100 results on '"Dietz, Volker"'
Search Results
2. Recovery of Sensorimotor Functions After Stroke and SCI: Neurophysiological Basis of Rehabilitation Technology
3. Learning in the Damaged Brain/Spinal Cord: Neuroplasticity
4. Clinical Aspects for the Application of Robotics in Locomotor Neurorehabilitation
5. Learning in the Damaged Brain/Spinal Cord: Neuroplasticity
6. Normal and Impaired Cooperative Hand Movements: Role of Neural Coupling
7. Clinical Aspects for the Application of Robotics in Neurorehabilitation
8. Learning in the Damaged Brain/Spinal Cord: Neuroplasticity
9. Learning in the Damaged Brain/Spinal Cord: Neuroplasticity
10. Clinical Aspects for the Application of Robotics in Neurorehabilitation
11. Epilogue: Robots for Neurorehabilitation—The Debate
12. Beyond Human or Robot Administered Treadmill Training
13. Upper-Extremity Movement Training with Mechanically Assistive Devices
14. Wearable Sensors for Stroke Rehabilitation
15. Using Robotic Exoskeletons for Overground Locomotor Training
16. A Flexible Cable-Driven Robotic System: Design and Its Clinical Application for Improving Walking Function in Adults with Stroke, SCI, and Children with CP
17. Designing User-Centered Technologies for Rehabilitation Challenge that Optimize Walking and Balance Performance
18. Body Weight Support Devices for Overground Gait and Balance Training
19. Robotic Gait Training in Specific Neurological Conditions: Rationale and Application
20. The Role of Haptic Interactions with Robots for Promoting Motor Learning
21. Forging Mens et Manus: The MIT Experience in Upper Extremity Robotic Therapy
22. Technology of the Robotic Gait Orthosis Lokomat
23. Three-Dimensional Multi-Degree-of-Freedom Arm Therapy Robot (ARMin)
24. Telerehabilitation Technology
25. Passive Devices for Upper Limb Training
26. BCI-Based Neuroprostheses and Physiotherapies for Stroke Motor Rehabilitation
27. Mobile Technology for Cognitive Rehabilitation
28. Basis and Clinical Evidence of Virtual Reality-Based Rehabilitation of Sensorimotor Impairments After Stroke
29. Computational Neurorehabilitation
30. Functional Electrical Stimulation Therapy: Mechanisms for Recovery of Function Following Spinal Cord Injury and Stroke
31. Spinal Cord Stimulation to Enable Leg Motor Control and Walking in People with Spinal Cord Injury
32. Precision Rehabilitation: Can Neurorehabilitation Technology Help Make It a Realistic Target?
33. Robotic Technologies and Digital Health Metrics for Assessing Sensorimotor Disability
34. Sensory-Motor Interactions and the Manipulation of Movement Error
35. Clinical Application of Rehabilitation Therapy Technologies to Children with CNS Damage
36. Implementation of Robots into Rehabilitation Programs: Meeting the Requirements and Expectations of Professional and End Users
37. Psychophysiological Integration of Humans and Machines for Rehabilitation
38. The Hand After Stroke and SCI: Restoration of Function with Technology
39. Implementation of Impairment-Based Neurorehabilitation Devices and Technologies Following Brain Injury
40. Use of Technology in the Assessment and Rehabilitation of the Upper Limb After Cervical Spinal Cord Injury
41. Movement Neuroscience Foundations of Neurorehabilitation
42. Correction to: Spinal Cord Stimulation to Enable Leg Motor Control and Walking in People with Spinal Cord Injury
43. Three-Dimensional Multi-degree-of-Freedom Arm Therapy Robot (ARMin)
44. BCI-Based Neuroprostheses and Physiotherapies for Stroke Motor Rehabilitation
45. Wearable Wireless Sensors for Rehabilitation
46. Functional Electrical Stimulation Therapy: Recovery of Function Following Spinal Cord Injury and Stroke
47. Virtual Reality for Sensorimotor Rehabilitation Post Stroke: Design Principles and Evidence
48. Passive Devices for Upper Limb Training
49. Using Robotic Exoskeletons for Over-Ground Locomotor Training
50. Upper-Extremity Therapy with Spring Orthoses
Catalog
Books, media, physical & digital resources
Discovery Service for Jio Institute Digital Library
For full access to our library's resources, please sign in.