Guide to Brain-Computer Music Interfacing [electronic resource] /
edited by Eduardo Reck Miranda, Julien Castet.
- XVIII, 313 p. 103 illus. online resource.
Brain-Computer Music Interfacing -- Electroencephalogram-Based Brain-Computer Interface -- Contemporary Approaches to BCMI Using P300 Event Related Potentials -- Prospective View on Sound Synthesis BCI Control in Light of Two Paradigms of Cognitive Neuroscience -- Machine Learning to Identify Neural Correlates of Music and Emotions -- Emotional Responses During Music Listening -- A Tutorial on EEG Signal Processing Techniques for Mental State Recognition in Brain-Computer Interfaces -- An Introduction to EEG Source Analysis with an Illustration of a Study on Error-Related Potentials -- Feature Extraction and Classification of EEG Signals -- On Mapping EEG Information into Music -- Retroaction Between Music and Physiology -- Creative Music Neurotechnology with Symphony of Minds Listening -- Passive Brain-Computer Interfaces.
The emergence of more affordable EEG equipment is fostering a renaissance of approaches to making music with brain signals. This Guide to Brain-Computer Music Interfacing (BCMI) presents a world-class collection of BCMI tools with which adventurous explorers may pursue practical and propositional models in music neurotechnology. The text focuses on how these tools enable the extraction of meaningful control information from brain signals, and discusses how to design effective generative music techniques that respond to this information. Topics and features: Reviews important techniques for hands-free interaction with computers, including event-related potentials with P300 waves Explores questions of semiotic brain-computer interfacing (BCI), and the use of machine learning to dig into relationships among music and emotions Offers tutorials on signal extraction, brain electric fields, passive BCI, and applications for genetic algorithms, along with historical surveys Describes how BCMI research advocates the importance of better scientific understanding of the brain for its potential impact on musical creativity Presents broad coverage of this emerging, interdisciplinary area, from hard-core EEG analysis to practical musical applications This unique and pioneering text/reference will appeal to researchers, graduates and advanced undergraduates from a range of different domains within computer science and beyond, such as music technology and biomedical engineering. Prof. Eduardo R. Miranda is a composer and Professor in Computer Music at Plymouth University, UK, where he is Director of the Interdisciplinary Centre for Computer Music Research (ICCMR). Dr. Julien Castet is a Research Project Manager at Immersion SAS, and a Computer and Art Freelancer based in Bordeaux, France.
9781447165842
10.1007/978-1-4471-6584-2 doi
Computer science.
Music.
Neurosciences.
User interfaces (Computer systems).
Biomedical engineering.
Computer Science.
User Interfaces and Human Computer Interaction.
Music.
Biomedical Engineering.
Neurosciences.
QA76.9.U83 QA76.9.H85
005.437 4.019
Brain-Computer Music Interfacing -- Electroencephalogram-Based Brain-Computer Interface -- Contemporary Approaches to BCMI Using P300 Event Related Potentials -- Prospective View on Sound Synthesis BCI Control in Light of Two Paradigms of Cognitive Neuroscience -- Machine Learning to Identify Neural Correlates of Music and Emotions -- Emotional Responses During Music Listening -- A Tutorial on EEG Signal Processing Techniques for Mental State Recognition in Brain-Computer Interfaces -- An Introduction to EEG Source Analysis with an Illustration of a Study on Error-Related Potentials -- Feature Extraction and Classification of EEG Signals -- On Mapping EEG Information into Music -- Retroaction Between Music and Physiology -- Creative Music Neurotechnology with Symphony of Minds Listening -- Passive Brain-Computer Interfaces.
The emergence of more affordable EEG equipment is fostering a renaissance of approaches to making music with brain signals. This Guide to Brain-Computer Music Interfacing (BCMI) presents a world-class collection of BCMI tools with which adventurous explorers may pursue practical and propositional models in music neurotechnology. The text focuses on how these tools enable the extraction of meaningful control information from brain signals, and discusses how to design effective generative music techniques that respond to this information. Topics and features: Reviews important techniques for hands-free interaction with computers, including event-related potentials with P300 waves Explores questions of semiotic brain-computer interfacing (BCI), and the use of machine learning to dig into relationships among music and emotions Offers tutorials on signal extraction, brain electric fields, passive BCI, and applications for genetic algorithms, along with historical surveys Describes how BCMI research advocates the importance of better scientific understanding of the brain for its potential impact on musical creativity Presents broad coverage of this emerging, interdisciplinary area, from hard-core EEG analysis to practical musical applications This unique and pioneering text/reference will appeal to researchers, graduates and advanced undergraduates from a range of different domains within computer science and beyond, such as music technology and biomedical engineering. Prof. Eduardo R. Miranda is a composer and Professor in Computer Music at Plymouth University, UK, where he is Director of the Interdisciplinary Centre for Computer Music Research (ICCMR). Dr. Julien Castet is a Research Project Manager at Immersion SAS, and a Computer and Art Freelancer based in Bordeaux, France.
9781447165842
10.1007/978-1-4471-6584-2 doi
Computer science.
Music.
Neurosciences.
User interfaces (Computer systems).
Biomedical engineering.
Computer Science.
User Interfaces and Human Computer Interaction.
Music.
Biomedical Engineering.
Neurosciences.
QA76.9.U83 QA76.9.H85
005.437 4.019