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A Range-Free Node Localization Method Based on MinMax Error Criterion for Sparse Anchors Wireless Sensor Networks

Zhentao Hu, Lin Zhou, Lu Zhang, Yong Jin, Qian Wei

2024IEEE Transactions on Vehicular Technology12 citationsDOI

Abstract

Current range-free node localization method experiences low localization accuracy in sparse anchors wireless sensor networks (WSN). To this end, a novel range-free node localization model based on minimize maximum error criterion is proposed in this letter. Moreover, an iterative localization algorithm called MinMax-DV-hop is proposed to tackle the nonconvex and non-differentiable objective function of proposed model too. Specifically, auxiliary variable is introduced to recast the minimum-maximum optimization into one with a linear object function, convex constraints and nonconvex constraints. And then, nonconvex constraints are tightened to linear inequality constraints by using its first-order Taylor expansions, thus a successive convex approximation method can be designed to iteratively solve the optimization problem finally. Simulations show that the MinMax-DV-hop experiences higher localization accuracy in sparse anchors WSN than those of the comparisons algorithm.

Topics & Concepts

MinimaxMathematical optimizationNode (physics)Wireless sensor networkRange (aeronautics)Differentiable functionConvex optimizationConvex functionIterative methodFunction (biology)MathematicsComputer scienceRegular polygonAlgorithmEngineeringComputer networkEvolutionary biologyBiologyMathematical analysisAerospace engineeringGeometryStructural engineeringIndoor and Outdoor Localization TechnologiesEnergy Efficient Wireless Sensor NetworksSparse and Compressive Sensing Techniques
A Range-Free Node Localization Method Based on MinMax Error Criterion for Sparse Anchors Wireless Sensor Networks | Litcius