“Optimal Design of Robotic Character Kinematics” by Maloisel, Schumacher, Knoop, Grandia and Bächer
Conference:
Type(s):
Title:
- Optimal Design of Robotic Character Kinematics
Session/Category Title: Robots & Characters
Presenter(s)/Author(s):
Abstract:
The kinematic motion of a robotic character is defined by its mechanical joints and actuators that restrict the relative motion of its rigid components. Designing robots that perform a given target motion as closely as possible with a fixed number of actuated degrees of freedom is challenging, especially for robots that form kinematic loops. In this paper, we propose a technique that simultaneously solves for optimal design and control parameters for a robotic character whose design is parameterized with configurable joints. At the technical core of our technique is an efficient solution strategy that uses dynamics programming to solve for optimal state, control, and design parameters, together with a strategy to remove redundant constraints that commonly exist in general robot assemblies with kinematic loops. We demonstrate the efficacy of our approach by either editing the design of an existing robotic character, or by optimizing the design of a new character to perform a desired motion.
