Brain-computer interfaces / volume editor, Nick F. Ramsey, Jose del R. Millan.

Format:

Book

Contributor:

Ramsey, Nick, editor.

Millán, José del R., 1962- editor.

Series:

Handbook of clinical neurology ; v. 168.

Handbook of clinical neurology ; v. 168

Language:

English

Subjects (All):

Brain-computer interfaces.

Genre:

Electronic books.

Physical Description:

1 online resource.

Place of Publication:

Amsterdam : Elsevier, 2020.

System Details:

text file

Contents:

Intro

Brain-Computer Interfaces

Copyright

Handbook of Clinical Neurology 3rd Series

Foreword

Preface

Contributors

Contents

Chapter 1: Human brain function and brain-computer interfaces

Introduction

History of Linking Brain to Behavior

Measurement of Brain Functions

Electrical recording

Cerebrovascular recording

How do imaging techniques compare?

Functional Organization

Motor cortex

Somatosensory cortex

Visual cortex

Auditory cortex

Cognition

Future Perspective

References

Chapter 2: Brain-computer interfaces: Definitions and principles

Definitions

Brain-computer interface

Related terms

Adaptive neurotechnologies

Key Issues

BCIs create artificial CNS outputs

BCI operation requires the effective interaction of two adaptive controllers

Selecting signal types and CNS regions

Detecting and avoiding artifacts

BCI output commands can either select goals or control processes

Creating and disseminating important BCI applications

Conclusions

References

Further Reading

Chapter 3: Stroke and potential benefits of brain-computer interface

Ischemic Stroke Pathogenesis

Lesion core and penumbra

Remote damage

Stroke Recovery Between Myth and Reality

Functional Related Plasticity

The BCI Copernican Revolution: From Environmental Control to Scouting Brain Changes

Acknowledgment

Further Reading

Chapter 4: Brain-computer interfaces for people with amyotrophic lateral sclerosis

Amyotrophic Lateral Sclerosis

The Need for a BCI

BCI Research With People With ALS to Date

Translating BCIs for People With ALS

Acknowledgment

Chapter 5: Brain damage by trauma

Background

General Considerations for the Use of BCI Tools in TBI

Alterations in brain connectivity after TBI: Implications for BCI

What Is the Existing Knowledge on BCI Application to TBI?

Neurofeedback

BCIs involving noninvasive transcranial brain stimulation

Deep brain stimulation-based BCIs

Future Directions for BCI Therapies in TBI

Concluding Remarks

Chapter 6: Spinal cord lesions

Prevalence, incidence, and etiology of SCI

Patterns of Recovery and Rehabilitation After SCI

Neurologic and functional recovery after SCI

Motor rehabilitation after SCI

Brain-computer interfaces in SCI rehabilitation

Impact of SCI on Brain Structures and Function

SCI-associated anatomic and neurophysiologic changes of the brain at rest

Functional brain reorganization in SCI contingent upon action-related tasks

Brain reorganization after SCI related to motor imagery

Performance of BCIs based on motor imagery after SCI

SCI-Related Confounding Factors on BCI Performance

Spasmolytic medication

Notes:

1. Human brain function and brain-computer interfaces<br>2. Brain-computer interfaces: definitions and principles<br>3. Stroke and potential benefits of brain to computer interface<br>4. Brain-computer interfaces for people with amyotrophic lateral sclerosis<br>5. Brain damage by trauma<br>6. Spinal cord lesions<br>7. Brain:computer interfaces for communication<br>8. Applications of brain-computer interfaces to the control of robotic and prosthetic arms<br>9. BCI for rehab ('not control') <br>10. Video games as rich environments to foster brain plasticity<br>11. Consciousness and communication brain-computer interfaces in severely brain-injured patients <br>12. Smart neuromodulation in movement disorders<br>13. Bidirectional brain computer interfaces<br>14. Brain-computer interfaces and virtual reality for neurorehabilitation<br>15. Monitoring performance of professional and occupational operators<br>16. Self-Health Monitoring and wearable neurotechnologies<br>17. Brain-computer interfaces for basic neuroscience<br>18. Electroencephalography<br>19. iEEG: dura-lining electrodes<br>20. Local field potentials for BCI control<br>21. Real-time fMRI for brain-computer interfacing<br>22. Merging brain-computer interface and functional electrical stimulation technologies for movement restoration<br>23. General principles of machine learning for brain-computer interfacing<br>24. Ethics and the emergence of brain-computer interface medicine<br>25. Industrial perspectives on brain-computer interface technology<br>26. Hearing the needs of clinical users

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Other Format:

Print version :

ISBN:

9780444639332

0444639330

OCLC:

1151928261

Access Restriction:

Restricted for use by site license.