Title : ( Design of Fractional Order Sliding Mode Controller for Chaos Suppression of Atomic Force Microscope System )
Authors: Sara Haghighatnia , Heydar Toossian Shandiz ,
Full TextAbstract
A novel nonlinear fractional order sliding mode controller is proposed to control the chaotic atomic force microscope system in presence of uncertainties and disturbances. In the design of the suggested fractional order controller, conformable fractional order derivative is applied. The stability of the scheme is proved by means of the Lyapunov theory based on conformable fractional order derivative. The simulation results show the advantages of the designed controller such as fast convergence speed, high accuracy and robustness against uncertainties and disturbances.
Keywords
, Conformable Fractional Order derivative, Chaotic System, Atomic Force Microscope System, Fractional Order System, Fractional Order Sliding Mode Controller.
@article{paperid:1073155,
author = {Sara Haghighatnia and Toossian Shandiz, Heydar},
title = {Design of Fractional Order Sliding Mode Controller for Chaos Suppression of Atomic Force Microscope System},
journal = {Iranian Journal of Electrical and Electronic Engineering},
year = {2019},
volume = {15},
number = {2},
month = {June},
issn = {1735-2827},
pages = {222--228},
numpages = {6},
keywords = {Conformable Fractional Order derivative; Chaotic System; Atomic Force Microscope System; Fractional Order System; Fractional Order Sliding Mode Controller.},
}
%0 Journal Article
%T Design of Fractional Order Sliding Mode Controller for Chaos Suppression of Atomic Force Microscope System
%A Sara Haghighatnia
%A Toossian Shandiz, Heydar
%J Iranian Journal of Electrical and Electronic Engineering
%@ 1735-2827
%D 2019
