In this article, we present a Bayesian framework for maneuvering object tracking and intent prediction using novel $\alpha$-stable Lévy state-space models, expressed in continuous time as Lévy processes. In contrast to conventional (fully) Gaussian formulations, the proposed models are driven by heavy-tailed $\alpha$-stable noise and are, thus, much more able to capture extreme values/behaviors. This can better characterize sharp changes in the state, which may be induced by sudden and frequent maneuvers such as swift turns or abrupt accelerations. In particular, they are represented in a conditionally Gaussian series form, which ensures the tractability of the applied inference algorithms. A corresponding estimation strategy with the Rao–Blackwellized particle filter is then proposed, and an efficient intent inference procedure is introduced. Here, the underlying intent, driving the target's long-term behavior (e.g., reaching its final destination), is modeled as a latent variable. Real vessel data from maritime surveillance and human computer interactions (e.g., cursor data from motor-impaired interface users) are utilized to demonstrate the effectiveness of the proposed approach. It is shown to deliver noticeable improvements in the tracking and intent prediction performance (whenever relevant) compared with a more conventional Gaussian dynamic model.


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    Title :

    Lévy State-Space Models for Tracking and Intent Prediction of Highly Maneuverable Objects


    Contributors:


    Publication date :

    2021-08-01


    Size :

    3302782 byte




    Type of media :

    Article (Journal)


    Type of material :

    Electronic Resource


    Language :

    English



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