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Comparative evaluation of Kalman filters and motion models in vehicular state estimation and path prediction

Tao Lu, Yousuke Watanabe, Shunya Yamada, Hiroaki Takada

2021Journal of Navigation14 citationsDOI

Abstract

Abstract Vehicle state estimation and path prediction, which usually involve Kalman filter and motion model, are critical tasks for intelligent driving. In vehicle state estimation, the comparative performance assessment, regarding accuracy and efficiency, of the unscented Kalman filter (UKF) and the extended Kalman filter (EKF) is rarely discussed. This paper is devoted to empirically evaluating the performance of UKF and EKF incorporating different motion models and investigating the models’ properties and the affecting factors in path prediction. Extensive real world experiments have been carried out and the results show that EKF and UKF have roughly identical accuracy in state estimation; however, EKF is faster than UKF generally; the fastest filter is about 2⋅6 times faster than the slowest. The path prediction experiments reveal that the velocity estimate and the used motion model affect path prediction; the more realistically the model reflects the vehicle's driving status, the more reliable its predictions.

Topics & Concepts

Extended Kalman filterKalman filterInvariant extended Kalman filterControl theory (sociology)Computer sciencePath (computing)Unscented transformFilter (signal processing)Alpha beta filterState (computer science)Motion (physics)Fast Kalman filterArtificial intelligenceAlgorithmComputer visionMoving horizon estimationControl (management)Programming languageAutonomous Vehicle Technology and SafetyTraffic and Road SafetyVehicle Dynamics and Control Systems
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