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Towards practical brain-computer interfaces bridging the gap from research to real-world applications Brendan Z. Allison [and others], editors

Springer Nature - Springer Physics and Astronomy (R0) eBooks 2013 English International Available online

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Format:
Book
Contributor:
Allison, Brendan Z.
Series:
Biological and medical physics, biomedical engineering
Biological and medical physics, Biomedical engineering 1618-7210
Language:
English
Subjects (All):
Brain-computer interfaces.
Biomedical engineering.
Self-help devices for people with disabilities.
User-Computer Interface.
Brain-Computer Interfaces.
Brain--physiology.
Brain Mapping.
Self-Help Devices.
Biomedical Engineering.
Biomedical Technology.
biomedical engineering.
Medical Subjects:
User-Computer Interface.
Brain-Computer Interfaces.
Brain--physiology.
Brain Mapping.
Self-Help Devices.
Biomedical Engineering.
Biomedical Technology.
Physical Description:
1 online resource
Place of Publication:
Berlin New York Springer ©2012
Summary:
Brain-computer interfaces (BCIs) are devices that enable people to communicate via thought alone. Brain signals can be directly translated into messages or commands. Until recently, these devices were used primarily to help people who could not move. However, BCIs are now becoming practical tools for a wide variety of people, in many different situations. What will BCIs in the future be like? Who will use them, and why? This book, written by many of the top BCI researchers and developers, reviews the latest progress in the different components of BCIs. Chapters also discuss practical issues in an emerging BCI enabled community. The book is intended both for professionals and for interested laypeople who are not experts in BCI research
Contents:
Part 1. Sensors, Signals and Signal Processing Hybrid Optical-Electrical Brain Computer Interfaces, Practices and Possibilities Tomas E. Ward A Critical Review on the Usage of Ensembles for BCI Aureli Soria-Frisch Improving Brain-Computer Interfaces Using Independent Component Analysis Yijun Wang and Tzyy-Ping Jung Towards Electrocorticographic Electrodes for Chronic Use in BCI Applications Christian Henle, Martin Schuettler, Jörn Rickert and Thomas Stieglitz Recent and Upcoming BCI Progress: Overview, Analysis, and Recommendations Brendan Z. Allison, Stephen Dunne, Robert Leeb, José del R. Millán and Anton Nijholt
Part 2. Devices, Applications and Users Introduction to Devices, Applications and Users: Towards Practical BCIs Based on Shared Control Techniques Robert Leeb and José d. R. Millán Brain Computer Interface for Hand Motor Function Restoration and Rehabilitation Donatella Mattia, Floriana Pichiorri, Marco Molinari and Rüdiger Rupp User Centred Design in BCI Development Elisa Mira Holz, Tobias Kaufmann, Lorenzo Desideri, Massimiliano Malavasi and Evert-Jan Hoogerwerf, et al. Designing Future BCIs: Beyond the Bit Rate Melissa Quek, Johannes Höhne, Roderick Murray-Smith and Michael Tangermann Combining BCI with Virtual Reality: Towards New Applications and Improved BCI Fabien Lotte, Josef Faller, Christoph Guger, Yann Renard and Gert Pfurtscheller, et al
Part 3. Application Interfaces and Environments Brain-Computer Interfaces and User Experience Evaluation Bram van de Laar, Hayrettin Gürkök, Danny Plass-Oude Bos, Femke Nijboer and Anton Nijholt Framework for BCIs in Multimodal Interaction and Multitask Environments Jan B.F. van Erp, Anne-Marie Brouwer, Marieke E. Thurlings and Peter J. Werkhoven EEG-Enabled Human-Computer Interaction and Applications Olga Sourina, Qiang Wang, Yisi Liu and Minh Khoa Nguyen Phase Detection of Visual Evoked Potentials Applied to Brain Computer Interfacing Gary Garcia-Molina and Danhua Zhu Can Dry EEG Sensors Improve the Usability of SMR, P300 and SSVEP Based BCIs? Günter Edlinger and Christoph Guger
Part 4. A Practical BCI Infrastructure: Emerging Issues BCI Software Platforms Clemens Brunner, Giuseppe Andreoni, Lugi Bianchi, Benjamin Blankertz and Christian Breitwieser, et al. Is It Significant? Guidelines for Reporting BCI Performance Martin Billinger, Ian Daly, Vera Kaiser, Jing Jin and Brendan Z. Allison, et al. Principles of Hybrid Brain-Computer Interfaces Gernot R. Müller-Putz, Robert Leeb, José d. R. Millán, Petar Horki and Alex Kreilinger, et al. Non-visual and Multisensory BCI Systems: Present and Future Isabella C. Wagner, Ian Daly and Aleksander Väljamäe Characterizing Control of Brain-Computer Interfaces with BioGauges Adriane B. Randolph, Melody M. Moore Jackson and Steven G. Mason
Notes:
Includes bibliographical references and index
Other Format:
Printed edition:
ISBN:
9783642297465
3642297463
3642297455
9783642297458
OCLC:
809055921
Access Restriction:
Restricted for use by site license

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