Add to ORKGThe paper describes the concept, implementation, and evaluation of a new on-body capacitive sensing approach to derive activity related information. Using conductive textile based electrodes that are easy to integrate in garments, we measure changes in capacitance inside the human body. Such changes are related to motions and shape changes of muscle, skin, and other tissue, which can in turn be related to a broad range of activities and physiological parameters. We describe the physical principle, the analog hardware needed to acquire and pre-process the signal, and example signals from different body locations and actions. We perform quantitative evaluations of the recognition accuracy, focused on the specific example of collar-integrated ...
Abstract. Activity recognition with a wearable accelerometer is a com-mon investigated research topi...
In this research project, we present an alternative approach to recognize various walking-based acti...
Gait phase detection is essential to the control of lower-limb exoskeletons. In this paper, we prese...
The paper describes the concept, implementation, and evaluation of a new on-body capacitive sensing ...
Abstract. The paper describes the concept, implementation, and eval-uation of a new on-body capaciti...
In this work, a respiratory sensor is studied, measuring the capacitance constructed by attached ele...
Locomotion mode recognition is one of the most important aspects for the control of motion rehabilit...
For more than two decades, capacitive sensing has played a prominent role in human-computer interac...
A conventional clinical biopotential measurement system requires the use of wet electrodes that are ...
During the last decade, the functionalities of electronic devices within a living environment consta...
The primary application of this work is to design and develop a reliable capacitance sensing system ...
In recent years, many sensors made of hard materials have been designed to detect human body movemen...
In this paper, we present an approach to sense human body capacitance and apply it to recognize lowe...
Abstract. Activity recognition with a wearable accelerometer is a com-mon investigated research topi...
In this research project, we present an alternative approach to recognize various walking-based acti...
Gait phase detection is essential to the control of lower-limb exoskeletons. In this paper, we prese...
The paper describes the concept, implementation, and evaluation of a new on-body capacitive sensing ...
Abstract. The paper describes the concept, implementation, and eval-uation of a new on-body capaciti...
In this work, a respiratory sensor is studied, measuring the capacitance constructed by attached ele...
Locomotion mode recognition is one of the most important aspects for the control of motion rehabilit...
For more than two decades, capacitive sensing has played a prominent role in human-computer interac...
A conventional clinical biopotential measurement system requires the use of wet electrodes that are ...
During the last decade, the functionalities of electronic devices within a living environment consta...
The primary application of this work is to design and develop a reliable capacitance sensing system ...
In recent years, many sensors made of hard materials have been designed to detect human body movemen...
In this paper, we present an approach to sense human body capacitance and apply it to recognize lowe...
Abstract. Activity recognition with a wearable accelerometer is a com-mon investigated research topi...
In this research project, we present an alternative approach to recognize various walking-based acti...
Gait phase detection is essential to the control of lower-limb exoskeletons. In this paper, we prese...