International audienceIn this paper we introduce a robust descriptor for matching vertical lines among two or more images from an omnidirectional camera. Furthermore, in order to make such a descriptor usable in the framework of indoor mobile robotics, this paper introduces a new simple strategy to extrinsically self-calibrate the omnidirectional sensor with the odometry reference system. In the first part of this paper we describe how to build the feature descriptor.We show that the descriptor is very distinctive and is invariant to rotation and slight changes in illumination. The robustness of the descriptor is validated through real experiments on a wheeled robot. The second part of the paper is devoted to the extrinsic self-calibration ...
We present an omnidirectional vision system we have implemented to provide our mobile robot Rullit w...
This thesis describes our efforts to tackle the 3D localization problem for unmanned vehicles using ...
International audienceThe integration of several range cameras in a mobile platform is useful for ap...
International audienceThis paper presents a new and robust method for extracting and match- ing visu...
For mobile robots to be able to work with and for people and thus operatein our everyday environment...
A single downward-looking camera can be used as a high-precision visual odometry sensor in a wide ra...
We present a system that estimates the motion of a robot relying solely on images from onboard omnid...
Due to their wide field of view, omnidirectional cameras are becoming ubiquitous in many mobile robo...
This work presents an improved visual odometry using omnidirectional images. The main purpose is to ...
Abstract—Scene recognition problems for mobile robots have been extensively studied. This is importa...
The paper presents an application of visual odometry, through reconstruction of the path of a mobile...
Mobile robots rely on their ability of scene recognition to build a topological map of the environme...
Abstract — An omnidirectional Mecanum base allows for more flexible mobile manipulation. However, sl...
In this paper, we present a framework for 3D visual odometry applied to a hospital-use transfer robo...
We present an omnidirectional vision system we have implemented to provide our mobile robot Rullit w...
This thesis describes our efforts to tackle the 3D localization problem for unmanned vehicles using ...
International audienceThe integration of several range cameras in a mobile platform is useful for ap...
International audienceThis paper presents a new and robust method for extracting and match- ing visu...
For mobile robots to be able to work with and for people and thus operatein our everyday environment...
A single downward-looking camera can be used as a high-precision visual odometry sensor in a wide ra...
We present a system that estimates the motion of a robot relying solely on images from onboard omnid...
Due to their wide field of view, omnidirectional cameras are becoming ubiquitous in many mobile robo...
This work presents an improved visual odometry using omnidirectional images. The main purpose is to ...
Abstract—Scene recognition problems for mobile robots have been extensively studied. This is importa...
The paper presents an application of visual odometry, through reconstruction of the path of a mobile...
Mobile robots rely on their ability of scene recognition to build a topological map of the environme...
Abstract — An omnidirectional Mecanum base allows for more flexible mobile manipulation. However, sl...
In this paper, we present a framework for 3D visual odometry applied to a hospital-use transfer robo...
We present an omnidirectional vision system we have implemented to provide our mobile robot Rullit w...
This thesis describes our efforts to tackle the 3D localization problem for unmanned vehicles using ...
International audienceThe integration of several range cameras in a mobile platform is useful for ap...