Ivan Papusha, Richard Murray
Citation
Ivan Papusha, Richard Murray. "Approximate Motion Planning for Constrained Switched Systems". Talk or presentation, 30, October, 2014; Poster presented at the 2014 TerraSwarm Annual Meeting.
Abstract
In this work we are focused on developing novel state of the art algorithms for constrained motion planning of dynamic agents, such as robotic vehicles, manipulators, and walkers, with a view toward applications to single- and multi-agent hybrid systems and their formal verification. In the proposed framework inspired by approximate dynamic programming, easily computable lower and upper bound approximations are made on a global value function, with a different approximation for every mode. Candidate bounds are characterized by semi-infinite constraints, which are carefully discretized in an adaptive branch and bound scheme that aims to delay the onset of the curse of dimensionality. The best bounds are chosen by optimization. The result is a complete planner whose implementation benefits from advances in distributed optimization and formal methods. Such planners are amenable to generic implementation on a decentralized platform, and a robotic demo meant to showcase the technology is envisioned.
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- HTML
Ivan Papusha, Richard Murray. <a href="http://www.terraswarm.org/pubs/416.html"><i>Approximate Motion Planning for Constrained Switched Systems</i></a>, Talk or presentation, 30, October, 2014; Poster presented at the <a href="http://www.terraswarm.org/conferences/14/annual" >2014 TerraSwarm Annual Meeting</a>.
- Plain text
Ivan Papusha, Richard Murray. "Approximate Motion Planning for Constrained Switched Systems". Talk or presentation, 30, October, 2014; Poster presented at the <a href="http://www.terraswarm.org/conferences/14/annual" >2014 TerraSwarm Annual Meeting</a>.
- BibTeX
@presentation{PapushaMurray14_ApproximateMotionPlanningForConstrainedSwitchedSystems, author = {Ivan Papusha and Richard Murray}, title = {Approximate Motion Planning for Constrained Switched Systems}, day = {30}, month = {October}, year = {2014}, note = {Poster presented at the <a href="http://www.terraswarm.org/conferences/14/annual" >2014 TerraSwarm Annual Meeting</a>.}, abstract = {In this work we are focused on developing novel state of the art algorithms for constrained motion planning of dynamic agents, such as robotic vehicles, manipulators, and walkers, with a view toward applications to single- and multi-agent hybrid systems and their formal verification. In the proposed framework inspired by approximate dynamic programming, easily computable lower and upper bound approximations are made on a global value function, with a different approximation for every mode. Candidate bounds are characterized by semi-infinite constraints, which are carefully discretized in an adaptive branch and bound scheme that aims to delay the onset of the curse of dimensionality. The best bounds are chosen by optimization. The result is a complete planner whose implementation benefits from advances in distributed optimization and formal methods. Such planners are amenable to generic implementation on a decentralized platform, and a robotic demo meant to showcase the technology is envisioned.}, URL = {http://terraswarm.org/pubs/416.html} }
Posted by Ivan Papusha on 29 Oct 2014.
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