Add to ORKGInternational audienceIn this article, we present our work to provide a navigation and localization system on a constrained humanoid platform, the NAO robot, without modifying the robot sensors. First we try to implement a simple and light version of classical monocular Simultaneous Localization and Mapping (SLAM) algorithms, while adapting to the CPU and camera quality, which turns out to be insufficient on the platform for the moment. From our work on keypoints tracking, we identify that some keypoints can be still accurately tracked at little cost, and use them to build a visual compass. This compass is then used to correct the robot walk, because it makes it possible to control the robot orientation accurately
During recent years, walking humanoid robots have gained popularity from wheeled vehicle robots in v...
Accurate and reliable localization is a prerequisite for autonomously performing high-level tasks wi...
The aim of this article is to provide an obstacle avoidance solution for navigating a robot from one...
International audienceIn this article, we present our work to provide a navigation and localization ...
Typical monocular localization schemes involve a search for matches between reprojected 3D world poi...
International audienceIn order for humanoid robots to evolve autonomously in a complex environment, ...
In this article will be presented the problem of real-time localization for humanoid robots. For thi...
Humanoid robots introduce instabilities during biped march that complicate the process of estimating...
International audienceIn this paper, we propose a real-time vision-based localization approach for h...
Autonomous navigation is among the most important areas within the robotic community and has gained ...
In this paper, we propose a real-time visionbased localization approach for humanoid robots using a ...
Abstract In this paper, we propose a real-time vision-based localization approach for humanoid robot...
Abstract — Reliable localization on a humanoid robot is a sine qua non condition to succeed in reali...
Cette thèse traite du problème de la localisation et de la navigation de robots humanoïdes à bas coû...
AbstractThis project presents a new approach of humanoid-operated 4-wheeled mobile platform. The rob...
During recent years, walking humanoid robots have gained popularity from wheeled vehicle robots in v...
Accurate and reliable localization is a prerequisite for autonomously performing high-level tasks wi...
The aim of this article is to provide an obstacle avoidance solution for navigating a robot from one...
International audienceIn this article, we present our work to provide a navigation and localization ...
Typical monocular localization schemes involve a search for matches between reprojected 3D world poi...
International audienceIn order for humanoid robots to evolve autonomously in a complex environment, ...
In this article will be presented the problem of real-time localization for humanoid robots. For thi...
Humanoid robots introduce instabilities during biped march that complicate the process of estimating...
International audienceIn this paper, we propose a real-time vision-based localization approach for h...
Autonomous navigation is among the most important areas within the robotic community and has gained ...
In this paper, we propose a real-time visionbased localization approach for humanoid robots using a ...
Abstract In this paper, we propose a real-time vision-based localization approach for humanoid robot...
Abstract — Reliable localization on a humanoid robot is a sine qua non condition to succeed in reali...
Cette thèse traite du problème de la localisation et de la navigation de robots humanoïdes à bas coû...
AbstractThis project presents a new approach of humanoid-operated 4-wheeled mobile platform. The rob...
During recent years, walking humanoid robots have gained popularity from wheeled vehicle robots in v...
Accurate and reliable localization is a prerequisite for autonomously performing high-level tasks wi...
The aim of this article is to provide an obstacle avoidance solution for navigating a robot from one...