Title :
Localization based on periodic signals with ambiguity
Author :
Picard, Joseph S. ; Weiss, Anthony J.
Abstract :
In this work we examine new ways to solve a localization problem when the observed signals are periodic and the period is too small to provide ambiguity free measurements. Along its trajectory, a mobile receiver collects periodic signals from a target and provides ambiguous time-of-arrival measurements. We propose a procedure based on convex optimization that resolves measurement ambiguities and achieves target localization with high positioning accuracy. This procedure is efficient and reaches the Cramer-Rao accuracy bound. It even outperforms the grid-search based implementation of the Maximum Likelihood estimator, in terms of accuracy and computational complexity. Numerical examples corroborate our results.
Keywords :
convex programming; mobile radio; radio receivers; time measurement; time-of-arrival estimation; Cramer-Rao accuracy; ambiguity free measurement; convex optimization; localization problem; mobile receiver; periodic signal; positioning accuracy; time-of-arrival measurement; Accuracy; Airborne radar; Doppler radar; Maximum likelihood estimation; Radar tracking; Receivers; Ambiguity; Convex Optimization; Sparsity;
Conference_Titel :
Electrical and Electronics Engineers in Israel (IEEEI), 2010 IEEE 26th Convention of
Conference_Location :
Eliat
Print_ISBN :
978-1-4244-8681-6
DOI :
10.1109/EEEI.2010.5661919
