Learning dynamic graffiti strokes with a compliant robot
We present an approach to generate rapid and fluid drawing movements on a compliant Baxter robot, by taking advantage of the kinematic redundancy and torque control capabilities of the robot. We concentrate on the task of reproducing graffiti-stylised letter-forms with a marker. For this purpose, we exploit a compact lognormal-stroke based representation of movement to generate natural drawing trajectories. An Expectation-Maximisation (EM) algorithm is used to iteratively improve tracking performance with low gain feedback control. The resulting system captures the aesthetic and dynamic features of the style under investigation and permits its reproduction with a compliant controller that is safe for users surrounding the robot.
Item Type | Conference or Workshop Item (Paper) |
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Additional Information |
IROS is one of the main international annual robotics conferences. |
Keywords | Trajectory, Manipulators, Jacobian matrices, Writing, Tracking, Art |
Departments, Centres and Research Units | Computing |
Date Deposited | 02 Sep 2016 13:29 |
Last Modified | 16 Oct 2020 14:18 |