| Description |
1 online resource |
| Series |
Handbook of clinical neurology ; v. 168 |
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Handbook of clinical neurology ; v. 168.
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| 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 |
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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 |
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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 -- References -- 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 |
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Acknowledgment -- References -- Further Reading -- 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 -- References -- Chapter 6: Spinal cord lesions -- Introduction -- Prevalence, incidence, and etiology of SCI |
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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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Description based on CIP data; resource not viewed |
| Subject |
Brain-computer interfaces.
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Human-machine systems.
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Brain-Computer Interfaces
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Man-Machine Systems
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Human-machine systems
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Brain-computer interfaces
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| Genre/Form |
Electronic books
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| Form |
Electronic book
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| Author |
Ramsey, Nick, editor
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Millan, Jose Del R., editor
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| ISBN |
9780444639332 |
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0444639330 |
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