Enhancing Performance for Action and Perception
Multisensory Integration, Neuroplasticity and Neuroprosthetics, Part II Volume 192
Enhancing Performance for Action and Perception
Multisensory Integration, Neuroplasticity and Neuroprosthetics, Part II Volume 192
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Based on the result of a symposium held at the Universite de Montreal, May 2010.
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Based on the result of a symposium held at the Universite de Montreal, May 2010.
Produktdetails
- Produktdetails
- Verlag: Elsevier Science
- Seitenzahl: 328
- Erscheinungstermin: 2. September 2011
- Englisch
- Abmessung: 244mm x 196mm x 23mm
- Gewicht: 739g
- ISBN-13: 9780444533555
- ISBN-10: 0444533559
- Artikelnr.: 39396003
- Verlag: Elsevier Science
- Seitenzahl: 328
- Erscheinungstermin: 2. September 2011
- Englisch
- Abmessung: 244mm x 196mm x 23mm
- Gewicht: 739g
- ISBN-13: 9780444533555
- ISBN-10: 0444533559
- Artikelnr.: 39396003
SECTION I: Assistive Technologies To Enhance Sensorimotor Performance
1. Building the Bionic Eye: An Emerging Reality and OpportunityLotfi B.
Merabet
2. Insights from darkness: What the study of blindness has taught us
about brain structure and functionRon Kupers and Maurice Ptito
3. A dynamical systems view of motor preparation: Implications for
neural prosthetic system designKrishna V. Shenoy, Matthew T. Kaufman,
Maneesh Sahani, and Mark M. Churchland
4. Physically Interactive Robotic Technology for NeuroMotor
RehabilitationNeville Hogan & Hermano I. Krebs
5. Sensory Feedback for Upper Limb ProsthesesSteven S. Hsiao, Michael
Fettiplace, Bejan Darbandi
6. Stimulus-driven changes in sensorimotor behavior and neuronal
functional connectivity: Application to brain machine interfaces and
neurorehabilitationJames M. Rebesco, Lee E. Miller
7. Inference from populations: going beyond modelsSteven M. Chase &
Andrew B. Schwartz
8. Tactile communication systems: Optimizing the display of
informationLynette A. Jones
9. Understanding Haptics by Evolving Mechatronic SystemsGerald E. Loeb,
George A. Tsianos, Jeremy A. Fishel, Nicholas Wettels and Stefan
Schaal
SECTION II: Neurorehabilitation
10. Technology Improves Upper Extremity Rehabilitation Jan Kowalczewski
and Arthur Prochazka.
11. Guiding task-oriented gait training after stroke or spinal cord
injury (SCI) by means of a biomechanical gait analysis.Sylvie Nadeau
, Cyril Duclos , Laurent Bouyer and Carol L. Richards
12. Involvement of the corticospinal tract in the control of human
gaitDorothy Barthélemy, Michael J. Grey, Jens Bo Nielsen, Laurent
Bouyer
13. Vision restoration after brain and retina damage: the "Residual
Vision Activation Theory"Bernhard A. Sabel, Petra Henrich-Noack,
Anton Fedorov and Carolin Gall
14. Real-Time Functional Magnetic Imaging - Brain Computer Interface And
Virtual Reality: Promising Tools For The Treatment Of
PaedophiliaPatrice Renaud, Christian Joyal, Mathieu Goyette, Niels
Birbaumer
15. Shaping plasticity to enhance recovery after injuryNuma Dancause, PT,
PhD & Randolph J. Nudo, PhD
1. Building the Bionic Eye: An Emerging Reality and OpportunityLotfi B.
Merabet
2. Insights from darkness: What the study of blindness has taught us
about brain structure and functionRon Kupers and Maurice Ptito
3. A dynamical systems view of motor preparation: Implications for
neural prosthetic system designKrishna V. Shenoy, Matthew T. Kaufman,
Maneesh Sahani, and Mark M. Churchland
4. Physically Interactive Robotic Technology for NeuroMotor
RehabilitationNeville Hogan & Hermano I. Krebs
5. Sensory Feedback for Upper Limb ProsthesesSteven S. Hsiao, Michael
Fettiplace, Bejan Darbandi
6. Stimulus-driven changes in sensorimotor behavior and neuronal
functional connectivity: Application to brain machine interfaces and
neurorehabilitationJames M. Rebesco, Lee E. Miller
7. Inference from populations: going beyond modelsSteven M. Chase &
Andrew B. Schwartz
8. Tactile communication systems: Optimizing the display of
informationLynette A. Jones
9. Understanding Haptics by Evolving Mechatronic SystemsGerald E. Loeb,
George A. Tsianos, Jeremy A. Fishel, Nicholas Wettels and Stefan
Schaal
SECTION II: Neurorehabilitation
10. Technology Improves Upper Extremity Rehabilitation Jan Kowalczewski
and Arthur Prochazka.
