Application of an Intelligent Force Controller for Robotic Deburring Process

Xian Lun Wang; Yong Wang; Yun Na Xue

doi:10.4028/www.scientific.net/MSF.532-533.456

Paper Titles

Prediction and Design of the Optimal Punch Shape for Recess Forging
p.440

Experiment Study on Machinability of Six Kinds of Wrought Nickel-Based Superalloys
p.444

Analyze and Correct Model for Machining Involute Spline
p.448

Study of the Removing Depth of the Polishing Surface Based on a Novel Spinning-Inflated-Ballonet Polishing Tool
p.452

Application of an Intelligent Force Controller for Robotic Deburring Process
p.456

Study on Fixed Abrasive Lapping Technology for Ceramic Balls
p.460

Investigation of Technology and Analysis of Residual Stress in Large Area Diamond Films
p.464

Fabrication of Ultra-Fine Abrasive Polishing Pads by Gel Technique
p.468

A Study of Double Sided Polishing Process for Ultra-Smooth Surface of Silicon Wafer
p.472

HomeMaterials Science ForumMaterials Science Forum Vols. 532-533Application of an Intelligent Force Controller for...

Application of an Intelligent Force Controller for Robotic Deburring Process

Abstract:

To achieve the desired dynamic impedance and the smooth chamfer contour, some adaptive controls and intelligent control schemes are incorporated in the impedance control for uncertain constrained robot systems. Most of them still result in an uneven chamfer for its characteristics in nature as the burrs vary highly. In this paper, an intelligent force controller based on impedance control with a neural network compensator is proposed for the robotic deburring process. The compensator is used to deal with the various burrs by modifying the input command according to the contact force and reference position. The performance of the intelligent force controller is compared with the conventional impedance control. The effectiveness of the proposed approach is testified by simulation experiments of the robotic deburring process.