OPTIMIZATION OF ROBOT MANIPULATOR MOTION ADAPTED FOR CONVEYOR PROCESSES

Toshpulatov Qobil Yaxyoxon ogli

OPTIMIZATION OF ROBOT MANIPULATOR MOTION ADAPTED FOR CONVEYOR PROCESSES

Authors

Toshpulatov Qobil Yaxyoxon ogli Namangan Institute of Engineering and Technology

Keywords:

Robot manipulator, conveyor systems, motion optimization, industrial automation, motion trajectory, energy efficiency, control algorithms.

Abstract

This article addresses the challenges and solutions for optimizing the motion of robotic manipulators used in industrial conveyor systems. Conveyor manufacturing processes require high precision and efficiency, which can be enhanced by optimizing the robot manipulators' movements. By refining the movement trajectories, planning sequences, and adjusting control algorithms, it is possible to improve operational efficiency, reduce time, and conserve energy. This study discusses methods of trajectory calculation, motion sequence planning, and speed-parameter adjustments for optimal robot control in conveyor settings. The article concludes with an analysis of the results achieved through optimization and the technologies applied.

Downloads

Published

2024-11-23

How to Cite

Toshpulatov Qobil Yaxyoxon ogli. (2024). OPTIMIZATION OF ROBOT MANIPULATOR MOTION ADAPTED FOR CONVEYOR PROCESSES. Web of Technology: Multidimensional Research Journal, 2(11), 269–274. Retrieved from https://webofjournals.com/index.php/4/article/view/2260