Litcius/Paper detail

A Robust Framework to Design Optimal Sensor Locations for TOA or RSS Source Localization Techniques

Augusto Aubry, Prabhu Babu, Antonio De Maio, Ghania Fatima, Nitesh Sahu

2023IEEE Transactions on Signal Processing37 citationsDOIOpen Access PDF

Abstract

We focus on the problem of finding optimal sensor locations for source localization techniques based on either time of arrival (TOA) or received signal strength (RSS) measurements. Without any specific assumption on the actual source position, we propose a design framework that directly establishes the optimal sensor locations by minimizing suitable Cramer-Rao bound (CRB)-related cost functions. Specifically, we just consider a region where the source is likely to be present and focus on two cost functions: the former relies on the trace/determinant of CRB averaged over a grid of points resulting from the sampling of the surveillance area (shortly average CRB), whereas, the latter leverages the maximum trace/determinant of CRB over the mentioned grid (shortly worst-case CRB). Moreover, each sensor position is constrained to lie within a pre-specified set (deployment constraint set). Hence, we propose an optimization framework based on block majorization-minimization to deal with both the design paradigms. The iterative steps of the technique monotonically decrease the corresponding figure of merit and eventually converge to a stationary point of the design problem. The proposed methodology can also handle the case of nonuniform noise variances. Finally, through various numerical simulations, we show the effectiveness of the developed resource allocation policies.

Topics & Concepts

Computer scienceMathematical optimizationRSSCramér–Rao boundGridTRACE (psycholinguistics)Focus (optics)Time of arrivalSet (abstract data type)AlgorithmPosition (finance)Constraint (computer-aided design)Upper and lower boundsWirelessMathematicsEstimation theoryTelecommunicationsEconomicsLinguisticsOpticsPhilosophyGeometryOperating systemFinanceProgramming languagePhysicsMathematical analysisIndoor and Outdoor Localization TechnologiesDistributed Sensor Networks and Detection AlgorithmsTarget Tracking and Data Fusion in Sensor Networks