Title :
Target localization and tracking in a random access sensor network
Author :
Kerse, Kivanc ; Fazel, Fatemeh ; Stojanovic, Milica
Abstract :
We consider tracking of multiple objects using a wireless sensor network where distributed nodes transmit to a fusion center using random access. During an initialization phase, targets are identified on a discrete set of locations using a sparse identification method. Tracking then proceeds to update the target locations and amplitudes explicitly, using a gradient algorithm to solve the underlying non-linear optimization problem. Updating continues at the pace dictated by the average sensing/transmission rate, which can be adjusted to suit an expected target velocity. By focusing explicitly on the target locations, as opposed to continuing with sparse identification over a quantized space whose size may be much greater than the number of targets, the goal is to reduce the computational complexity, improve the performance, and eliminate the spatial quantization effects.
Keywords :
computational complexity; gradient methods; nonlinear programming; quantisation (signal); target tracking; wireless sensor networks; computational complexity; fusion center; gradient algorithm; initialization phase; multiple objects tracking; nonlinear optimization problem; quantization effects; random access; random access sensor network; sparse identification method; target localization; target tracking; wireless sensor network; Matching pursuit algorithms; Measurement uncertainty; Noise; Sensors; Target tracking; Vectors; Wireless sensor networks; gradient descent; localization; sparse identification; target tracking;
Conference_Titel :
Signals, Systems and Computers, 2013 Asilomar Conference on
Conference_Location :
Pacific Grove, CA
Print_ISBN :
978-1-4799-2388-5
DOI :
10.1109/ACSSC.2013.6810239
