Wireless sensor networks (WSNs) consist of numerous wireless sensor nodes, each sensor node embedding a tiny communication device enabling the nodes to communicate with each other or the base station. In this paper, we investigate the problem that communication distance must be considered in minimizing the wireless communication energy since the energy consumption is proportional to the 2nd to the 6th power of the distance. Moreover, another problem is that there is a non-uniform energy drain effect in most topologies. Known as the energy hole problem, it can result in premature termination of the entire network. To address these problems, in this paper we first propose a communication routing algorithm that can solve the energy hole problem to the maximum extent possible while minimizing the wireless communication energy by generating an energy efficient spanning tree. This algorithm is beneficial for network lifetimes defined by a high node termination percentage. For the WSNs for which the energy hole problem is critical, we propose two route switching algorithms to solve the energy hole problem; they are beneficial for network lifetimes defined by a low node termination percentage. Simulation results showed that these algorithms avoid the energy hole problem and thereby greatly extend the lifetime of WSNs by more than 3 to 6 times that of ones using direct transmission in a 20-node network and a 50-node network if the lifetime of a WSN is defined by 1% of the number of terminated nodes in the WSN.

• 出版日期2014-12