Title :
Splitting Tree Algorithm for Decentralized Detection in Sensor Networks
Author :
Dianhui Xu ; Yingwei Yao
Author_Institution :
LitePoint Corp., Sunnyvale, CA, USA
Abstract :
In this paper, we propose a novel collision resolution scheme for random access in wireless sensor networks. If a collision incurs during fusion process, splitting algorithm is applied to resolve the collision dynamically and recursively, based on past channel states alone or channel states and sensing information together. The novelty of our splitting algorithm is two-fold: 1. we perform splitting based on the informativeness of sensor data, ensuring that more informative data will be collected first; 2. we optimize splitting intervals based on local summaries of sensors collected at each fusion step. As shown in our simulation results, the proposed schemes achieve significant channel and power efficiency gain, compared with fixed sample size test, traditional sequential probability ratio test, and Pseudo-Bayesian based contention protocol.
Keywords :
telecommunication congestion control; trees (mathematics); wireless channels; wireless sensor networks; channel states; collision resolution scheme; decentralized detection; fusion process; power efficiency gain; random access; sensing information; sensor data informativeness; splitting intervals; splitting tree algorithm; wireless sensor networks; Algorithm design and analysis; Heuristic algorithms; Probability; Protocols; Synchronization; Wireless communication; Wireless sensor networks; Decentralized detection; random access; sensor networks; sequential detection; splitting algorithm;
Journal_Title :
Wireless Communications, IEEE Transactions on
DOI :
10.1109/TWC.2013.102413.121244
