Search results for "roboti"
showing 10 items of 687 documents
Sub-optimal waypoints, UAV path planning and mosaicing application
2016
International audience; Create a complete system of video surveillance using camera mounted on a robot like UAV to maintain optimized vast area coverage and reconstruct an image by using mosaicing techniques. This paper demonstrated the efficiency of using one UAV to cover vast area using optimized positions.
in Informatique graphique, modélisation géométrique et animation
2007
International audience; no abstract
Design and Calibration of an Omni-RGB plus D Camera
2016
International audience; In this paper, we present the design of a new camera combining both predator-like and prey-like vision features. This setup provides both a spherical RGB-view and a directional depth-view of the environment. The model and calibration of the full set-up are described. A few examples will be given to demonstrate the interest and the versatility of such camera for robotics and video surveillance at the oral presentation.
Advanced 3D movement analysis algorithms for robust functional capacity assessment.
2017
SummaryObjectives: We developed a novel system for in home functional capacities assessment in frail older adults by analyzing the Timed Up and Go movements. This system aims to follow the older people evolution, potentially allowing a forward detection of motor decompensation in order to trigger the implementation of rehabilitation. However, the pre-experimentations conducted on the ground, in different environments, revealed some problems which were related to KinectTM operation. Hence, the aim of this actual study is to develop methods to resolve these problems.Methods: Using the KinectTM sensor, we analyze the Timed Up and Go test movements by measuring nine spatio-temporal parameters, …
Hybrid Model/data-Driven Fault Detection and Exclusion for a Decentralized Cooperative Multi-Robot System
2022
International audience
Estimation des Cartes du Temps de Collision (TTC) en Vision Para-catadioptrique
2013
National audience; Le temps de contact ou le temps de collision (TTC) est une information importante pour la navigation et l'évitement d'obtacles. Son estimation a largement été étudiée dans le cas des caméras perspectives. Par contre, très peu de travaux ont été effectués sur ce sujet pour les caméras catadioptriques, alors qu'elles sont très utiles, notamment, en navigation des robots mobiles. L'objectif de cet article, est de proposer un nouveau modèle d'estimation du TTC pour les caméras paracatadioptriques basé sur le flot optique, en adaptant celui développé pour les caméras perspectives. Le calcul du TTC en chaque pixel permet d'obtenir la carte des temps de collision. Nous avons val…
Etude de caméras sphériques : du traitement des images aux applications en robotique
2012
La vision omnidirectionnelle permet de percevoir l'environnement sur 360◦. C'est un atout considérable pour un robot mobile puisque grâce à cette particularité, il peut tirer parti d'une information globale de la scène à tout moment. Les premières recherches allant dans ce sens remontent en 1990 avec les travaux de Yasushi Yagi qui a proposé d'utiliser un dispositif nommé COPIS en associant une caméra perspective et un miroir conique pour obtenir une vue panoramique de la scène. En 1995, Mouaddib et Pégard présentent un procédé similaire pour localiser un robot dans son environnement. Bien que ce système possède des avantages pour la localisation, il se révèle peu adéquat pour reconstruire …
Perception for Robotics: Part II
2019
«What is around me?»knowing how to answer to this question is essential for a robot to navigate safely in its environment. In this part, we will try to find some answers by introducing some tools for helping the robot to perceive the world. Thus, we will present different sensors (lasers, radars, cameras, RGBD sensors) which allow to build a 3D map of the scene where the robot is navigating. Then, we will mainly focus on cameras since these sensors give a rich information about the scene. We will see how we can extract features from the image in order to provide a 3D perception of the world. This chapter presents the main concepts required to start computer vision applied to robotics. It is…
Deep Reinforcement Learning with Omnidirectional Images: application to UAV Navigation in Forests
2022
Deep Reinforcement Learning (DRL) is highly efficient for solving complex tasks such as drone obstacle avoidance using cameras. However, these methods are often limited by the camera perception capabilities. In this paper, we demonstrate that point-goal navigation performances can be improved by using cameras with a wider Field-Of-View (FOV). To this end, we present a DRL solution based on equirectangular images and demonstrates its relevance, especially compared to its perspective version. Several visual modalities are compared: ground truth depth, RGB, and depth directly estimated from these 360°R GB images using Deep Learning methods. Next, we propose a spherical adaptation to take into …
On Keyframe Positioning for Pose Graphs Applied to Visual SLAM
2013
International audience; In this work, a new method is introduced for localization and keyframe identification to solve a Simultaneous Localization and Mapping (SLAM) problem. The proposed approach is based on a dense spherical acquisition system that synthesizes spherical intensity and depth images at arbitrary locations. The images are related by a graph of 6 degrees-of-freedom (DOF) poses which are estimated through spherical registration. A direct image-based method is provided to estimate pose by using both depth and color information simultaneously. A new keyframe identification method is proposed to build the map of the environment by using the covariance matrix between raletive 6 DOF…