Add to ORKGWe achieved contact-rich flexible object manipulation, which was difficult to control with vision alone. In the unzipping task we chose as a validation task, the gripper grasps the puller, which hides the bag state such as the direction and amount of deformation behind it, making it difficult to obtain information to perform the task by vision alone. Additionally, the flexible fabric bag state constantly changes during operation, so the robot needs to dynamically respond to the change. However, the appropriate robot behavior for all bag states is difficult to prepare in advance. To solve this problem, we developed a model that can perform contact-rich flexible object manipulation by real-time prediction of vision with tactility. We introduc...
Workshop on Robotic Manipulation of Deformable Objects (ROMADO) in IEEE/RSJ International Conference...
Traditional robots can only move according to a pre-planned trajectory which limits the range of app...
Robust and generalizable robots that can autonomously manipulate objects in semi-structured environm...
We still struggle to deliver autonomous robots that perform manipulation tasks as simple for a human...
Deformable objects such as ropes, wires, and clothing are omnipresent in society and industry but ar...
The soft fingers and strategic grasping skills enable the human hands to grasp objects in a stable m...
For humans, the process of grasping an object relies heavily on rich tactile feedback. Most recent r...
International audience— This paper presents the FLEXBOT project, a joint LIRMM-QUT effort to develop...
We present a novel approach to perform object-independent grasp synthesis from depth images via deep...
Many tasks involve the fine manipulation of objects despite limited visual feedback. In such scenari...
Cloth in the real world is often crumpled, self-occluded, or folded in on itself such that key regio...
Learning complex behaviors through reinforcement learning is particularly challenging when reward is...
To execute manipulation tasks in unstructured environments, robots use computer vision and a priori ...
Advances in computer vision and robotic manipulation are enabling assisted dressing.Peer ReviewedPos...
Perceiving and manipulating deformable objects with the sense of touch are essential skills in every...
Workshop on Robotic Manipulation of Deformable Objects (ROMADO) in IEEE/RSJ International Conference...
Traditional robots can only move according to a pre-planned trajectory which limits the range of app...
Robust and generalizable robots that can autonomously manipulate objects in semi-structured environm...
We still struggle to deliver autonomous robots that perform manipulation tasks as simple for a human...
Deformable objects such as ropes, wires, and clothing are omnipresent in society and industry but ar...
The soft fingers and strategic grasping skills enable the human hands to grasp objects in a stable m...
For humans, the process of grasping an object relies heavily on rich tactile feedback. Most recent r...
International audience— This paper presents the FLEXBOT project, a joint LIRMM-QUT effort to develop...
We present a novel approach to perform object-independent grasp synthesis from depth images via deep...
Many tasks involve the fine manipulation of objects despite limited visual feedback. In such scenari...
Cloth in the real world is often crumpled, self-occluded, or folded in on itself such that key regio...
Learning complex behaviors through reinforcement learning is particularly challenging when reward is...
To execute manipulation tasks in unstructured environments, robots use computer vision and a priori ...
Advances in computer vision and robotic manipulation are enabling assisted dressing.Peer ReviewedPos...
Perceiving and manipulating deformable objects with the sense of touch are essential skills in every...
Workshop on Robotic Manipulation of Deformable Objects (ROMADO) in IEEE/RSJ International Conference...
Traditional robots can only move according to a pre-planned trajectory which limits the range of app...
Robust and generalizable robots that can autonomously manipulate objects in semi-structured environm...