This paper introduces prototype experimental apparatus and the calibration and real-time signal processing required to investigate stability in standing, walking and running of humanoid robots using pressure sensing at the sole-of-the-foot contact. The system can provide very good spatial or temporal resolution and these can be traded off against each other dynamically to accommodate the instantaneous requirement, for example, sparsely sampling the whole sole during static balancing vs. densely sampling the impact region during walking or running. Dynamic variation in sampling policy during different phases of the gait is foreseen so as to optimise utilisation of the total sampling bandwidth available. Periodic signals like walking and runn...
Starting from human sense of touch, this paper reviews the state of tactile sensing in robotics. The...
As the trend for wearable bioinformatic sensors continues to increase, researchers pursue integratin...
Jockusch J, Walter J, Ritter H. A Tactile Sensor System for a Three-Fingered Robot Manipulator. In: ...
This paper introduces prototype experimental apparatus and the calibration and real-time signal proc...
This paper introduces prototype experimental apparatus and the calibration and real-time signal proc...
This paper presents a novel method for smaller-sized humanoid robots to self-calibrate their foot fo...
The mobile robot is a real interesting element in research. The stepping robots present interest for...
Abstract—In this work we tackle the problem of estimating the local compliance of tactile arrays exp...
Measurement of spatiotemporal parameters of human gait is important for designing new, intelligent a...
Even though the sense of touch is crucial for humans, most humanoid robots lack tactile sensing. Whi...
The proprioceptive sense provides a wealth of information to the human brain to be used for all form...
International audienceThis paper focuses on the experiments on the HRP-2 humanoid robot using a fram...
Research Doctorate - Doctor of Philosophy (PhD)The proficiency of humanoid robot movement, which is ...
Basically, human can sense the active body force trough the soles of their feet and can feel the pos...
Starting from human "sense of touch" this paper reviews the state of tactile sensing in robotics. Th...
Starting from human sense of touch, this paper reviews the state of tactile sensing in robotics. The...
As the trend for wearable bioinformatic sensors continues to increase, researchers pursue integratin...
Jockusch J, Walter J, Ritter H. A Tactile Sensor System for a Three-Fingered Robot Manipulator. In: ...
This paper introduces prototype experimental apparatus and the calibration and real-time signal proc...
This paper introduces prototype experimental apparatus and the calibration and real-time signal proc...
This paper presents a novel method for smaller-sized humanoid robots to self-calibrate their foot fo...
The mobile robot is a real interesting element in research. The stepping robots present interest for...
Abstract—In this work we tackle the problem of estimating the local compliance of tactile arrays exp...
Measurement of spatiotemporal parameters of human gait is important for designing new, intelligent a...
Even though the sense of touch is crucial for humans, most humanoid robots lack tactile sensing. Whi...
The proprioceptive sense provides a wealth of information to the human brain to be used for all form...
International audienceThis paper focuses on the experiments on the HRP-2 humanoid robot using a fram...
Research Doctorate - Doctor of Philosophy (PhD)The proficiency of humanoid robot movement, which is ...
Basically, human can sense the active body force trough the soles of their feet and can feel the pos...
Starting from human "sense of touch" this paper reviews the state of tactile sensing in robotics. Th...
Starting from human sense of touch, this paper reviews the state of tactile sensing in robotics. The...
As the trend for wearable bioinformatic sensors continues to increase, researchers pursue integratin...
Jockusch J, Walter J, Ritter H. A Tactile Sensor System for a Three-Fingered Robot Manipulator. In: ...