Semidefinite programming based algorithms for sensor network localization-Reference-Cited by-同舟云学术

Semidefinite programming based algorithms for sensor network localization

Published:2006-05 Issue:2 Volume:2 Page:188-220
ISSN:1550-4859
Container-title:ACM Transactions on Sensor Networks
language:en
Short-container-title:ACM Trans. Sen. Netw.

Author:

Biswas Pratik¹,Lian Tzu-Chen¹,Wang Ta-Chung¹,Ye Yinyu¹

Affiliation:

1. Stanford University, Stanford, CA

Abstract

An SDP relaxation based method is developed to solve the localization problem in sensor networks using incomplete and inaccurate distance information. The problem is set up to find a set of sensor positions such that given distance constraints are satisfied. The nonconvex constraints in the formulation are then relaxed in order to yield a semidefinite program that can be solved efficiently.The basic model is extended in order to account for noisy distance information. In particular, a maximum likelihood based formulation and an interval based formulation are discussed. The SDP solution can then also be used as a starting point for steepest descent based local optimization techniques that can further refine the SDP solution.We also describe the extension of the basic method to develop an iterative distributed SDP method for solving very large scale semidefinite programs that arise out of localization problems for large dense networks and are intractable using centralized methods.The performance evaluation of the technique with regard to estimation accuracy and computation time is also presented by the means of extensive simulations.Our SDP scheme also seems to be applicable to solving other Euclidean geometry problems where points are locally connected.

Publisher

Association for Computing Machinery (ACM)

Subject

Computer Networks and Communications

Link

https://dl.acm.org/doi/pdf/10.1145/1149283.1149286

Reference33 articles.

1. Solving Large-Scale Sparse Semidefinite Programs for Combinatorial Optimization

2. Biswas P. Aghajan H. and Ye Y. 2005a. Integration of angle of arrival information for multimodal sensor network localization using semidefinite programming. Tech. rep. Wireless Sensor Networks Lab Stanford University May. Biswas P. Aghajan H. and Ye Y. 2005a. Integration of angle of arrival information for multimodal sensor network localization using semidefinite programming. Tech. rep. Wireless Sensor Networks Lab Stanford University May.

3. Biswas P. Liang T.-C. Toh K.-C. and Ye Y. 2005b. An SDP based approach for anchor-free 3d graph realization. Tech. rep. Dept of Management Science and Engineering Stanford University. Submitted to SIAM Journal on Scientific Computing. March. Biswas P. Liang T.-C. Toh K.-C. and Ye Y. 2005b. An SDP based approach for anchor-free 3d graph realization. Tech. rep. Dept of Management Science and Engineering Stanford University. Submitted to SIAM Journal on Scientific Computing. March.

4. Biswas P. and Ye Y. 2003. A distributed method for solving semidefinite programs arising from ad hoc wireless sensor network localization. Tech. rep. Dept of Management Science and Engineering Stanford University October. Biswas P. and Ye Y. 2003. A distributed method for solving semidefinite programs arising from ad hoc wireless sensor network localization. Tech. rep. Dept of Management Science and Engineering Stanford University October.

Cited by 203 articles. 订阅此论文施引文献订阅此论文施引文献，注册后可以免费订阅5篇论文的施引文献，订阅后可以查看论文全部施引文献

1. An impossible combinatorial counting method in distance geometry;Discrete Applied Mathematics;2024-09

2. Satellite-Based Emitter Geolocation via Second-Order Cone Programming Initialization;IEEE Communications Letters;2024-09

3. Trajectory and Power Design for Aerial Multi-User Covert Communications;IEEE Transactions on Aerospace and Electronic Systems;2024-08

4. A Riemannian Dimension-Reduced Second-Order Method with Application in Sensor Network Localization;SIAM Journal on Scientific Computing;2024-06-17

5. CASTELO: Convex Approximation based Solution To Elliptic Localization with Outliers;Signal Processing;2024-05