A New Homogeneous Finite-Time Controller for Bilateral Teleoperation Systems

Citation Author(s):
Lingyan Hu, Jin Yang, Peter X. Liu, Shaoping Xu , Penwen Xiong
Submitted by:
lingyang hu
Last updated:
Thu, 11/08/2018 - 10:34
DOI:
10.21227/nsq7-sa71
Data Format:
License:
0
0 ratings - Please login to submit your rating.

Abstract 

A continuous finite-time control scheme is introduced for bilateral teleoperation systems with asymmetric timevarying delays. Specifically, a non-smooth controller with fractional power based on the homogeneous method is developed to guarantee that the trajectory tracking error between the master and the slave converges to zero in a finite period of time. The system is proven to be globally asymptotically stable and has a negative degree of homogeneity, which means that it is globally finite-time stable. Both simulation and experimental results show that the proposed controller ensures the teleoperation system with fast convergence, accurate tracking performance and global stability without sacrificing system transparency.

Instructions: 

Here we uploaded the results of teleoperation experiments under asymmetric time-varying conditions. The data includes results from a finite time controller based on the homogeneous theory and the results under the PID controller. Run the m files in the folder and you can draw the result graphes. In addition, an experimental video was uploaded as a supplement。