FTUC: A Flooding Tree Uneven Clustering Protocol for a Wireless Sensor Network - Archive ouverte HAL
Article Dans Une Revue Sensors Année : 2017

FTUC: A Flooding Tree Uneven Clustering Protocol for a Wireless Sensor Network

Résumé

Clustering is an efficient approach in a wireless sensor network (WSN) to reduce the energy consumption of nodes and to extend the lifetime of the network. Unfortunately, this approach requires that all cluster heads (CHs) transmit their data to the base station (BS), which gives rise to the long distance communications problem, and in multi-hop routing, the CHs near the BS have to forward data from other nodes that lead those CHs to die prematurely, creating the hot zones problem. Unequal clustering has been proposed to solve these problems. Most of the current algorithms elect CH only by considering their competition radius, leading to unevenly distributed cluster heads. Furthermore, global distances values are needed when calculating the competition radius, which is a tedious task in large networks. To face these problems, we propose a flooding tree uneven clustering protocol (FTUC) suited for large networks. Based on the construction of a tree type sub-network to calculate the minimum and maximum distances values of the network, we then apply the unequal cluster theory. We also introduce referenced position circles to evenly elect cluster heads. Therefore, cluster heads are elected depending on the node’s residual energy and their distance to a referenced circle. FTUC builds the best inter-cluster communications route by evaluating a cluster head cost function to find the best next hop to the BS. The simulation results show that the FTUC algorithm decreases the energy consumption of the nodes and balances the global energy consumption effectively, thus extending the lifetime of the network.

Dates et versions

hal-01646520 , version 1 (23-11-2017)

Identifiants

Citer

Wei He, Sébastien Pillement, Du Xu. FTUC: A Flooding Tree Uneven Clustering Protocol for a Wireless Sensor Network. Sensors, 2017, 17 (12), pp.2706. ⟨10.3390/s17122706⟩. ⟨hal-01646520⟩
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