Thierry Castermans
University of Mons
22 Papers
268 Citations
Thierry Castermans is an academic researcher from University of Mons. The author has contributed to research in topics: Gait (human) & Central pattern generator. The author has an hindex of 12, co-authored 22 publications. Previous affiliations of Thierry Castermans include Faculté polytechnique de Mons.
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Papers
Performance of the Emotiv Epoc headset for P300-based applications
Matthieu Duvinage,Thierry Castermans,Mathieu Petieau,Thomas Hoellinger,Guy Cheron,Thierry Dutoit +5 more
TL;DR: Although this low-cost headset is able to record EEG data in a satisfying manner, it should only be chosen for non critical applications such as games, communication systems, etc, and not for rehabilitation or prosthesis control, because of a lack of reliability.
About the cortical origin of the low-delta and high-gamma rhythms observed in EEG signals during treadmill walking
TL;DR: The analysis of EEG signals recorded on seven healthy subjects walking on a treadmill at three different speeds reveals that EEG and accelerometer signals exhibit similar time-frequency properties, suggesting that previous conclusions claiming the activation of high-gamma rhythms during walking may have been drawn on the basis of insufficiently cleaned EEG signals.
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A P300-based Quantitative Comparison between the Emotiv Epoc Headset and a Medical EEG Device
Matthieu Duvinage,Thierry Castermans,Thierry Dutoit,Mathieu Petieau,Thomas Hoellinger,Caty De Saedeleer,Karthik Seetharaman,Guy Cheron +7 more
- 01 Jan 2012
TL;DR: Results show that the Emotiv headset, although able to record EEG data and not only artifacts, is sometimes significantly worse than a medical system, and suggest that the design of a specific low-cost EEG recording systems for rehabilitation purposes at a low price is still required.
Towards effective non-invasive brain-computer interfaces dedicated to gait rehabilitation systems.
TL;DR: The goal of this review is to describe and summarize the progress made in the development of non-invasive brain-computer interfaces dedicated to motor rehabilitation systems, with a discussion about the different strategies developed in the field.
Optimizing the Performances of a P300-Based Brain–Computer Interface in Ambulatory Conditions
Thierry Castermans,Matthieu Duvinage,Mathieu Petieau,Thomas Hoellinger,Caty De Saedeleer,Karthik Seetharaman,Ana Bengoetxea,Guy Cheron,Thierry Dutoit +8 more
TL;DR: It is demonstrated that a P300-based BCI is definitely feasible in ambulatory condition and a recommended approach is given for the development of a real-time application.
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