A New Approach to Time-Optimal Path Parameterization Based on Reachability Analysis

A New Approach to Time-Optimal Path Parameterization Based on Reachability Analysis

Time-optimal path parameterization (TOPP) is a well-studied problem in robotics and has a wide range of applications. There are two main families of methods to address TOPP: numerical integration (NI) and convex optimization (CO). The NI-based methods are fast but difficult to implement and suffer f...

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Veröffentlicht in:IEEE transactions on robotics 2018-06, Vol.34 (3), p.645-659
Hauptverfasser: Pham, Hung, Pham, Quang-Cuong
Format: Artikel
Sprache:eng
Schlagworte:
Acceleration
Computational geometry
Controllability
Convexity
Friction
motion planning
Numerical integration
Numerical methods
optimal control
Optimization
Parameterization
Planning
Propagation velocity
Reachability analysis
robot control
Robustness
Robustness (mathematics)
Service robots
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Zusammenfassung:Time-optimal path parameterization (TOPP) is a well-studied problem in robotics and has a wide range of applications. There are two main families of methods to address TOPP: numerical integration (NI) and convex optimization (CO). The NI-based methods are fast but difficult to implement and suffer from robustness issues, while CO-based approaches are more robust but, at the same time, significantly slower. Here, we propose a new approach to TOPP based on reachability analysis. The key insight is to recursively compute reachable and controllable sets at discretized positions on the path by solving small linear programs. The resulting algorithm is faster than NI-based methods and as robust as CO-based ones (100% success rate), as confirmed by extensive numerical evaluations. Moreover, the proposed approach offers unique additional benefits: admissible velocity propagation and robustness to parametric uncertainty can be derived from it in a simple and natural way.
ISSN:1552-3098
1941-0468
DOI:10.1109/TRO.2018.2819195