This paper presents a study on electroencephalogram (EEG)-based control of an electric wheelchair. The objective is to control the direction of an electric wheelchair using only EEG signals. In other words, this is an attempt to use brain signals to control mechanical devices such as wheelchairs. To achieve this goal, we have developed a recursive training algorithm to generate recognition patterns from EEG signals. Our experimental results demonstrate the utility of the proposed recursive training algorithm and the viability of accomplishing direction control of an electric wheelchair by only EEG signals
Recent research studies showed that brain-controlled systems/devices are breakthrough technology. Su...
This study aimed to develop a brain-computer interface that can control an electric wheelchair using...
Controlling a robotic device by using human brain signals is an interesting and challenging task. Th...
Electric wheelchairs are some of the most important devices to assist physically handicapped persons...
This paper describes the development of a brainwave controlled wheelchair. The main objective of thi...
This paper presents a switch strategy to control the movement of a Brain-Controlled Wheelchair. Afte...
The objective of this study is to assess the feasibility of controlling an asynchronous and non-inva...
This paper predominantly explains the use of a simplistic uni-polar device to obtain EEG for the dev...
In this paper we present further results of our asynchronous and non-invasive BMI for the continuous...
Most existing brain-computer Interfaces (BCIs) are designed to control a single assistive device, su...
Brain-computer interface (BCI) connects the brain of human with computer, where it allows people wit...
Electrical wheelchair provides mobility to the people who lost their moving capability. To allow mos...
Controlling a robotic device by using human brain signals is an interesting and challenging task. Th...
Recent research studies showed that brain-controlled systems/devices are breakthrough technology. Su...
This research proposes the use of EEG devices and servomotors for PWD assistance especially for that...
Recent research studies showed that brain-controlled systems/devices are breakthrough technology. Su...
This study aimed to develop a brain-computer interface that can control an electric wheelchair using...
Controlling a robotic device by using human brain signals is an interesting and challenging task. Th...
Electric wheelchairs are some of the most important devices to assist physically handicapped persons...
This paper describes the development of a brainwave controlled wheelchair. The main objective of thi...
This paper presents a switch strategy to control the movement of a Brain-Controlled Wheelchair. Afte...
The objective of this study is to assess the feasibility of controlling an asynchronous and non-inva...
This paper predominantly explains the use of a simplistic uni-polar device to obtain EEG for the dev...
In this paper we present further results of our asynchronous and non-invasive BMI for the continuous...
Most existing brain-computer Interfaces (BCIs) are designed to control a single assistive device, su...
Brain-computer interface (BCI) connects the brain of human with computer, where it allows people wit...
Electrical wheelchair provides mobility to the people who lost their moving capability. To allow mos...
Controlling a robotic device by using human brain signals is an interesting and challenging task. Th...
Recent research studies showed that brain-controlled systems/devices are breakthrough technology. Su...
This research proposes the use of EEG devices and servomotors for PWD assistance especially for that...
Recent research studies showed that brain-controlled systems/devices are breakthrough technology. Su...
This study aimed to develop a brain-computer interface that can control an electric wheelchair using...
Controlling a robotic device by using human brain signals is an interesting and challenging task. Th...