Litcius/Paper detail

Sequential Doppler-Shift-Based Optimal Localization and Synchronization With TOA

Sihao Zhao, Ningyan Guo, Xiao–Ping Zhang, Xiaowei Cui, Mingquan Lu

2022IEEE Internet of Things Journal18 citationsDOI

Abstract

Doppler shift is an important measurement for localization and synchronization (LAS), and is available in various practical systems. Existing studies on LAS techniques in a time-division broadcast LAS system (TDBS) only use sequential time-of-arrival (TOA) measurements from the broadcast signals. In this article, we develop a new optimal LAS method in the TDBS, namely, LAS-SDT, by taking advantage of the sequential Doppler shift and TOA measurements. It achieves higher accuracy compared with the conventional TOA-only method for user devices (UDs) with motion and clock drift. Another two variant methods, LAS-SDT-v for the case with UD velocity aiding and LAS-SDT-k for the case with UD clock drift aiding, are developed. We derive the Cramér–Rao lower bound (CRLB) for these different cases. We show analytically that the accuracies of the estimated UD position, clock offset, velocity, and clock drift are all significantly higher than those of the conventional LAS method using TOAs only. Numerical results corroborate the theoretical analysis and show the optimal estimation performance of the LAS-SDT.

Topics & Concepts

Cramér–Rao boundSynchronization (alternating current)Computer scienceTime of arrivalDoppler effectDoppler frequencyOffset (computer science)AlgorithmPosition (finance)Upper and lower boundsClock synchronizationClock driftFrequency offsetReal-time computingUTC offsetTelecommunicationsGlobal Positioning SystemEstimation theoryWirelessPhysicsMathematicsOrthogonal frequency-division multiplexingFinanceMathematical analysisProgramming languageEconomicsChannel (broadcasting)AstronomyIndoor and Outdoor Localization TechnologiesUnderwater Vehicles and Communication SystemsGNSS positioning and interference