A Novel Topology Control Approach to Maintain the Node Degree in Dynamic Wireless Sensor Networks
Abstract:
Topology control is an important technique to improve the connectivity and the
reliability of Wireless Sensor Networks (WSNs) by means of adjusting the communication
range of wireless sensor nodes. In this paper, a novel Fuzzy-logic Topology Control (FTC) is
proposed to achieve any desired average node degree by adaptively changing communication
range, thus improving the network connectivity, which is the main target of FTC. FTC is a
fully localized control algorithm, and does not rely on location information of neighbors.
Instead of designing membership functions and if-then rules for fuzzy-logic controller, FTC
is constructed from the training data set to facilitate the design process. FTC is proved to be
accurate, stable and has short settling time. In order to compare it with other representative
localized algorithms (NONE, FLSS, k-Neighbor and LTRT), FTC is evaluated through
extensive simulations. The simulation results show that: firstly, similar to k-Neighbor
algorithm, FTC is the best to achieve the desired average node degree as node density varies;
secondly, FTC is comparable to FLSS and k-Neighbor in terms of energy-efficiency, but is
better than LTRT and NONE; thirdly, FTC has the lowest average maximum communication
range than other algorithms, which indicates that the most energy-consuming node in the
network consumes the lowest power.