Accepted in 2013 IEEE International Conference on Robotics and AutomationInternational audienceThis paper aims at combining state of the art developments of path planning and optimal control and to create the algorithmic foundations to tackle optimal control problems in cluttered environments. Our contribution is three-fold: first, we describe a simple method to automatically generate minimum bounding capsules around exact robot body geometries represented by meshes. Second, we use the bounding capsules to implement distance constraints for an optimal control problem solver and achieve (self-)collision avoidance. Finally, we propose a complete two-stage framework for optimal motion planning on complex robots. This framework is successfully ...
Optimization of high-level autonomous tasks requires solving the optimal motion planning problem for...
International audienceThis paper introduces a new method for planning safe motions for complex syste...
International audienceWe investigate the problem of planning sequences of contacts that support acyc...
Accepted in 2013 IEEE International Conference on Robotics and AutomationInternational audienceThis ...
Abstract—We present a novel approach for incorporating collision avoidance into trajectory optimizat...
This paper addresses the problem of walk planning for a humanoid robot on a flat ground cluttered by...
Accepted at International Conference on Informatics in Control, Automation and Robotics (ICINCO'11)A...
Thanks to their human-like structure, humanoid robots have the potential for accomplishing complex t...
Accepté à 11th IEEE-RAS International Conference on Humanoid RobotsInternational audienceThis paper ...
In this paper, we propose an effective planning method for whole-body motions of humanoid robots und...
International audienceThis paper presents a general method for planning collision-free whole-body wa...
2018-07-26In this work, we explore computationally lightweight optimization-based methods for planni...
An optimal control problem to find the fastest collision-free trajectory of a robot surrounded by ob...
In this thesis we develop a general algorithm for optimizing robot motion in the presence of obstacl...
We present a new optimization-based approach for robotic motion planning among obstacles. Like CHOMP...
Optimization of high-level autonomous tasks requires solving the optimal motion planning problem for...
International audienceThis paper introduces a new method for planning safe motions for complex syste...
International audienceWe investigate the problem of planning sequences of contacts that support acyc...
Accepted in 2013 IEEE International Conference on Robotics and AutomationInternational audienceThis ...
Abstract—We present a novel approach for incorporating collision avoidance into trajectory optimizat...
This paper addresses the problem of walk planning for a humanoid robot on a flat ground cluttered by...
Accepted at International Conference on Informatics in Control, Automation and Robotics (ICINCO'11)A...
Thanks to their human-like structure, humanoid robots have the potential for accomplishing complex t...
Accepté à 11th IEEE-RAS International Conference on Humanoid RobotsInternational audienceThis paper ...
In this paper, we propose an effective planning method for whole-body motions of humanoid robots und...
International audienceThis paper presents a general method for planning collision-free whole-body wa...
2018-07-26In this work, we explore computationally lightweight optimization-based methods for planni...
An optimal control problem to find the fastest collision-free trajectory of a robot surrounded by ob...
In this thesis we develop a general algorithm for optimizing robot motion in the presence of obstacl...
We present a new optimization-based approach for robotic motion planning among obstacles. Like CHOMP...
Optimization of high-level autonomous tasks requires solving the optimal motion planning problem for...
International audienceThis paper introduces a new method for planning safe motions for complex syste...
International audienceWe investigate the problem of planning sequences of contacts that support acyc...