A Switched Systems Approach to Image-Based Localization of Targets That Temporarily Leave the Camera Field of View

Anup Parikh; Teng-Hu Cheng; Ryan Licitra; Warren E. Dixon

doi:10.1109/TCST.2017.2753163

A Switched Systems Approach to Image-Based Localization of Targets That Temporarily Leave the Camera Field of View

Anup Parikh^*, Teng-Hu Cheng, Ryan Licitra, Warren E. Dixon

^*Corresponding author for this work

Department of Mechanical Engineering

Research output: Contribution to journal › Article › peer-review

20 Scopus citations

Abstract

Image sensors have widespread use in many robotics applications and, in particular, in target tracking. While existing methods assume continuous image feedback, the novelty of this brief stems from the development of dwell time conditions to guarantee convergence of state estimates to an ultimate bound for a class of image-based observers in the presence of intermittent measurements. A Lyapunov analysis for the switched system is performed to develop convergence conditions based on the minimum amount of time the object must be visible and on the maximum amount of time the object may remain outside the camera view. Experimental results are included to verify the theoretical results and elucidate real-world performance.

Original language	English
Article number	8065021
Pages (from-to)	2149-2156
Number of pages	8
Journal	IEEE Transactions on Control Systems Technology
Volume	26
Issue number	6
DOIs	https://doi.org/10.1109/TCST.2017.2753163
State	Published - Nov 2018

Keywords

Computer vision
estimation
range sensing
switched systems
visual tracking

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10.1109/TCST.2017.2753163

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abstract = "Image sensors have widespread use in many robotics applications and, in particular, in target tracking. While existing methods assume continuous image feedback, the novelty of this brief stems from the development of dwell time conditions to guarantee convergence of state estimates to an ultimate bound for a class of image-based observers in the presence of intermittent measurements. A Lyapunov analysis for the switched system is performed to develop convergence conditions based on the minimum amount of time the object must be visible and on the maximum amount of time the object may remain outside the camera view. Experimental results are included to verify the theoretical results and elucidate real-world performance.",

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AB - Image sensors have widespread use in many robotics applications and, in particular, in target tracking. While existing methods assume continuous image feedback, the novelty of this brief stems from the development of dwell time conditions to guarantee convergence of state estimates to an ultimate bound for a class of image-based observers in the presence of intermittent measurements. A Lyapunov analysis for the switched system is performed to develop convergence conditions based on the minimum amount of time the object must be visible and on the maximum amount of time the object may remain outside the camera view. Experimental results are included to verify the theoretical results and elucidate real-world performance.

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A Switched Systems Approach to Image-Based Localization of Targets That Temporarily Leave the Camera Field of View

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