International audienceWe present a motion planning algorithm that computes rough trajectories used by a contact-points planner as a guide to grow its search graph. We adapt collision-free motion planning algorithms to plan a path within the guide space, a submanifold of the configuration space included in the free space in which the configurations are subject to static stability constraint. We first discuss the definition of the guide space. Then we detail the different techniques and ideas involved: relevant C-space sampling for humanoid robot, task-driven projection process, static stability test based on polyhedral convex cones theory's double description method. We finally present results from our implementation of the algorithm
Robotic motion planning requires configuration space exploration. In high-dimensional configuration ...
This master thesis presents a new planning framework for multi-contact interaction of humanoid robot...
International audienceMultiped locomotion in cluttered environments is addressed as the problem of p...
International audienceWe present a motion planning algorithm that computes rough trajectories used b...
International audienceWe investigate the problem of planning sequences of contacts that support acyc...
In its original formulation, the motion planning problem considers the search of a robot path from a...
Humanoids' abilities to navigate uneven terrain make them well-suited for disaster response efforts,...
A central challenging problem in humanoid robotics is to plan and execute dynamic tasks in changing ...
International audienceWe present a framework capable of producing contact plans describing complex m...
<p>Planning motion for humanoid robots requires obeying simultaneous constraints on balance, collisi...
This thesis starts by proposing a new framework for motion planning using stochastic maps, such as o...
One of the fundamental tasks robots have to perform is planning their motions while avoiding collisi...
Abstract—Motion planning for humanoid robotic systems with many degrees of freedom is an important a...
Robots already impact the way we understand our world and live our lives. However, their impact and ...
Motion planning is an important problem in robotics which addresses the question of how to transitio...
Robotic motion planning requires configuration space exploration. In high-dimensional configuration ...
This master thesis presents a new planning framework for multi-contact interaction of humanoid robot...
International audienceMultiped locomotion in cluttered environments is addressed as the problem of p...
International audienceWe present a motion planning algorithm that computes rough trajectories used b...
International audienceWe investigate the problem of planning sequences of contacts that support acyc...
In its original formulation, the motion planning problem considers the search of a robot path from a...
Humanoids' abilities to navigate uneven terrain make them well-suited for disaster response efforts,...
A central challenging problem in humanoid robotics is to plan and execute dynamic tasks in changing ...
International audienceWe present a framework capable of producing contact plans describing complex m...
<p>Planning motion for humanoid robots requires obeying simultaneous constraints on balance, collisi...
This thesis starts by proposing a new framework for motion planning using stochastic maps, such as o...
One of the fundamental tasks robots have to perform is planning their motions while avoiding collisi...
Abstract—Motion planning for humanoid robotic systems with many degrees of freedom is an important a...
Robots already impact the way we understand our world and live our lives. However, their impact and ...
Motion planning is an important problem in robotics which addresses the question of how to transitio...
Robotic motion planning requires configuration space exploration. In high-dimensional configuration ...
This master thesis presents a new planning framework for multi-contact interaction of humanoid robot...
International audienceMultiped locomotion in cluttered environments is addressed as the problem of p...