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
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.