The underwater tactile force measurement was prone to cross-sensitivity, causing the difficulty in distinguishing tactile force signal with the underwater complex environment of water pressure influence. For this problem, an underwater tactile force sensor whose sensing core was based on Microelectromechanical Systems (MEMS) was designed with differential pressure typed structure. The hollow hemispherical flexible contacts located at the upper and lower end, and the hollow cylindrical shell in the middle part composed the structure of the capsule-shaped sensor. The upper flexible contact could sense the compound signal composed of water pressure and tactile force, at the same time, the lower flexible contact could measure the water pressure...
The static coupling of wrist force sensor is a major influencing factor to its measuring precision. ...
Soft tactile sensors based on piezoresistive materials have large-area sensing applications. However...
This paper proposes a decoupling method for a novel tactile sensor based on improved Back Propagatio...
This paper proposes a novel underwater dexterous hand structure whose fingertip is equipped with und...
Directional force sensing is an intrinsic feature of tactile sensing. As technologies of exploratory...
Deep‐sea exploration remains a challenging task as the extreme hydrostatic pressure environment, dar...
To measure three-dimensional (3D) forces efficiently and improve the sensitivity of tactile sensors,...
Decoupling research on flexible tactile sensors play a very important role in the intelligent robot ...
Wearable sensors, especially pressure sensors, have become an indispensable part of life when reflec...
Tactile information is crucial for recognizing physical interactions, manipulation of an object, and...
In Study #1, we develop a novel, data-driven method to estimate the kinematic parameters of multi-jo...
none3noIn this paper, the effects of sealing materials on the performance of an optoelectronic Force...
This paper presents a novel flexible tactile sensor structure and proposes an efficient decoupling a...
A flexible tactile sensor array with 6×6 N-type sensitive elements made of conductive rubber is pres...
The paper deals with the problem of designing tactile sensors for underwater applications. The tacti...
The static coupling of wrist force sensor is a major influencing factor to its measuring precision. ...
Soft tactile sensors based on piezoresistive materials have large-area sensing applications. However...
This paper proposes a decoupling method for a novel tactile sensor based on improved Back Propagatio...
This paper proposes a novel underwater dexterous hand structure whose fingertip is equipped with und...
Directional force sensing is an intrinsic feature of tactile sensing. As technologies of exploratory...
Deep‐sea exploration remains a challenging task as the extreme hydrostatic pressure environment, dar...
To measure three-dimensional (3D) forces efficiently and improve the sensitivity of tactile sensors,...
Decoupling research on flexible tactile sensors play a very important role in the intelligent robot ...
Wearable sensors, especially pressure sensors, have become an indispensable part of life when reflec...
Tactile information is crucial for recognizing physical interactions, manipulation of an object, and...
In Study #1, we develop a novel, data-driven method to estimate the kinematic parameters of multi-jo...
none3noIn this paper, the effects of sealing materials on the performance of an optoelectronic Force...
This paper presents a novel flexible tactile sensor structure and proposes an efficient decoupling a...
A flexible tactile sensor array with 6×6 N-type sensitive elements made of conductive rubber is pres...
The paper deals with the problem of designing tactile sensors for underwater applications. The tacti...
The static coupling of wrist force sensor is a major influencing factor to its measuring precision. ...
Soft tactile sensors based on piezoresistive materials have large-area sensing applications. However...
This paper proposes a decoupling method for a novel tactile sensor based on improved Back Propagatio...