A TDoA Localization Scheme for Underwater Sensor Networks with Use of Multilinear Chirp Signals release_c6fg6bthajagxeepyitcayt4fa

by En Cheng, xizhou lin, Shengli Chen, fei yuan

Published in Mobile Information Systems by Hindawi Limited.

2016   Volume 2016, p1-11

Abstract

Due to the multipath, Doppler, and other effects, the node location signals have high probability of access collision in the underwater acoustic sensor networks (UW-ASNs), and therefore, it causes the signal lost and the access block; therefore, it constrains the networks performance. In this paper, we take the multilinear chirp (MLC) signals as the location signal to improve the anticollision ability. In order to increase the detection efficiency of MLC, we propose a fast efficient detection method called mixing change rate-fractional Fourier transform (MCR-FrFT). This method transforms the combined rates of MLC into symmetry triangle rates and then separates the multiuser signals based on the transformed rates by using FrFT. Theoretical derivation and simulation results show that the proposed method can detect the locations signals, estimate the time difference of arrival (TDoA), reduce the multiple access interference, and improve the location performance.
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