Independent force and position control for cooperating manipulators handling an unknown object and interacting with an unknown environment

Ryu, Jee Hwan; Jafari, Aghil; Jee-Hwan, Ryu

doi:10.1016/j.jfranklin.2015.12.010

All Outputs (2)

Stable and transparent teleoperation over communication time-delay: Observer-based input-to-state stable approach (2016)
Journal Article
Jafari, A., Nabeel, M., Singh, H., & Ryu, J. (2016). Stable and transparent teleoperation over communication time-delay: Observer-based input-to-state stable approach. IEEE Haptics Symposium : [proceedings]. IEEE Haptics Symposium, 2016-April, 235-240. https://doi.org/10.1109/HAPTICS.2016.7463183

In this paper, an observer-based input-to-state stable approach is proposed to stabilize teleoperation systems over communication time-delay with better transparency compared with passivity approaches. In this paper, input-to-state stable approach is... Read More about Stable and transparent teleoperation over communication time-delay: Observer-based input-to-state stable approach.

Independent force and position control for cooperating manipulators handling an unknown object and interacting with an unknown environment (2016)
Journal Article
Ryu, J. H., Jafari, A., & Jee-Hwan, R. (2016). Independent force and position control for cooperating manipulators handling an unknown object and interacting with an unknown environment. Journal of The Franklin Institute, 353(4), 857-875. https://doi.org/10.1016/j.jfranklin.2015.12.010

© 2016 The Franklin Institute. Published by Elsevier Ltd. All rights reserved. This paper presents a unified framework for system design and control in cooperative robotic systems. It introduces a highly generalized cooperative system configuration t... Read More about Independent force and position control for cooperating manipulators handling an unknown object and interacting with an unknown environment.