A topology control algorithm for interference and energy efficiency in wireless sensor networks
ADHOC-NOW'11 Proceedings of the 10th international conference on Ad-hoc, mobile, and wireless networks
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Topology control in wireless ad hoc networks can be considered the task of given a network connectivity graph computing a sub graph with specific desired properties, such as connectivity, symmetry, sparsity, low interference. All previous approaches used for topology control have in common that they model wireless networks as purely geometric graphs, hence neglecting one of the most crucial aspects of wireless communication: capture effect. From a theoretical point of view, the graph-based model of topology control really does not bear any significance when it comes to actually scheduling messages in an SINR environment. Therefore, we integrate SINR-based model into graph-based model. Then we present a hybrid interference model-based topology control (HIMTC) algorithm. The proposed algorithm is distributed and only requires the local information. It can lower the graph interference of networks and increases the network capacity.