Article: Design and development of robotic end-effector position measuring device Journal: International Journal of Advanced Mechatronic Systems (IJAMECHS) 2020 Vol.8 No.2/3 pp.86 - 93 Abstract: Robot end-effector position measurement is very essential to determine the error between the commanded position and actual position reached by the robot end-effector. This also ensures the error with which the robot end-effector traces the commanded path. Conventionally position measuring devices like laser trackers, coordinate measuring machine and other non-contact-based position measuring devices are widely used to measure the position of the end-effector due to their high accuracy and precision, even though they are very expensive. This paper presents a cost effective solution for the measurement of position of robot end-effector. An end-effector position measuring device is designed and developed in spherical coordinate system using two absolute rotary encoders and a draw-wire sensor. A mathematical model for the end effector position measuring device is developed to determine the position of the end-effector with respect to a reference coordinate system using 3D homogeneous transformation approach. End-effector position measuring device is tested for ABB IRB 1600 for numerous poses and for a straight line path. The newly developed end-effector position measuring device is found to be capable of measuring the end effector position with an accuracy of 2 mm and hence can be implemented in calibration of industrial robots. Inderscience Publishers - linking academia, business and industry through research

Title: Design and development of robotic end-effector position measuring device

Authors: C. Aashith; Muralidhara Rao

Addresses: Department of Mechanical Engineering, NMAM Institute of Technology, 574110, Karkala, Karnataka, India ' Department of Mechanical Engineering, NMAM Institute of Technology, 574110, Karkala, Karnataka, India

Abstract: Robot end-effector position measurement is very essential to determine the error between the commanded position and actual position reached by the robot end-effector. This also ensures the error with which the robot end-effector traces the commanded path. Conventionally position measuring devices like laser trackers, coordinate measuring machine and other non-contact-based position measuring devices are widely used to measure the position of the end-effector due to their high accuracy and precision, even though they are very expensive. This paper presents a cost effective solution for the measurement of position of robot end-effector. An end-effector position measuring device is designed and developed in spherical coordinate system using two absolute rotary encoders and a draw-wire sensor. A mathematical model for the end effector position measuring device is developed to determine the position of the end-effector with respect to a reference coordinate system using 3D homogeneous transformation approach. End-effector position measuring device is tested for ABB IRB 1600 for numerous poses and for a straight line path. The newly developed end-effector position measuring device is found to be capable of measuring the end effector position with an accuracy of 2 mm and hence can be implemented in calibration of industrial robots.

Keywords: end-effector position measuring device; 3D homogeneous transformation; kinematic model; end-effector position/path error.

DOI: 10.1504/IJAMECHS.2020.111305

International Journal of Advanced Mechatronic Systems, 2020 Vol.8 No.2/3, pp.86 - 93

Received: 15 Oct 2019
Accepted: 24 Apr 2020
Published online: 19 Nov 2020 *

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Title: Design and development of robotic end-effector position measuring device

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