Add to ORKGInternational audience—The aim of our work is to estimate the camera motion from RGB-D images in a dynamic scene. Most of the existing methods have a poor localization performance in such environments, which makes them inapplicable in real world conditions. In this paper, we propose a new dense visual odometry method that uses RANSAC to cope with dynamic scenes. We show the efficiency and robustness of the proposed method on a large set of experiments in challenging situations and from publicly available benchmark dataset. Additionally, we compare our approach to another state-of-art method based on M-estimator that is used to deal with dynamic scenes. Our method gives similar results on benchmark sequences and better results on our own dat...
Visual odometry, the process of tracking the trajectory of a moving camera based on its captured vid...
Estimation of camera motion from RGB-D images has been an active research topic in recent years. Sev...
This paper describes extensions to the Kintinuous [1] algorithm for spatially extended KinectFusion...
Visual Odometry (VO) is the process of finding a camera's relative pose in different time intervals ...
In the paper, we propose a robust real-time visual odometry in dynamic environments via rigid-motion...
Estimating a camera pose in dynamic environments is one of the challenging problems in Visual Odomet...
Abstract – In this paper we present a dense visual odometry system for RGB-D cameras performing both...
Cette thèse se situe dans le domaine de l'auto-localisation et de la cartographie 3D des caméras RGB...
This paper describes extensions to the Kintinuous [1] algorithm for spatially extended KinectFusion...
Abstract — In this paper we present a dense visual odometry system for RGB-D cameras performing both...
International audienceVisual mapping is a required capability for practical autonomous mobile robots...
Abstract — In this paper we present a dense visual odometry system for RGB-D cameras performing both...
International audienceVisual mapping is a required capability for practical autonomous mobile robots...
International audienceVisual mapping is a required capability for practical autonomous mobile robots...
Visual odometry, the process of tracking the trajectory of a moving camera based on its captured vid...
Visual odometry, the process of tracking the trajectory of a moving camera based on its captured vid...
Estimation of camera motion from RGB-D images has been an active research topic in recent years. Sev...
This paper describes extensions to the Kintinuous [1] algorithm for spatially extended KinectFusion...
Visual Odometry (VO) is the process of finding a camera's relative pose in different time intervals ...
In the paper, we propose a robust real-time visual odometry in dynamic environments via rigid-motion...
Estimating a camera pose in dynamic environments is one of the challenging problems in Visual Odomet...
Abstract – In this paper we present a dense visual odometry system for RGB-D cameras performing both...
Cette thèse se situe dans le domaine de l'auto-localisation et de la cartographie 3D des caméras RGB...
This paper describes extensions to the Kintinuous [1] algorithm for spatially extended KinectFusion...
Abstract — In this paper we present a dense visual odometry system for RGB-D cameras performing both...
International audienceVisual mapping is a required capability for practical autonomous mobile robots...
Abstract — In this paper we present a dense visual odometry system for RGB-D cameras performing both...
International audienceVisual mapping is a required capability for practical autonomous mobile robots...
International audienceVisual mapping is a required capability for practical autonomous mobile robots...
Visual odometry, the process of tracking the trajectory of a moving camera based on its captured vid...
Visual odometry, the process of tracking the trajectory of a moving camera based on its captured vid...
Estimation of camera motion from RGB-D images has been an active research topic in recent years. Sev...
This paper describes extensions to the Kintinuous [1] algorithm for spatially extended KinectFusion...