TY - GEN
T1 - Haptic-Based Isomorphic Teleoperation System for Nuclear Spent Fuel Post-process
AU - Wang, Yuhang
AU - Guan, Chen
AU - Liu, Guanyang
AU - Wu, Dehui
AU - Wang, Guangkai
AU - Shen, Chenlin
AU - Jin, Jiefeng
AU - Wang, Yi
N1 - Publisher Copyright:
© 2023, The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd.
PY - 2023
Y1 - 2023
N2 - During the post-process of nuclear spent fuel, the isomorphic robotic teleoperation is an effective and popular tool for operators to complete special tasks safely. They prefer haptic feedback which enables them to feel the interaction at the slave side. However, in order to avoid radiation damage, motors, force sensors, and all other electronic components of slave manipulator have to be installed outside the nuclear environment, which brings difficulties in the robot structure design and poses challenges to haptic rendering algorithm. To solve all these problems, we propose a general solution of haptic-based teleoperation for users to complete nuclear spent fuel post-process. The manipulator is designed by using gear transmission based on coupled joints so that all electronic components can be mounted in the robot base frame. Special haptic rendering algorithms are developed to render a transparent interface connecting the user at master side and the nuclear environment at the slave side. Especially, the mass of payload on slave manipulator is computed in real time without any force sensors, which helps to render an identical feedback force on master arm. This estimation enables operators to feel what the slave arm is manipulating. Experiments validate our methodologies, and users acknowledge our proposed solution for nuclear spent fuel post-process.
AB - During the post-process of nuclear spent fuel, the isomorphic robotic teleoperation is an effective and popular tool for operators to complete special tasks safely. They prefer haptic feedback which enables them to feel the interaction at the slave side. However, in order to avoid radiation damage, motors, force sensors, and all other electronic components of slave manipulator have to be installed outside the nuclear environment, which brings difficulties in the robot structure design and poses challenges to haptic rendering algorithm. To solve all these problems, we propose a general solution of haptic-based teleoperation for users to complete nuclear spent fuel post-process. The manipulator is designed by using gear transmission based on coupled joints so that all electronic components can be mounted in the robot base frame. Special haptic rendering algorithms are developed to render a transparent interface connecting the user at master side and the nuclear environment at the slave side. Especially, the mass of payload on slave manipulator is computed in real time without any force sensors, which helps to render an identical feedback force on master arm. This estimation enables operators to feel what the slave arm is manipulating. Experiments validate our methodologies, and users acknowledge our proposed solution for nuclear spent fuel post-process.
KW - Haptic device
KW - Haptic rendering
KW - Nuclear spent fuel post-process
KW - Teleoperation
UR - https://www.scopus.com/pages/publications/85148030516
U2 - 10.1007/978-981-19-7184-6_49
DO - 10.1007/978-981-19-7184-6_49
M3 - 会议稿件
AN - SCOPUS:85148030516
SN - 9789811971839
T3 - Smart Innovation, Systems and Technologies
SP - 591
EP - 609
BT - Proceedings of the World Conference on Intelligent and 3-D Technologies (WCI3DT 2022) - Methods, Algorithms and Applications
A2 - Kountchev, Roumen
A2 - Nakamatsu, Kazumi
A2 - Wang, Wenfeng
A2 - Kountcheva, Roumiana
PB - Springer Science and Business Media Deutschland GmbH
T2 - 1st World Conference on Intelligent and 3-D Technologies, WCI3DT 2022
Y2 - 24 May 2022 through 26 May 2022
ER -