• Title of article

    Emotional Learning Based Intelligent Controller for MIMO Peripheral Milling Process

  • Author/Authors

    Bahari Kordabad ، Arash - Sharif University of Technology , Boroushaki ، Mehrdad - Sharif University of Technology

  • Pages
    13
  • From page
    480
  • To page
    492
  • Abstract
    During the milling process, one of the most important factors in reducing tool life expectancy and quality of workpiece is the chattering phenomenon due to self-excitation. The milling process is considered as a MIMO strongly coupled nonlinear plant with time delay terms in cutting forces. We stabilize the plant using two independent Emotional Learning-based Intelligent Controller (ELIC) in parallel. Control inputs are considered as forces Ux and Uy in two directions x and y, which are applied by the piezoelectrics. The ELIC consists of three elements; Critic, TSK controller and the learning element. The results of the ELIC have been compared with a Sliding Mode Controller (SMC). The simulation for the nominal plant shows better performance of the ELIC in IAE and ITSE values at least 86% in the x-direction and 79% in the y-direction. Similar simulation for an uncertain plant also shows an improvement of at least 89% in the x-direction and 97% in the y-direction.
  • Keywords
    Emotional learning , Intelligent control , Peripheral milling , nonlinear MIMO , Time , delay , Sliding mode
  • Journal title
    Journal of Applied and Computational Mechanics
  • Serial Year
    2020
  • Journal title
    Journal of Applied and Computational Mechanics
  • Record number

    2478997