Wireless Sensor Networks


Abstract:

We present a novel topology control algorithm for very dense wireless sensor networks that is constrained by a small maximum nodal degree k. Particularly, we limit k = 4 ...Show More

Abstract:

We present a novel topology control algorithm for very dense wireless sensor networks that is constrained by a small maximum nodal degree k. Particularly, we limit k = 4 which makes it challenging to formulate a connected network that possesses favorable properties such as a small diameter, short average path length and low energy consumption. Towards this goal, we introduce a graph theoretic approach that utilizes a Borel Cayley Graph as an underlying network topology. We call this approach Borel Cayley Graph Topology Control (BCG-TC). Simulation results for a network with 1081 nodes distributed over a 100 m × 100 m area showed that BCG-TC can formulate connected networks for the radio range exceeding certain threshold. Furthermore, these connected networks generated by BCG-TC exhibit (i) a small nodal degree k ≤ 4, (ii) a small diameter and short average path length, and (iii) fast information dissemination that leads to the least energy consumption among considered topology control protocols.
Date of Conference: 06-10 December 2010
Date Added to IEEE Xplore: 10 January 2011
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Conference Location: Miami, FL, USA

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