Independent mobility is core to being able to perform activities of daily living by oneself. However, powered wheelchairs are not an option for a large number of people who are unable to use conventional interfaces, due to severe motor–disabilities. Non-invasive brain–computer interfaces (BCIs) offer a promising solution to this interaction problem and in this article we present a shared control architecture that couples the intelligence and desires of the user with the precision of a powered wheelchair. We show how four healthy subjects are able to master control of the wheelchair using an asynchronous motor–imagery based BCI protocol and how this results in a higher overall task performance, compared with alternative synchronous P300–base...
There have been substantial improvements in the area of rehabilitation robotics in the recent past. ...
This work presents a brain–computer interface (BCI) used to operate a robotic wheelchair. The experi...
Copyright [2010] © BCS. Published version of the paper reproduced here with permission from the pub...
Objective: To assess the feasibility and robustness of an asynchronous and non-invasive EEG-based Br...
In this paper we present further results of our asynchronous and non-invasive BMI for the continuous...
Brain-actuated wheelchairs offer paraplegics the potential to gain a degree of independence in perfo...
Proposals of Control Paradigms Applied to a Brain-Controlled Wheelchair, Ron-Angevin R., Velasco-Álv...
Abstract Background Electroencephalogram-based brain–computer interfaces (BCIs) represent novel huma...
Controlling a robotic device by using human brain signals is an interesting and challenging task. Th...
The objective of this study is to assess the feasibility of controlling an asynchronous and non-inva...
© 2015 IEEE. This paper presents an important step forward towards increasing the independence of pe...
Mind-controlled wheelchairs are an intriguing assistive mobility solution applicable in complete par...
Electric wheelchairs are some of the most important devices to assist physically handicapped persons...
This paper presents a review of the state of the art regarding wheelchairs driven by a brain-compute...
This poster presents results obtained from experiments of driving a brain-actuated simulated wheelch...
There have been substantial improvements in the area of rehabilitation robotics in the recent past. ...
This work presents a brain–computer interface (BCI) used to operate a robotic wheelchair. The experi...
Copyright [2010] © BCS. Published version of the paper reproduced here with permission from the pub...
Objective: To assess the feasibility and robustness of an asynchronous and non-invasive EEG-based Br...
In this paper we present further results of our asynchronous and non-invasive BMI for the continuous...
Brain-actuated wheelchairs offer paraplegics the potential to gain a degree of independence in perfo...
Proposals of Control Paradigms Applied to a Brain-Controlled Wheelchair, Ron-Angevin R., Velasco-Álv...
Abstract Background Electroencephalogram-based brain–computer interfaces (BCIs) represent novel huma...
Controlling a robotic device by using human brain signals is an interesting and challenging task. Th...
The objective of this study is to assess the feasibility of controlling an asynchronous and non-inva...
© 2015 IEEE. This paper presents an important step forward towards increasing the independence of pe...
Mind-controlled wheelchairs are an intriguing assistive mobility solution applicable in complete par...
Electric wheelchairs are some of the most important devices to assist physically handicapped persons...
This paper presents a review of the state of the art regarding wheelchairs driven by a brain-compute...
This poster presents results obtained from experiments of driving a brain-actuated simulated wheelch...
There have been substantial improvements in the area of rehabilitation robotics in the recent past. ...
This work presents a brain–computer interface (BCI) used to operate a robotic wheelchair. The experi...
Copyright [2010] © BCS. Published version of the paper reproduced here with permission from the pub...