Topics
biofeedbackElection
Severe speech and motor impairments caused by several neurological disorders can limit communication skills to simple yes/no replies. Variability among patients’ physical and social conditions justifies the need of providing multiple sources of signals to access to Augmentative and Alternative Communication (AAC) systems. Our study presents the development of a new user-computer interface that can be controlled by the detection of various sources of biosignals. Wireless sensors are placed on the body and users learn to enhance the control of detected signals by visual biofeedback, on a switch based control approach. Experimental results in four patients with just few residual movements showed that different sensors can be placed in differen...
During the last years several interfaces have been developed to allow communication to those patient...
Moving a brain-computer interface (BCI) system from a laboratory demonstration to a consumer oriente...
We are investigating the use of Body Area Networks (BANs), wearable sensors and wireless communicati...
Abstract We have now sufficient evidence that using electrical biosignals in the field of Alternativ...
The quality of life of people suffering from severe motor disabilities can benefit from the use of c...
In this pilot study, a system that allows disabled persons to improve or recover their mobility and ...
© 2014 by Nova Science Publishers, Inc. All rights reserved. People living with a severe disability ...
The extent to which humans can interact with machines significantly enhanced through inclusion of sp...
Conventional input devices are not convenient for people with special physical conditions. To provid...
An overview of different approaches to brain-computer interfaces (BCIs) developed in our laboratory ...
It has been demonstrated that physical activity based interventions can improve motor functioning in...
Abstract: - In this paper, we describe implementation of a computer access device for severly motor-...
A brain-machine interface (BMI) uses signals from the brain to control electronic devices. One appl...
Abstract—Brain-computer interfaces (BCI) promise to be a very important tool for the handicapped peo...
Human maintain their body balance by sensorimotor controls mainly based on information gathered from...
During the last years several interfaces have been developed to allow communication to those patient...
Moving a brain-computer interface (BCI) system from a laboratory demonstration to a consumer oriente...
We are investigating the use of Body Area Networks (BANs), wearable sensors and wireless communicati...
Abstract We have now sufficient evidence that using electrical biosignals in the field of Alternativ...
The quality of life of people suffering from severe motor disabilities can benefit from the use of c...
In this pilot study, a system that allows disabled persons to improve or recover their mobility and ...
© 2014 by Nova Science Publishers, Inc. All rights reserved. People living with a severe disability ...
The extent to which humans can interact with machines significantly enhanced through inclusion of sp...
Conventional input devices are not convenient for people with special physical conditions. To provid...
An overview of different approaches to brain-computer interfaces (BCIs) developed in our laboratory ...
It has been demonstrated that physical activity based interventions can improve motor functioning in...
Abstract: - In this paper, we describe implementation of a computer access device for severly motor-...
A brain-machine interface (BMI) uses signals from the brain to control electronic devices. One appl...
Abstract—Brain-computer interfaces (BCI) promise to be a very important tool for the handicapped peo...
Human maintain their body balance by sensorimotor controls mainly based on information gathered from...
During the last years several interfaces have been developed to allow communication to those patient...
Moving a brain-computer interface (BCI) system from a laboratory demonstration to a consumer oriente...
We are investigating the use of Body Area Networks (BANs), wearable sensors and wireless communicati...
Add to ORKG