A Framework for Composite Layup Skill Learning and Generalizing Through Teleoperation

Abstract: In this article, an impedance control-based framework for human-robot composite layup skill transfer was developed, and the human-in-the-loop mechanism was investigated to achieve human-robot skill transfer. Although there are some works on human-robot skill transfer, it is still difficult to transfer the manipulation skill to robots through teleoperation efficiently and intuitively. In this article, we developed an impedance-based control architecture of telemanipulation in task space for the human-robot skil… Show more

“…For the second type of human-in-the-loop collaborative method, namely driver remote participation coordination, it is mostly used for hexapod robots in underwater (Yoo et al, 2016;Picardi et al, 2020), planetary surface (Arm et al, 2023), resource extraction, and other hazardous environments. This is because the mobile operating environment poses risks that make it unsuitable for manned shared control of human-robots collaboration (Si et al, 2022). Li developed a new semiautonomous bilateral control dual-master/single-slave tactile remote operation system for hexapod robots.…”

Optimization method for human-robot command combinations of hexapod robot based on multi-objective constraints

“…For the second type of human-in-the-loop collaborative method, namely driver remote participation coordination, it is mostly used for hexapod robots in underwater (Yoo et al, 2016;Picardi et al, 2020), planetary surface (Arm et al, 2023), resource extraction, and other hazardous environments. This is because the mobile operating environment poses risks that make it unsuitable for manned shared control of human-robots collaboration (Si et al, 2022). Li developed a new semiautonomous bilateral control dual-master/single-slave tactile remote operation system for hexapod robots.…”

Optimization method for human-robot command combinations of hexapod robot based on multi-objective constraints

Deformation-Aware Contact-Rich Manipulation Skills Learning and Compliant Control

Modeling and object recognition skill transfer in industrial intelligent robots