期刊
JOURNAL ON MULTIMODAL USER INTERFACES
卷 16, 期 2, 页码 219-238出版社
SPRINGER
DOI: 10.1007/s12193-021-00386-8
关键词
Multimodal teleoperation; Haptic feedback; Motion capture; Dual-arm robotics; Collaborative robot; Surface conditioning
资金
- Generalitat Valenciana [GV/2021/074, GV/2021/181]
- Spanish Government [PID2020-118071GB-I00, PID2020-117421RBC21, MCIN/AEI/10.13039/501100011033]
- Coordenacao de Aperfeiaoamento de Pessoal de Nivel Superior (CAPES Brasil) [001]
- CEFET-MG
- Royal Academy of Engineering Chair in Emerging Technologies
This paper presents a multi-modal teleoperation system that combines haptics and an inertial motion capture system, which improves task performance and efficiency through haptic and visual feedback, as well as a flexible and maneuverable robot.
High dexterity is required in tasks in which there is contact between objects, such as surface conditioning (wiping, polishing, scuffing, sanding, etc.), specially when the location of the objects involved is unknown or highly inaccurate because they are moving, like a car body in automotive industry lines. These applications require the human adaptability and the robot accuracy. However, sharing the same workspace is not possible in most cases due to safety issues. Hence, a multi-modal teleoperation system combining haptics and an inertial motion capture system is introduced in this work. The human operator gets the sense of touch thanks to haptic feedback, whereas using the motion capture device allows more naturalistic movements. Visual feedback assistance is also introduced to enhance immersion. A Baxter dual-arm robot is used to offer more flexibility and manoeuvrability, allowing to perform two independent operations simultaneously. Several tests have been carried out to assess the proposed system. As it is shown by the experimental results, the task duration is reduced and the overall performance improves thanks to the proposed teleoperation method.
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