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Auteurs principaux: Luo, Lifan, Zhang, Boyang, Peng, Zhijie, Cheung, Yik Kin, Zhang, Guanlan, Li, Zhigang, Wang, Michael Yu, Yu, Hongyu
Format: Preprint
Publié: 2023
Sujets:
Accès en ligne:https://arxiv.org/abs/2312.07146
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author Luo, Lifan
Zhang, Boyang
Peng, Zhijie
Cheung, Yik Kin
Zhang, Guanlan
Li, Zhigang
Wang, Michael Yu
Yu, Hongyu
author_facet Luo, Lifan
Zhang, Boyang
Peng, Zhijie
Cheung, Yik Kin
Zhang, Guanlan
Li, Zhigang
Wang, Michael Yu
Yu, Hongyu
contents As automation technologies advance, the need for compact and multi-modal sensors in robotic applications is growing. To address this demand, we introduce CompdVision, a novel sensor that employs a compound-eye imaging system to combine near-field 3D visual and tactile sensing within a compact form factor. CompdVision utilizes two types of vision units to address diverse sensing needs, eliminating the need for complex modality conversion. Stereo units with far-focus lenses can see through the transparent elastomer for depth estimation beyond the contact surface. Simultaneously, tactile units with near-focus lenses track the movement of markers embedded in the elastomer to obtain contact deformation. Experimental results validate the sensor's superior performance in 3D visual and tactile sensing, proving its capability for reliable external object depth estimation and precise measurement of tangential and normal contact forces. The dual modalities and compact design make the sensor a versatile tool for robotic manipulation.
format Preprint
id arxiv_https___arxiv_org_abs_2312_07146
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle CompdVision: Combining Near-Field 3D Visual and Tactile Sensing Using a Compact Compound-Eye Imaging System
Luo, Lifan
Zhang, Boyang
Peng, Zhijie
Cheung, Yik Kin
Zhang, Guanlan
Li, Zhigang
Wang, Michael Yu
Yu, Hongyu
Robotics
As automation technologies advance, the need for compact and multi-modal sensors in robotic applications is growing. To address this demand, we introduce CompdVision, a novel sensor that employs a compound-eye imaging system to combine near-field 3D visual and tactile sensing within a compact form factor. CompdVision utilizes two types of vision units to address diverse sensing needs, eliminating the need for complex modality conversion. Stereo units with far-focus lenses can see through the transparent elastomer for depth estimation beyond the contact surface. Simultaneously, tactile units with near-focus lenses track the movement of markers embedded in the elastomer to obtain contact deformation. Experimental results validate the sensor's superior performance in 3D visual and tactile sensing, proving its capability for reliable external object depth estimation and precise measurement of tangential and normal contact forces. The dual modalities and compact design make the sensor a versatile tool for robotic manipulation.
title CompdVision: Combining Near-Field 3D Visual and Tactile Sensing Using a Compact Compound-Eye Imaging System
topic Robotics
url https://arxiv.org/abs/2312.07146