Paper Info
Title
Multistatic Localization in the Absence of Transmitter Position
Abstract
A multistatic system uses a transmitter to illuminate the object of interest and collects the reflected signal by a number of receivers to determine its location. In some scenarios such as passive coherent localization or for gaining flexibility, the position of the transmitter is not known. This paper investigates the use of the indirect path measurements reflected off the object alone, or together with the direct path measurements from the transmitter to receivers for locating the object in the absence of the transmitter position. We show that joint estimation of the object and transmitter positions from both the indirect and direct measurements can yield a better object location estimate than using the indirect measurements only by eliminating the dependency of the transmitter position. An algebraic closed-form solution is developed for the nonlinear problem of joint estimation and is shown analytically to achieve the Cramér–Rao lower bound performance under Gaussian noise over the small error region. To complete the study and gain insight, the optimal receiver placement in the absence of transmitter position is derived by minimizing the estimation confidence region or the mean-square estimation error for the object location. The performance lost due to unknown transmitter position under the optimal geometries is quantified. Simulations confirm well with the theoretical developments.
Year
DOI
Venue
2019
10.1109/TSP.2019.2929960
IEEE Transactions on Signal Processing
Keywords
Field
DocType
Receivers,Estimation,Position measurement,Radio transmitters,Delays
Confidence region,Transmitter,Algebraic number,Nonlinear system,Upper and lower bounds,Control theory,Gaussian noise,Mathematics
Journal
Volume
Issue
ISSN
67
18
1053-587X
Citations 
PageRank 
References 
4
0.39
0
Authors
2
Name
Order
Citations
PageRank
Yang Zhang141.41
K.C. Ho21311148.28