11. Guiding task-oriented gait training after stroke or spinal cord
injury (SCI) by means of a biomechanical gait analysis.Sylvie Nadeau
, Cyril Duclos , Laurent Bouyer and Carol L. Richards
12. Involvement of the corticospinal tract in the control of human
gaitDorothy Barthélemy, Michael J. Grey, Jens Bo Nielsen, Laurent
Bouyer
13. Vision restoration after brain and retina damage: the "Residual
Vision Activation Theory"Bernhard A. Sabel, Petra Henrich-Noack,
Anton Fedorov and Carolin Gall
14. Real-Time Functional Magnetic Imaging - Brain Computer Interface And
Virtual Reality: Promising Tools For The Treatment Of
PaedophiliaPatrice Renaud, Christian Joyal, Mathieu Goyette, Niels
Birbaumer
15. Shaping plasticity to enhance recovery after injuryNuma Dancause, PT,
PhD & Randolph J. Nudo, PhD
SECTION I: Assistive Technologies To Enhance Sensorimotor Performance
1. Building the Bionic Eye: An Emerging Reality and OpportunityLotfi B.
Merabet
2. Insights from darkness: What the study of blindness has taught us
about brain structure and functionRon Kupers and Maurice Ptito
3. A dynamical systems view of motor preparation: Implications for
neural prosthetic system designKrishna V. Shenoy, Matthew T. Kaufman,
Maneesh Sahani, and Mark M. Churchland
4. Physically Interactive Robotic Technology for NeuroMotor
RehabilitationNeville Hogan & Hermano I. Krebs
5. Sensory Feedback for Upper Limb ProsthesesSteven S. Hsiao, Michael
Fettiplace, Bejan Darbandi
6. Stimulus-driven changes in sensorimotor behavior and neuronal
functional connectivity: Application to brain machine interfaces and
neurorehabilitationJames M. Rebesco, Lee E. Miller
7. Inference from populations: going beyond modelsSteven M. Chase &
Andrew B. Schwartz
8. Tactile communication systems: Optimizing the display of
informationLynette A. Jones
9. Understanding Haptics by Evolving Mechatronic SystemsGerald E. Loeb,
George A. Tsianos, Jeremy A. Fishel, Nicholas Wettels and Stefan
Schaal
SECTION II: Neurorehabilitation
10. Technology Improves Upper Extremity Rehabilitation Jan Kowalczewski
and Arthur Prochazka.
11. Guiding task-oriented gait training after stroke or spinal cord
injury (SCI) by means of a biomechanical gait analysis.Sylvie Nadeau
, Cyril Duclos , Laurent Bouyer and Carol L. Richards
12. Involvement of the corticospinal tract in the control of human
gaitDorothy Barthélemy, Michael J. Grey, Jens Bo Nielsen, Laurent
Bouyer
13. Vision restoration after brain and retina damage: the "Residual
Vision Activation Theory"Bernhard A. Sabel, Petra Henrich-Noack,
Anton Fedorov and Carolin Gall
14. Real-Time Functional Magnetic Imaging - Brain Computer Interface And
Virtual Reality: Promising Tools For The Treatment Of
PaedophiliaPatrice Renaud, Christian Joyal, Mathieu Goyette, Niels
Birbaumer
15. Shaping plasticity to enhance recovery after injuryNuma Dancause, PT,
PhD & Randolph J. Nudo, PhD
1. Building the Bionic Eye: An Emerging Reality and OpportunityLotfi B.
Merabet
2. Insights from darkness: What the study of blindness has taught us
about brain structure and functionRon Kupers and Maurice Ptito
3. A dynamical systems view of motor preparation: Implications for
neural prosthetic system designKrishna V. Shenoy, Matthew T. Kaufman,
Maneesh Sahani, and Mark M. Churchland
4. Physically Interactive Robotic Technology for NeuroMotor
RehabilitationNeville Hogan & Hermano I. Krebs
5. Sensory Feedback for Upper Limb ProsthesesSteven S. Hsiao, Michael
Fettiplace, Bejan Darbandi
6. Stimulus-driven changes in sensorimotor behavior and neuronal
functional connectivity: Application to brain machine interfaces and
neurorehabilitationJames M. Rebesco, Lee E. Miller
7. Inference from populations: going beyond modelsSteven M. Chase &
Andrew B. Schwartz
8. Tactile communication systems: Optimizing the display of
informationLynette A. Jones
9. Understanding Haptics by Evolving Mechatronic SystemsGerald E. Loeb,
George A. Tsianos, Jeremy A. Fishel, Nicholas Wettels and Stefan
Schaal
SECTION II: Neurorehabilitation
10. Technology Improves Upper Extremity Rehabilitation Jan Kowalczewski
and Arthur Prochazka.
11. Guiding task-oriented gait training after stroke or spinal cord
injury (SCI) by means of a biomechanical gait analysis.Sylvie Nadeau
, Cyril Duclos , Laurent Bouyer and Carol L. Richards
12. Involvement of the corticospinal tract in the control of human
gaitDorothy Barthélemy, Michael J. Grey, Jens Bo Nielsen, Laurent
Bouyer
13. Vision restoration after brain and retina damage: the "Residual
Vision Activation Theory"Bernhard A. Sabel, Petra Henrich-Noack,
Anton Fedorov and Carolin Gall
14. Real-Time Functional Magnetic Imaging - Brain Computer Interface And
Virtual Reality: Promising Tools For The Treatment Of
PaedophiliaPatrice Renaud, Christian Joyal, Mathieu Goyette, Niels
Birbaumer
15. Shaping plasticity to enhance recovery after injuryNuma Dancause, PT,
PhD & Randolph J. Nudo, PhD