Add to ORKGVision-based tactile sensors have gained extensive attention in the robotics community. The sensors are highly expected to be capable of extracting contact information i.e. haptic information during in-hand manipulation. This nature of tactile sensors makes them a perfect match for haptic feedback applications. In this paper, we propose a contact force estimation method using the vision-based tactile sensor DIGIT, and apply it to a position-force teleoperation architecture for force feedback. The force estimation is done by building a depth map for DIGIT gel surface deformation measurement and applying a regression algorithm on estimated depth data and ground truth force data to get the depth-force relationship. The experiment is performed ...
Fingertip tactile sensing is an important perception for both human and robots. It can provide abund...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
In order to stably grasp objects without using object models, tactile feedback from the fingers is...
Tactile sensing is an essential perception for robots to complete dexterous tasks. As a promising ta...
Nowadays, robotic systems use tactile sensing as a key enabling technology to implement complex task...
This paper presents the design and calibration of a new force/tactile sensor for robotic application...
Tactile sensing is an instrumental modality of robotic manipulation, as it provides information that...
In recent years, tactile sensing has become a key enabling technology to implement complex tasks by ...
The sense of touch is a key aspect in the human capability to robustly grasp and manipulate a wide v...
Tactile sensing is an instrumental modality of robotic manipulation, as it provides information that...
Camera-based tactile sensors are emerging as a promising inexpensive solution for tactile-enhanced m...
Skill transfer from humans to robots is challenging. Presently, many researchers focus on capturing ...
A soft robot hand with fingertip haptic feedback for teleoperation is proposed to perform complex ta...
Skin-like tactile sensors provide robots with rich feedback related to the force distribution applie...
Abstract — Humans can perceive not only the magnitude but also the direction of force applied on the...
Fingertip tactile sensing is an important perception for both human and robots. It can provide abund...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
In order to stably grasp objects without using object models, tactile feedback from the fingers is...
Tactile sensing is an essential perception for robots to complete dexterous tasks. As a promising ta...
Nowadays, robotic systems use tactile sensing as a key enabling technology to implement complex task...
This paper presents the design and calibration of a new force/tactile sensor for robotic application...
Tactile sensing is an instrumental modality of robotic manipulation, as it provides information that...
In recent years, tactile sensing has become a key enabling technology to implement complex tasks by ...
The sense of touch is a key aspect in the human capability to robustly grasp and manipulate a wide v...
Tactile sensing is an instrumental modality of robotic manipulation, as it provides information that...
Camera-based tactile sensors are emerging as a promising inexpensive solution for tactile-enhanced m...
Skill transfer from humans to robots is challenging. Presently, many researchers focus on capturing ...
A soft robot hand with fingertip haptic feedback for teleoperation is proposed to perform complex ta...
Skin-like tactile sensors provide robots with rich feedback related to the force distribution applie...
Abstract — Humans can perceive not only the magnitude but also the direction of force applied on the...
Fingertip tactile sensing is an important perception for both human and robots. It can provide abund...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
In order to stably grasp objects without using object models, tactile feedback from the fingers is...