Vibration Mode and Motion Trajectory Simulations of an Articulated Robot by a Dynamic Model Considering Joint Bearing Stiffness

Abstract: Articulated robots are widely used in industries because they can perform manufacturing tasks with complicated movements. Higher speed and accuracy of motions are always required to improve the quality and productivity of products. The vibration characteristics of the robots are an important factor to achieve higher speed and accuracy motions. Robots are increasingly being used for machining. The vibration characteristics must also be considered when designing proper cutting conditions for the machining. To de… Show more

“…Their system had a total of 19 DOFs and addressed the relationship between the mechanical structure and the controller by simulation combined with a controller. The same authors proposed a human judgment method for the modal vibration modeling of the robot and verified the reliability of the model by simulating the modal vibration and circular trajectory [17].…”

Development of a Novel Dynamic Modeling Approach for a Three-Axis Machine Tool in Mechatronic Integration

“…Their system had a total of 19 DOFs and addressed the relationship between the mechanical structure and the controller by simulation combined with a controller. The same authors proposed a human judgment method for the modal vibration modeling of the robot and verified the reliability of the model by simulating the modal vibration and circular trajectory [17].…”

Development of a Novel Dynamic Modeling Approach for a Three-Axis Machine Tool in Mechatronic Integration

Characterization of Flexible Drive Systems Using CAD Modeling and Simulation

A Data-Driven Approach for Online Path Correction of Industrial Robots Using Modified Flexible Dynamics Model and Disturbance State Observer