Tactile sensing represents a valuable source of information in robotics for perception of the state of objects and their properties. Modern soft tactile sensors allow perceiving orthogonal forces and, in some cases, relative motions along the surface of the object. Detecting and measuring this kind of lateral motion is fundamental to react to possibly uncontrolled slipping and sliding of the object being manipulated. Object slip detection and prediction have been extensively studied in the robotic community leading to solutions with good accuracy and suitable for closed-loop grip stabilization. However, algorithms for object perception, such as in-hand object pose estimation and tracking algorithms, often assume no relative motion between t...
A robot’s ability to grasp moving objects depends on the availability of real-time sensor data in bo...
The effort towards replicating human skills into artificial systems is growing constantly. While art...
When grasping objects, we rely on our sense of touch to adjust our grip and react against external p...
The purpose of this paper is to present the latest slipping detection and avoidance algorithms devel...
Tactile perception is a crucial sensing modality in robotics, particularly in scenarios that require...
Slipping detection and avoidance are key issues in dexterous robotic manipulation. The capability of...
Precise knowledge of the pose of objects is a fundamental requirement for an autonomous robot that h...
A common problem faced in robotic manipulation is developing techniques for accurate lo- calisation ...
The ability to perceive object slip via tactile feedback enables humans to accomplish complex manipu...
Control of robots manipulating objects using only the sense of touch is a challenge. In-hand motion ...
The ability to perceive object slip through tactile feedback allows humans to accomplish complex man...
Robotic manipulation of objects using the sole tactile feedback is a challenge. If the contact betwe...
Tactile sensing provides crucial information about the stability of a grasped object by a robotic gr...
Abstract—In this work we tackle the problem of estimating the local compliance of tactile arrays exp...
In this paper, two techniques have been presented for slippage detection. They are independent of se...
A robot’s ability to grasp moving objects depends on the availability of real-time sensor data in bo...
The effort towards replicating human skills into artificial systems is growing constantly. While art...
When grasping objects, we rely on our sense of touch to adjust our grip and react against external p...
The purpose of this paper is to present the latest slipping detection and avoidance algorithms devel...
Tactile perception is a crucial sensing modality in robotics, particularly in scenarios that require...
Slipping detection and avoidance are key issues in dexterous robotic manipulation. The capability of...
Precise knowledge of the pose of objects is a fundamental requirement for an autonomous robot that h...
A common problem faced in robotic manipulation is developing techniques for accurate lo- calisation ...
The ability to perceive object slip via tactile feedback enables humans to accomplish complex manipu...
Control of robots manipulating objects using only the sense of touch is a challenge. In-hand motion ...
The ability to perceive object slip through tactile feedback allows humans to accomplish complex man...
Robotic manipulation of objects using the sole tactile feedback is a challenge. If the contact betwe...
Tactile sensing provides crucial information about the stability of a grasped object by a robotic gr...
Abstract—In this work we tackle the problem of estimating the local compliance of tactile arrays exp...
In this paper, two techniques have been presented for slippage detection. They are independent of se...
A robot’s ability to grasp moving objects depends on the availability of real-time sensor data in bo...
The effort towards replicating human skills into artificial systems is growing constantly. While art...
When grasping objects, we rely on our sense of touch to adjust our grip and react against external p...