International audienceIn this paper, we propose a framework for visual navigation with simultaneous obstacle avoidance. The obstacles are modeled by using a vortex potential field, derived from an occupancy grid. Kinematic redundancy guarantees that obstacle avoidance and navigation are achieved concurrently, and the whole scheme is merely sensor-based. The problem is solved both in an obstacle-free and in a dangerous context, and the control law is smoothened in the intermediate situations. In a series of simulations, we show that with our framework, a robot can replay a taught visual path while avoiding collisions, even in the presence of visual occlusions
International audienceThe paper presents a new approach to construct a control law that realizes a m...
A trajectory following and obstacle avoidance mechanism for a mobile robot is presented for situatio...
International audienceThis paper presents a first part, Part-I of two, of a complete exploration and...
International audienceIn this paper, we propose a framework for visual navigation with simultaneous ...
International audienceWe propose an autonomous vehicle guidance framework which combines visual navi...
International audienceWe present and validate a framework for vi- sual navigation with obstacle avoi...
International audienceIn this paper, we propose and validate a framework for visual navigation with ...
International audienceMoving obstacle avoidance is a fundamental requirement for any robot operating...
International audienceMoving obstacle avoidance is a fundamental re- quirement for any robot operati...
International audienceIn this paper, we design and validate a new tentacle-based approach, for avoid...
In this manuscript, we consider the problem of mobile robots navigation using multisensor- based con...
In this work, we present a control and obstacle collision avoidance method for redundant robot manip...
International audienceThe paper presents a new approach to construct a control law that realizes a m...
A trajectory following and obstacle avoidance mechanism for a mobile robot is presented for situatio...
International audienceThis paper presents a first part, Part-I of two, of a complete exploration and...
International audienceIn this paper, we propose a framework for visual navigation with simultaneous ...
International audienceWe propose an autonomous vehicle guidance framework which combines visual navi...
International audienceWe present and validate a framework for vi- sual navigation with obstacle avoi...
International audienceIn this paper, we propose and validate a framework for visual navigation with ...
International audienceMoving obstacle avoidance is a fundamental requirement for any robot operating...
International audienceMoving obstacle avoidance is a fundamental re- quirement for any robot operati...
International audienceIn this paper, we design and validate a new tentacle-based approach, for avoid...
In this manuscript, we consider the problem of mobile robots navigation using multisensor- based con...
In this work, we present a control and obstacle collision avoidance method for redundant robot manip...
International audienceThe paper presents a new approach to construct a control law that realizes a m...
A trajectory following and obstacle avoidance mechanism for a mobile robot is presented for situatio...
International audienceThis paper presents a first part, Part-I of two, of a complete exploration and...