Simple and Fast Convex Relaxation Method for Cooperative Localization in Sensor Networks Using Range Measurements

Author

Soares, Claudia ; Xavier, Joao ; Gomes, Joao

Author_Institution

Inst. for Syst. & Robot. (ISR/IST), Univ. de Lisboa, Lisbon, Portugal

Volume

63

Issue

17

fYear

2015

fDate

Sept.1, 2015

Firstpage

4532

Lastpage

4543

Abstract

We address the sensor network localization problem given noisy range measurements between pairs of nodes. We approach the nonconvex maximum-likelihood formulation via a known simple convex relaxation. We exploit its favorable optimization properties to the full to obtain an approach that is completely distributed, has a simple implementation at each node, and capitalizes on an optimal gradient method to attain fast convergence. We offer a parallel but also an asynchronous flavor, both with theoretical convergence guarantees and iteration complexity analysis. Experimental results establish leading performance. Our algorithms top the accuracy of a comparable state-of-the-art method by one order of magnitude, using one order of magnitude fewer communications.

Keywords

concave programming; convergence of numerical methods; convex programming; cooperative communication; gradient methods; maximum likelihood estimation; relaxation theory; sensor placement; wireless sensor networks; convergence method; convex relaxation method; cooperative localization; iteration complexity analysis; noisy range measurement; nonconvex maximum likelihood formulation; optimal gradient method; optimization properties; wireless sensor network localization problem; Complexity theory; Convergence; Maximum likelihood estimation; Noise measurement; Optimization; Robot sensing systems; Signal processing algorithms; Convex relaxations; distributed algorithms; distributed iterative sensor localization; maximum likelihood estimation; nonconvex optimization; wireless sensor networks;

fLanguage

English

Journal_Title

Signal Processing, IEEE Transactions on

Publisher

ieee

ISSN

1053-587X

Type

jour

DOI

10.1109/TSP.2015.2454853

Filename

7153574