A brain-actuated wheelchair: asynchronous and non-invasive Brain-computer interfaces for continuous control of robots.
Ferran Galán,Ferran Galán,Marnix Nuttin,Eileen Lew,Pierre W. Ferrez,G. Vanacker,Johan Philips,J. del R. Millan,J. del R. Millan +8 more
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TLDR
The results show that subjects can rapidly master the authors' asynchronous EEG-based BCI to control a wheelchair and can autonomously operate the BCI over long periods of time without the need for adaptive algorithms externally tuned by a human operator to minimize the impact of EEG non-stationarities.About:
This article is published in Clinical Neurophysiology.The article was published on 2008-09-01 and is currently open access. It has received 644 citations till now. The article focuses on the topics: Wheelchair.read more
Figures
Fig. 6. Top view of the random paths in Task 2. Trial 1 placed in upper row, first column. Trial 10 placed in second row, last column. 
Fig. 7. Top view of the world and the path stretches. Stretches F1 and F2 were labelled as Forward, R1 and R2 labelled as Right, L labelled as Left, and SD1 and SD2 labelled as strategy dependent. The subjects can go through SD1 by means of two strategies, either executing Forward or executing Right followed by Left. Through SD2, subjects can execute either Forward or Left followed by Right. 
Table 1 LDA train-test classification accuracies on the configuration 
Fig. 1. (Left) Monitor display in a first person view from the Start. The white cursor at the center is the fixation point. The rectangle at the bottom is the simulated wheelchair. (Right) Top view of the simulated world and the pre-specified path. 
Fig. 8. Percentage of reached final goals over sessions. The time elapsed between sessions was: 1 day between sessions 1 and 2, 2 months between sessions 2 and 3, 1 h between sessions 3 and 4, and 1 day between sessions 4 and 5. 
Fig. 2. Electrode discrimination index values De (see Section 2.3.2) for the selected frequencies for each subject, and the associated scalp distribution of the averaged logarithmic transform of the power spectral density, Log(PSDe), for each class. For subject 1, De is higher at left temporal, central and right occipital areas. For subject 2, at 10 Hz it is higher at right centro-parietal areas, and at 12 and 14 Hz it is higher at bilateral parietal areas. These areas correspond with those where the differences between the averaged Log(PSDe) patterns associated to each mental task is the biggest.
Citations
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Journal ArticleDOI
Multiple classifier system for EEG signal classification with application to brain–computer interfaces
TL;DR: The main purpose of this paper is to apply several approaches to classify motor imageries originating from the brain in a more robust manner and suggest that an ensemble system can be employed to boost EEG classification accuracy.
Journal ArticleDOI
Challenges in clinical applications of brain computer interfaces in individuals with spinal cord injury
TL;DR: Although BCIs seem to be a promising assistive technology for individuals with high spinal cord injury systematic investigations are highly needed to obtain realistic estimates of the percentage of users that for any reason may not be able to operate a BCI in a clinical setting.
Journal ArticleDOI
Brain-machine interfaces: an overview
TL;DR: Although noninvasive BMIs are safe and easy to implement, their information bandwidth is limited, and invasive BMIs hold promise to improve the bandwidth by utilizing multichannel recordings from ensembles of brain neurons.
Journal ArticleDOI
Neuroengineering tools/applications for bidirectional interfaces, brain-computer interfaces, and neuroprosthetic implants - a review of recent progress.
TL;DR: This review is to provide a holistic amalgamated overview of the most recent human in vivo techniques for implementing brain–computer interfaces (BCIs), bidirectional interfaces, and neuroprosthetics.
Proceedings ArticleDOI
Playing Tetris with non-invasive BCI
TL;DR: The results reported in this study with able-bodied participants show that the BCI-Tetris can be effectively controlled.
References
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Journal ArticleDOI
Learning to Control a Brain–Machine Interface for Reaching and Grasping by Primates
Jose M. Carmena,Mikhail A. Lebedev,Roy E. Crist,Joseph E. O'Doherty,David M. Santucci,Dragan F. Dimitrov,Parag G. Patil,Craig S. Henriquez,Miguel A. L. Nicolelis +8 more
TL;DR: It is demonstrated that primates can learn to reach and grasp virtual objects by controlling a robot arm through a closed-loop brain–machine interface (BMIc) that uses multiple mathematical models to extract several motor parameters from the electrical activity of frontoparietal neuronal ensembles.
Journal ArticleDOI
Control of a two-dimensional movement signal by a noninvasive brain-computer interface in humans
TL;DR: It is shown that a noninvasive BCI that uses scalp-recorded electroencephalographic activity and an adaptive algorithm can provide humans, including people with spinal cord injuries, with multidimensional point-to-point movement control that falls within the range of that reported with invasive methods in monkeys.
Journal ArticleDOI
A spelling device for the paralysed
Niels Birbaumer,N. Ghanayim,Thilo Hinterberger,Iver H. Iversen,Boris Kotchoubey,Andrea Kübler,J. Perelmouter,Edward Taub,Herta Flor +8 more
TL;DR: A new means of communication for the completely paralysed that uses slow cortical potentials of the electro-encephalogram to drive an electronic spelling device is developed.