Robotic deburring has an advance of precise and repeatable machining process on specific surface profiles. However, different from traditional deburring, deburring robots require generated trajectories on a workpiece with unknown chip thickness, which is a hard task due to the low stiffness of robot arm and abrasive tool used. This study presents a method for planning the online trajectory of a deburring robot by considering tool deflection based on the motion primitives trained from offline trajectories. From offline trajectories, task-related movements of 6-DoF deburring robot and interaction forces between the tool and the known workpiece while performing the deburring process are recorded. Then, by utilizing the laser scanner, the surfa...
This study investigates a Deburring process which is integrated with a robotics application. Convent...
In this paper a three-step active deburring strategy is proposed based on force feedback control. St...
Automatically identifying burrs and planning robot trajectories for respective castings, geometrical...
This study presents a new method to learn motor skills of robotic deburring process from a human exp...
In the current industrial scenario, robots are rarely used in contact operations such as machining a...
As of 2022, most automatic deburring trajectories are still generated using offline programming meth...
According to recent researches, it is desirable to extend Industrial Robots (IR) applicability to st...
Graduation date:2017Access restricted to the Administrator, at author's request, from 2017-06-26 to ...
Deburring of cast parts can be a very challenging task. Today, large burrs on large casting are most...
Industrial robotics is a continuously developing domain, as industrial robots have demonstrated to p...
Robotic systems have the potential to automate deburring processes along edges of arbitrarily shaped...
Deburring of aerospace components is a complex task in case of large single pieces designed and opti...
This thesis deals with the development of an automated robotic deburring workcell for refurbished co...
AbstractIn the present day batch production scenario the time taken to program the deburring robot f...
Force control is introduced to robots to solve the problem in machining applications due to the fact...
This study investigates a Deburring process which is integrated with a robotics application. Convent...
In this paper a three-step active deburring strategy is proposed based on force feedback control. St...
Automatically identifying burrs and planning robot trajectories for respective castings, geometrical...
This study presents a new method to learn motor skills of robotic deburring process from a human exp...
In the current industrial scenario, robots are rarely used in contact operations such as machining a...
As of 2022, most automatic deburring trajectories are still generated using offline programming meth...
According to recent researches, it is desirable to extend Industrial Robots (IR) applicability to st...
Graduation date:2017Access restricted to the Administrator, at author's request, from 2017-06-26 to ...
Deburring of cast parts can be a very challenging task. Today, large burrs on large casting are most...
Industrial robotics is a continuously developing domain, as industrial robots have demonstrated to p...
Robotic systems have the potential to automate deburring processes along edges of arbitrarily shaped...
Deburring of aerospace components is a complex task in case of large single pieces designed and opti...
This thesis deals with the development of an automated robotic deburring workcell for refurbished co...
AbstractIn the present day batch production scenario the time taken to program the deburring robot f...
Force control is introduced to robots to solve the problem in machining applications due to the fact...
This study investigates a Deburring process which is integrated with a robotics application. Convent...
In this paper a three-step active deburring strategy is proposed based on force feedback control. St...
Automatically identifying burrs and planning robot trajectories for respective castings, geometrical...