Abstract
With the spectacular progress of technology, we have witnessed the appearance of wireless sensor networks (WSNs) in several fields. In a hospital for example, each patient will be provided with one or more wireless sensors that gather his physiological data and send them towards a base station to treat them on behalf of the clinicians. The WSNs can be integrated on a building surface to supervise the state of the structure at the time of a destroying event such as an earthquake or an explosion. In this paper, we presented a Mobility-Energy-Degree-Distance to the Base Station (MED-BS) Clustering Algorithm for the small-scale wireless Sensor Networks. A node with lower mobility, higher residual energy, higher degree and closer to the base station is more likely elected as a clusterhead. The members of each cluster communicate directly with their ClusterHeads (CHs) and each ClusterHead aggregates the received messages and transmits them directly to the base station. The principal goal of our algorithm is to reduce the energy consumption and to balance the energy load among all nodes. In order to ensure the reliability of MED-BS, we compared it with the LEACH (Low Energy Adaptive Clustering Hierarchy) clustering algorithm. Simulation results prove that MED-BS improves the energy consumption efficiency and constructs a stable structure which can support new sensors without returning to the clusters reconstruction phase.
Highlights
During recent years, we have seen a miniaturization brings technology
We presented a Mobility-Energy-Degree-Distance to the Base Station (MED-BS) Clustering Algorithm for the small-scale wireless Sensor Networks
The wireless sensor networks (WSNs) architecture breaks up into three underlayers: a sensor network which is composed of the information received from the external world, the clusterheads witch carried out the complex tasks of signal treatment, and a base station which received the information on behalf of the clusterheads ([5,6,7])
Summary
We have seen a miniaturization brings technology. This aptitude for the miniaturization brought a new generation of telecommunication networks which presents important challenges. The Wireless Sensor Networks are one of the technologies aiming at solving the problems of this new telecommunication and computer age [1]. It was necessary to think of an auto-organized virtual topology which should be adaptive and effective in energy ([8,9]). To conceive such topology, several solutions were suggested in the literature like the clustering, the heterogeneous networks and the dorsal. We proposed a clustering algorithm adopted with the small-scale Wireless Sensor Networks which goal is the minimization of the energy consumption by taking on account the patient’s mobility
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