Omnidirectional vision sensors are very attractive for autonomous robots because they offer a rich source of environment information. The main challenge in using these for mobile robots is managing this wealth of information. A relatively recent approach is the use of fast wide baseline local features, which we developed and use in the novel sparse visual path following method described in this paper. These local features have the great advantage that they can be recognized even if the viewpoint differs significantly. This opens the door to a memory efficient description of a path by sparsely sampling it with images. We propose a method for re-execution of these paths by a series of visual homing operations. Motion estimation is done by si...
International audienceIn this paper the performance of a topological- metric visual path following f...
An efficient iterative Earth Mover's Distance (iEMD) algorithm for visual tracking is proposed in th...
Visual homing describes the ability of a robot to autonomously return to its starting position along...
Vision sensors are attractive for autonomous robots because they are a rich source of environment in...
Abstract — We describe a system which follows “trails ” for autonomous outdoor robot navigation. Thr...
This work presents a unique system for autonomous mobile robot navigation. The main sensor is an omn...
We present a system that estimates the motion of a robot relying solely on images from onboard omnid...
In this paper we present a navigation algorithm that enables mobile robots to retrace routes previou...
We consider the use of low-budget omnidirectional platforms for 3D mapping and self-localisation. Th...
In this paper, we present a framework for 3D visual odometry applied to a hospital-use transfer robo...
This work presents an improved visual odometry using omnidirectional images. The main purpose is to ...
International audienceIn this paper, we describe a multi-scale monocular direct sparse visual odomet...
International audienceThis paper presents a new and robust method for extracting and match- ing visu...
Estimating the motion of an agent, such as a self-driving vehicle or mobile robot, is an essential r...
In a world where service robots are increasingly becoming an inherent part of our lives, it has beco...
International audienceIn this paper the performance of a topological- metric visual path following f...
An efficient iterative Earth Mover's Distance (iEMD) algorithm for visual tracking is proposed in th...
Visual homing describes the ability of a robot to autonomously return to its starting position along...
Vision sensors are attractive for autonomous robots because they are a rich source of environment in...
Abstract — We describe a system which follows “trails ” for autonomous outdoor robot navigation. Thr...
This work presents a unique system for autonomous mobile robot navigation. The main sensor is an omn...
We present a system that estimates the motion of a robot relying solely on images from onboard omnid...
In this paper we present a navigation algorithm that enables mobile robots to retrace routes previou...
We consider the use of low-budget omnidirectional platforms for 3D mapping and self-localisation. Th...
In this paper, we present a framework for 3D visual odometry applied to a hospital-use transfer robo...
This work presents an improved visual odometry using omnidirectional images. The main purpose is to ...
International audienceIn this paper, we describe a multi-scale monocular direct sparse visual odomet...
International audienceThis paper presents a new and robust method for extracting and match- ing visu...
Estimating the motion of an agent, such as a self-driving vehicle or mobile robot, is an essential r...
In a world where service robots are increasingly becoming an inherent part of our lives, it has beco...
International audienceIn this paper the performance of a topological- metric visual path following f...
An efficient iterative Earth Mover's Distance (iEMD) algorithm for visual tracking is proposed in th...
Visual homing describes the ability of a robot to autonomously return to its starting position along...