Add to ORKGInternational audience— This paper proposes an orbital obstacle avoidance algorithm which permits to obtain safe and smooth robot navigation in very cluttered environments. This algorithm uses specific reference frame which gives accurate indication on robot situation. The robot knows thus if it must avoid the obstacle in clockwise or counterclockwise direction. Moreover, it knows the moment to go into the orbit of the obstacle and the moment to go out. These orbital behaviors are performed using adaptive limit-cycle trajectories. The later with a specific conflicting situations module permit to prevent robot oscillations , local minima and dead ends. The proposed algorithm is embedded in a specific bottom-up control architecture with stabi...
This paper describes a novel reactive obstacle avoidance approach for mobile robot navigation in unk...
Currently, problems of autonomous wheeled mobile robots in unknown environments are great challenge....
An approach to guide a mobile robot from an initial position to a goal position avoiding any obstacl...
International audience— This paper proposes an orbital obstacle avoidance algorithm which permits to...
International audienceReactive navigation in very cluttered environment while insuring maximum safet...
International audienceThis paper deals with a multi-mode control architecture for robot navigation a...
The field of autonomous mobile robotics has recently gained many researchers’ interests. Due to the ...
Safe Robot Navigation Among Moving and Steady Obstacles is the first book to focus on reactive navig...
This paper addresses the issue of mobile robot navigation in an indoor environment. In the system, a...
International audience— This paper deals with the challenging issue of on-line mobile robot navigati...
International audienceAutonomous robot navigation is the subject of research in many disciplines. In...
Robotic navigation has remained an open issue through the last two decades. Mobile robot is required...
Robotic navigation has remained an open issue through the last two decades. Mobile robot is required...
This thesis considers the problem of safe navigation for autonomous mobile robots working in partial...
In this paper the trajectory tracking control algorithm with obstacle avoidance capability is presen...
This paper describes a novel reactive obstacle avoidance approach for mobile robot navigation in unk...
Currently, problems of autonomous wheeled mobile robots in unknown environments are great challenge....
An approach to guide a mobile robot from an initial position to a goal position avoiding any obstacl...
International audience— This paper proposes an orbital obstacle avoidance algorithm which permits to...
International audienceReactive navigation in very cluttered environment while insuring maximum safet...
International audienceThis paper deals with a multi-mode control architecture for robot navigation a...
The field of autonomous mobile robotics has recently gained many researchers’ interests. Due to the ...
Safe Robot Navigation Among Moving and Steady Obstacles is the first book to focus on reactive navig...
This paper addresses the issue of mobile robot navigation in an indoor environment. In the system, a...
International audience— This paper deals with the challenging issue of on-line mobile robot navigati...
International audienceAutonomous robot navigation is the subject of research in many disciplines. In...
Robotic navigation has remained an open issue through the last two decades. Mobile robot is required...
Robotic navigation has remained an open issue through the last two decades. Mobile robot is required...
This thesis considers the problem of safe navigation for autonomous mobile robots working in partial...
In this paper the trajectory tracking control algorithm with obstacle avoidance capability is presen...
This paper describes a novel reactive obstacle avoidance approach for mobile robot navigation in unk...
Currently, problems of autonomous wheeled mobile robots in unknown environments are great challenge....
An approach to guide a mobile robot from an initial position to a goal position avoiding any obstacl...