Title :
Localization of Emitters via the Intersection of Bearing Lines: A Ghost Elimination Approach
Author :
Bishop, Adrian N. ; Pathirana, Pubudu N.
Author_Institution :
Deakin Univ., Waurn Ponds
Abstract :
In this paper, we discuss some theoretical conditions for unique localization of multiple targets using the intersection of multiple bearing lines in the presence of the data-association problem. In particular, we examine the necessary theoretical requirements to solve the so-called ghost node problem. We illustrate that it is by no means possible to assume that three spatially distinct bearing sensors are sufficient to eliminate the so-called ghost node problem. In contrast, we derive a measurement bound for ideal environments that clearly refutes this commonly held assumption. Then, we provide a probabilistic analysis on the rate of ghost elimination as a function of the measurement (sensor) numbers. Finally, we examine some of the concepts that were discussed via illustrative simulations.
Keywords :
direction-of-arrival estimation; sensor fusion; target tracking; bearing lines; bearing sensors; bearing-only tracking; data-association problem; emitter; ghost elimination; ghost node problem; measurement sensor; multiple target localization; passive localization; probabilistic analysis; sensor network; Australia Council; Direction of arrival estimation; Frequency estimation; Goniometers; Interchannel interference; NP-hard problem; Position measurement; Sensor systems; Target tracking; Working environment noise; Bearings-only tracking; data-association; ghost elimination; multiple target localization; passive localization; sensor networks;
Journal_Title :
Vehicular Technology, IEEE Transactions on
DOI :
10.1109/TVT.2007.900504
