Quasi-Static Manipulation of a Kirchhoff Elastic Road Based on a Geometric Analysis of Equilibrium Configurations
| Title | Quasi-Static Manipulation of a Kirchhoff Elastic Road Based on a Geometric Analysis of Equilibrium Configurations |
| Publication Type | Journal Article |
| Year of Publication | 2014 |
| Authors | Timothy Bretl, University of Illinois at Urbana-Champaign, Zoe McCarthy, University of Illinois at Urbana-Champaign |
| Journal | International Journal of Robotics Research |
| Volume | 33 |
| Issue | 1 |
| Keywords | design and control, manipulation, manipulation planning, mechanics, NSA SoS Lablets Materials, path planning for manipulators, science of security, Theoretical Foundations of Threat Assessment by Inverse Optimal Control, UIUC |
| Abstract | Consider a thin, flexible wire of fixed length that is held at each end by a robotic gripper. Any curve traced by this wire when in static equilibrium is a local solution to a geometric optimal control problem, with boundary conditions that vary with the position and orientation of each gripper. We prove that the set of all local solutions to this problem over all possible boundary conditions is a smooth manifold of finite dimension that can be parameterized by a single chart. We show that this chart makes it easy to implement a sampling-based algorithm for quasi-static manipulation planning. We characterize the performance of such an algorithm with experiments in simulation. |
| Citation Key | node-32350 |
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- Science of Security
- NSA SoS Lablets Materials
- Science of Security
- Theoretical Foundations of Threat Assessment by Inverse Optimal Control
- UIUC
- manipulation planning
- manipulation
- path planning for manipulators
- mechanics
- design and control
- UIUC
- NSA SoS Lablets Materials
- Theoretical Foundations of Threat Assessment by Inverse Optimal Control