Title :
AFM-based nano-telemanipulation for indenting on a human chromosome using sliding mode impedance-based controller for the slave
Author :
Samadzade, S. ; Korayem, M.H. ; Sarli, N.
Author_Institution :
Sci. & Res. Branch, Dept. of Mechatron., Islamic Azad Univ., Tehran, Iran
Abstract :
In this article, the goal is to design an Atomic Force Microscopy (AFM) based nano-telemanipulation system for indenting on a human chromosome. The existence of unmodeled/uncertain parameters in robot dynamics weakens the stability robustness and performance of the system, therefore by designing an impedance-based sliding mode controller on the slave side, the master-slave position coordination despite the presence of uncertainties is made possible and with the design of an impedance controller on the master side, the reflection of environment force on the operator is accomplished. The stability of the system is analyzed by deriving the teleoperator hybrid matrix. The simulations carried out in the Matlab/Simulink environment confirm that the desired objectives are fulfilled.
Keywords :
atomic force microscopy; biological techniques; cellular biophysics; force feedback; manipulators; telerobotics; variable structure systems; AFM based nanotelemanipulation system; Matlab-Simulink environment; atomic force microscopy; human chromosome indentation; master-slave position coordination; robot dynamics; sliding mode impedance based controller; teleoperator hybrid matrix; Biological cells; Force; Humans; Microscopy; Robustness; atomic force microscope; component; force feedback; impedance controller; nano telemanipulation;
Conference_Titel :
Biomedical Engineering (ICBME), 2010 17th Iranian Conference of
Conference_Location :
Isfahan
Print_ISBN :
978-1-4244-7483-7
DOI :
10.1109/ICBME.2010.5705000
