Add to ORKGAbstract: The aim of this study was to develop a Brain Computer Interface (BCI) application to control domotic devices usually present at home. Previous studies have shown that people with severe disabilities, both physical and cognitive ones, do not achieve high accuracy results using motor imagery-based BCIs. To overcome this limitation, we propose the implementation of a BCI application using P300 evoked potentials, because neither extensive training nor extremely high concentration level are required for this kind of BCIs. The implemented BCI application allows to control several devices as TV, DVD player, mini Hi-Fi system, multimedia hard drive, telephone, heater, fan and lights. Our aim is that potential users, i.e. people with sever...
Brain computer interface (BCI) applications were initially designed to provide final users with spec...
Current brain-computer interface (BCIs) software is often tailored to the needs of scientists and te...
Current brain-computer interface (BCIs) software is often tailored to the needs of scientists and te...
The aim of this study was to develop a Brain Computer Interface (BCI) application to control domotic...
The aim of this study was to develop a Brain Computer Interface (BCI) application to control domotic...
Autonomy of persons with severe motor disabilities can be supported by the use of assistive technolo...
Autonomy of persons with severe motor disabilities can be supported by the use of assistive technolo...
Autonomy of persons with severe motor disabilities can be supported by the use of assistive technolo...
Autonomy of persons with severe motor disabilities can be supported by the use of assistive technolo...
Brain-computer interfaces (BCIs) can be used as a communication and control system for people with s...
The quality of life of people suffering from severe motor disabilities can benefit from the use of c...
Noninvasive brain-computer interfaces (BCIs) use scalp-recorded electrical activity from the brain t...
Noninvasive brain-computer interfaces (BCIs) use scalp-recorded electrical activity from the brain t...
Our objective was to develop and validate a new brain-computer interface (BCI) system suitable for l...
Abstract Objective The objective of this study was...
Brain computer interface (BCI) applications were initially designed to provide final users with spec...
Current brain-computer interface (BCIs) software is often tailored to the needs of scientists and te...
Current brain-computer interface (BCIs) software is often tailored to the needs of scientists and te...
The aim of this study was to develop a Brain Computer Interface (BCI) application to control domotic...
The aim of this study was to develop a Brain Computer Interface (BCI) application to control domotic...
Autonomy of persons with severe motor disabilities can be supported by the use of assistive technolo...
Autonomy of persons with severe motor disabilities can be supported by the use of assistive technolo...
Autonomy of persons with severe motor disabilities can be supported by the use of assistive technolo...
Autonomy of persons with severe motor disabilities can be supported by the use of assistive technolo...
Brain-computer interfaces (BCIs) can be used as a communication and control system for people with s...
The quality of life of people suffering from severe motor disabilities can benefit from the use of c...
Noninvasive brain-computer interfaces (BCIs) use scalp-recorded electrical activity from the brain t...
Noninvasive brain-computer interfaces (BCIs) use scalp-recorded electrical activity from the brain t...
Our objective was to develop and validate a new brain-computer interface (BCI) system suitable for l...
Abstract Objective The objective of this study was...
Brain computer interface (BCI) applications were initially designed to provide final users with spec...
Current brain-computer interface (BCIs) software is often tailored to the needs of scientists and te...
Current brain-computer interface (BCIs) software is often tailored to the needs of scientists and te...