This paper proposes a method to estimate the 6D pose of an object grasped by a robot hand using RGB cameras mounted on the palm and visuotactile sensors installed at the fingertips. It can deal with objects made from a wide range of materials thanks to combining the two types of sensors. The method allows a robot to robot to perform in-hand pose estimation while holding the object, eliminating the need for preparatory actions or particular environmental backgrounds. The mechanism at the back of the method includes deep-learning-based background subtraction and denoising auto-encoder-based sensor fusion. With the poses estimated using the proposed method, a robot controller can rectify the grasping uncertainty and adjust the robot motion to ...
A lot of research has been done, in robotics, on grasp-detection using image and depth-sensor data. ...
Abstract. Hand pose estimation is an important task in areas such as human computer interaction (HCI...
Sensing techniques are important for solving problems of uncertainty inherent to intelligent graspin...
In recent times, object detection and pose estimation have gained significant attention in the conte...
In order to safely and effectively operate in real-world unstructured environments where a priori kn...
Environments, in which robots can assist humans both in production tasks as well as in everyday task...
Existing grasping mechanisms focus on executing accurate grasps which are not always suitable for th...
The basic idea behind a wearable robotic grasp assistancesystem is to support people that suffer fro...
International audienceAfter more than three decades of research in robot manipulation problems, we o...
For a robot to perform complex manipulation tasks, such as an in-hand manipulation, knowledge about ...
Industrial robots are expected to undertake ever more advanced tasks in the modern manufacturing ind...
This paper presents a simple and universal approach to calibrate all RGB-D based vision system mount...
Three algorithms for hand position tracking are presented. These algorithms work in real time, have ...
In recent years, continuous research has led to robotic hands that are perfectly suitable for in-han...
In applications of manipulating, or dexterous robot hands, it is necessary to use sensors and suitab...
A lot of research has been done, in robotics, on grasp-detection using image and depth-sensor data. ...
Abstract. Hand pose estimation is an important task in areas such as human computer interaction (HCI...
Sensing techniques are important for solving problems of uncertainty inherent to intelligent graspin...
In recent times, object detection and pose estimation have gained significant attention in the conte...
In order to safely and effectively operate in real-world unstructured environments where a priori kn...
Environments, in which robots can assist humans both in production tasks as well as in everyday task...
Existing grasping mechanisms focus on executing accurate grasps which are not always suitable for th...
The basic idea behind a wearable robotic grasp assistancesystem is to support people that suffer fro...
International audienceAfter more than three decades of research in robot manipulation problems, we o...
For a robot to perform complex manipulation tasks, such as an in-hand manipulation, knowledge about ...
Industrial robots are expected to undertake ever more advanced tasks in the modern manufacturing ind...
This paper presents a simple and universal approach to calibrate all RGB-D based vision system mount...
Three algorithms for hand position tracking are presented. These algorithms work in real time, have ...
In recent years, continuous research has led to robotic hands that are perfectly suitable for in-han...
In applications of manipulating, or dexterous robot hands, it is necessary to use sensors and suitab...
A lot of research has been done, in robotics, on grasp-detection using image and depth-sensor data. ...
Abstract. Hand pose estimation is an important task in areas such as human computer interaction (HCI...
Sensing techniques are important for solving problems of uncertainty inherent to intelligent graspin...