A Distributed and Maximum-Likelihood Sensor Network Localization Algorithm Based Upon a Nonconvex Problem Formulation

A Distributed and Maximum-Likelihood Sensor Network Localization Algorithm Based Upon a Nonconvex Problem Formulation

We propose a distributed algorithm for sensor network localization, which is based upon a decomposition of the nonlinear nonconvex maximum likelihood (ML) localization problem. Decomposition and coordination are obtained by applying the alternating direction method of multipliers (ADMM), to provide...

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Bibliographic Details
Published in:IEEE transactions on signal and information processing over networks Vol. 1; no. 4; pp. 247 - 258
Main Author: Erseghe, Tomaso
Format: Journal Article
Language:English
Published: IEEE 01-12-2015
Subjects:
Alternating direction method of multipliers
Context
Convergence
Decentralized estimation
Distance measurement
Distributed algorithms
Information processing
Localization
Maximum likelihood
Maximum likelihood estimation
Nickel
Optimization methods
Wireless sensor networks
localization
Alternating direction method of multipliers
wireless sensor networks
distributed algorithms
decentralized estimation
maximum likelihood
optimization methods
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Description
Summary:We propose a distributed algorithm for sensor network localization, which is based upon a decomposition of the nonlinear nonconvex maximum likelihood (ML) localization problem. Decomposition and coordination are obtained by applying the alternating direction method of multipliers (ADMM), to provide a distributed, synchronous, and nonsequential algorithm. When penalty coefficients are locally increased under specific conditions, the algorithm is proved to converge irrespective of the chosen starting point. It is also shown to be fast and accurate, providing a performance, which is equivalent to that of a centralized solver. In the comparison with existing literature on distributed sensor network localization, the proposed method involves a much lighter local processing effort, an improved robustness in non-Gaussian scenarios, and a better adherence to the original problem.
ISSN:2373-776X
2373-776X
2373-7778
DOI:10.1109/TSIPN.2015.2483321