Visual Servoing and Kalman Filter Applied to Parallel Manipulator 3-RRR

This study introduces a novel methodology integrating computer vision, visual servo control, and the Kalman Filter to precisely estimate object locations for a 3-RRR planar type parallel manipulator. Through kinematic analysis and the development of a vision system using color indicators, the resear...

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Veröffentlicht in:	Electronics (Basel) 2024-07, Vol.13 (14), p.2703
Hauptverfasser:	Daraviña, Gian C., Valencia, Jorge L., Holguin, German A., Quintero, Héctor F., Ariza, Edwan Anderson, Vergara, Diego
Format:	Artikel
Sprache:	eng
Schlagworte:	Algorithms Analysis Calibration Computer vision Control systems Custom design Digital cameras End effectors Kalman filters Kinematics Machine vision Manipulators Occlusion Predictive control Robot arms Robot control Robots Robust control Sensors Servocontrol Tracking control Trajectory analysis Trajectory control Vision systems Visual control Visual fields
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container_title	Electronics (Basel)
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creator	Daraviña, Gian C. Valencia, Jorge L. Holguin, German A. Quintero, Héctor F. Ariza, Edwan Anderson Vergara, Diego
description	This study introduces a novel methodology integrating computer vision, visual servo control, and the Kalman Filter to precisely estimate object locations for a 3-RRR planar type parallel manipulator. Through kinematic analysis and the development of a vision system using color indicators, the research enhances the ability of the manipulator to track object trajectories, especially in cases of occlusion. Employing Eye-to-Hand visual servo control, the research further refines the visual orientation of the sensor for optimal end effector and object identification. The incorporation of the Kalman Filter as a robust estimator for occluded objects underscores the predictive accuracy of the system. Results demonstrate the effectiveness of the methodology in trajectory generation and object tracking, with potential implications for improving robotic manipulators in dynamic environments. This comprehensive approach not only advances the fields of kinematic control and visual servoing but also opens new avenues for future research in complex spatial manipulations.
doi_str_mv	10.3390/electronics13142703
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subjects	Algorithms Analysis Calibration Computer vision Control systems Custom design Digital cameras End effectors Kalman filters Kinematics Machine vision Manipulators Occlusion Predictive control Robot arms Robot control Robots Robust control Sensors Servocontrol Tracking control Trajectory analysis Trajectory control Vision systems Visual control Visual fields
title	Visual Servoing and Kalman Filter Applied to Parallel Manipulator 3-RRR
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