Abstract – The reactive navigation of a non-holonomic mobile robot implies selecting at each instant of time a motion command satisfying two conditions: to avoid collisions and to comply with the robot non-holonomic constraints. Most proposed reactive navigation approaches deal with these requirements simultaneously in an indivisible way. This paper proposes a clear separation of these problems by introducing a representation space where a robot losses its kinematics restrictions and can be dealt as a “free-flying-point. ” The collision avoidance can therefore be solved by existing holonomic methods, which are able to steer non-holonomic, any-shaped robots when applied in this space, named the Trajectory Parameter Space (TP-Space). We also ...
We address the global trajectory planning problem of non-holonomic mobile robots in environments wit...
This report addresses the problem of trajectory following for a wheeled mobile robot with nonholonom...
Safe Robot Navigation Among Moving and Steady Obstacles is the first book to focus on reactive navig...
Abstract – The reactive navigation of a non-holonomic mobile robot implies selecting at each instant...
We address the problem of applying reactive navigation methods to non-holonomic robots. Rather than ...
We address the problem of applying reactive naviga-tion methods to non-holonomic robots. Rather than...
methods for collision avoidance to systems where the dynamics cannot be neglected: mobile robots wit...
: Several schemes have been proposed in the path planning-literature to plan collision-free and feas...
This paper addresses the problem of determining a collision-free path for a mobile robot moving in a...
The problem of determining a collision-free path for a mobile robot moving in a dynamically changing...
The problem of determining a collision-free path for a mobile robot moving in a dynamically changing...
We present a motion planning algorithm for cases where geometry of the robot cannot be neglected and...
[Abstract] This work focuses on the analysis and benchmarking of the mrpt navigation ROS package. Th...
International audienceThis paper presents a novel and generic approach of path optimization for nonh...
We present a motion planning algorithm for cases where geometry of the robot cannot be neglected and...
We address the global trajectory planning problem of non-holonomic mobile robots in environments wit...
This report addresses the problem of trajectory following for a wheeled mobile robot with nonholonom...
Safe Robot Navigation Among Moving and Steady Obstacles is the first book to focus on reactive navig...
Abstract – The reactive navigation of a non-holonomic mobile robot implies selecting at each instant...
We address the problem of applying reactive navigation methods to non-holonomic robots. Rather than ...
We address the problem of applying reactive naviga-tion methods to non-holonomic robots. Rather than...
methods for collision avoidance to systems where the dynamics cannot be neglected: mobile robots wit...
: Several schemes have been proposed in the path planning-literature to plan collision-free and feas...
This paper addresses the problem of determining a collision-free path for a mobile robot moving in a...
The problem of determining a collision-free path for a mobile robot moving in a dynamically changing...
The problem of determining a collision-free path for a mobile robot moving in a dynamically changing...
We present a motion planning algorithm for cases where geometry of the robot cannot be neglected and...
[Abstract] This work focuses on the analysis and benchmarking of the mrpt navigation ROS package. Th...
International audienceThis paper presents a novel and generic approach of path optimization for nonh...
We present a motion planning algorithm for cases where geometry of the robot cannot be neglected and...
We address the global trajectory planning problem of non-holonomic mobile robots in environments wit...
This report addresses the problem of trajectory following for a wheeled mobile robot with nonholonom...
Safe Robot Navigation Among Moving and Steady Obstacles is the first book to focus on reactive navig...