Extended Target Tracking in Human-Robot Coexisting Environments via Multisensor Information Fusion: A Heteroscedastic Gaussian Process Regression-Based Approach
Article Type
Research Article
Publication Title
IEEE Transactions on Industrial Informatics
Abstract
In this article, a new systematic approach to sensor fusion and state estimation is proposed for extended target tracking in human-robot coexisting environments. The developed method, called human feature-based extended target tracking via multisensor information fusion (HFBETT-MSIF), can assimilate information from the onboard camera and sonar sensor of a mobile robot in a unified way, during tracking of a pair of human shoes. A novel generalized measurement model containing the complete information of the human target is formulated for both sensors, thus rendering the tracking system potentially robust to the failure of any one sensor. The study illustrates how heteroscedastic Gaussian process (HGP) regression can be used to derive the measurement model. It also develops an advanced HGP model, called bias-minimized most likely HGP, to interpret the real-world shoe-contour data subjected to heteroscedastic noise. Performance evaluations conducted for real-life shoe tracking demonstrate the supremacy of the HFBETT-MSIF.
First Page
9877
Last Page
9886
DOI
https://10.1109/TII.2022.3232765
Publication Date
9-1-2023
Recommended Citation
Paral, Pritam; Chatterjee, Amitava; Rakshit, Anjan; and Pal, Sankar K., "Extended Target Tracking in Human-Robot Coexisting Environments via Multisensor Information Fusion: A Heteroscedastic Gaussian Process Regression-Based Approach" (2023). Journal Articles. 3612.
https://digitalcommons.isical.ac.in/journal-articles/3612