Range based sensor node localization in the presence of unknown clock skews
Date
2013
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Source Title
2013 IEEE International Conference on Acoustics, Speech and Signal Processing
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Publisher
IEEE
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4046 - 4050
Language
English
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Abstract
We deal with the positioning problem based on two-way time-of-arrival (TW-TOA) measurements in asynchronous wireless sensor networks. The optimal estimator for this problem poses a difficult global optimization problem. To avoid the drawbacks in solving the optimal estimator, we use approximations and derive linear models, which facilitate efficient solutions. In particular, we employ the least squares method and solve a general trust region subproblem to find a coarse estimate. To further refine the estimate, we linearize the measurements and obtain a linear model which can be solved using regularized least squares. Simulation results illustrate that the proposed approaches asymptotically attain the Cramér-Rao lower bound. © 2013 IEEE.
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Keywords
Positioning , regularised least squares , trust region subproblem , two-way time-of-arrival (TW-TOA) , Global optimization problems , Least Square , Least squares methods , Node localization , Positioning , Regularized least squares , Trust region subproblem , Two way time of arrivals (TW TOA) , Sensor nodes , Signal processing , Least squares approximations