| scholarly article | Q13442814 |
| P2093 | author name string | Robert Smith | |
| David J Reinkensmeyer | |||
| Jiayin Liu | |||
| Robert J Sanchez | |||
| Punit Shah | |||
| Steven C Cramer | |||
| James E Bobrow | |||
| Sandhya Rao | |||
| Tariq Rahman | |||
| P433 | issue | 3 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | gravity | Q11412 |
| automation | Q184199 | ||
| P304 | page(s) | 378-389 | |
| P577 | publication date | 2006-09-01 | |
| P1433 | published in | IEEE Transactions on Neural Systems and Rehabilitation Engineering | Q15758805 |
| P1476 | title | Automating arm movement training following severe stroke: functional exercises with quantitative feedback in a gravity-reduced environment | |
| P478 | volume | 14 |
| Q37189901 | A BMI-based occupational therapy assist suit: asynchronous control by SSVEP. |
| Q40048577 | A Pre-Clinical Framework for Neural Control of a Therapeutic Upper-Limb Exoskeleton |
| Q55312028 | A Review of Robotics in Neurorehabilitation: Towards an Automated Process for Upper Limb. |
| Q40126604 | A neural tracking and motor control approach to improve rehabilitation of upper limb movements |
| Q51854179 | A pilot study to assess use of passive extension bias to facilitate finger movement for repetitive task practice after stroke. |
| Q38323524 | A review of technological and clinical aspects of robot-aided rehabilitation of upper-extremity after stroke |
| Q39401190 | A standardized approach to the Fugl-Meyer assessment and its implications for clinical trials |
| Q39779611 | A study on the operation of rehabilitation interfaces in active rehabilitation exercises for upper limb hemiplegic patients: Interfaces for lateral and bilateral exercises |
| Q30438118 | A survey on robotic devices for upper limb rehabilitation |
| Q48390544 | ARMin: a robot for patient-cooperative arm therapy. |
| Q42571410 | Altered multijoint reflex coordination is indicative of motor impairment level following stroke |
| Q58060609 | An Accurate, Versatile, and Robust Brain Switch for Neurorehabilitation |
| Q48277368 | Arm and hand skills: training preferences after stroke |
| Q34230628 | Arm weight support training improves functional motor outcome and movement smoothness after stroke |
| Q55394906 | Assessing User Transparency with Muscle Synergies during Exoskeleton-Assisted Movements: A Pilot Study on the LIGHTarm Device for Neurorehabilitation. |
| Q34268252 | Assessment of movement quality in robot- assisted upper limb rehabilitation after stroke: a review |
| Q45401608 | Comfort of two shoulder actuation mechanisms for arm therapy exoskeletons: a comparative study in healthy subjects |
| Q36366707 | Comparison of three-dimensional, assist-as-needed robotic arm/hand movement training provided with Pneu-WREX to conventional tabletop therapy after chronic stroke. |
| Q34430330 | Contributions of altered stretch reflex coordination to arm impairments following stroke |
| Q40955116 | Design and Validation of Exoskeleton Actuated by Soft Modules toward Neurorehabilitation-Vision-Based Control for Precise Reaching Motion of Upper Limb. |
| Q35834137 | Design and evaluation of a low-cost instrumented glove for hand function assessment |
| Q57022283 | Dissociating motor learning from recovery in exoskeleton training post-stroke |
| Q30475327 | Effect of visual distraction and auditory feedback on patient effort during robot-assisted movement training after stroke |
| Q37144339 | Effects of Arm Weight Support Training to Promote Recovery of Upper Limb Function for Subacute Patients after Stroke with Different Levels of Arm Impairments |
| Q48714659 | Error augmentation enhancing arm recovery in individuals with chronic stroke: a randomized crossover design. |
| Q51532607 | Feasibility and efficacy of upper limb robotic rehabilitation in a subacute cervical spinal cord injury population. |
| Q39980641 | Improving poststroke recovery: neuroplasticity and task-oriented training |
| Q36237104 | Influence of gravity compensation training on synergistic movement patterns of the upper extremity after stroke, a pilot study |
| Q34212889 | Manual skill generalization enhanced by negative viscosity |
| Q37719532 | Nature, timing, frequency and type of augmented feedback; does it influence motor relearning of the hemiparetic arm after stroke? A systematic review. |
| Q41871843 | Negative viscosity can enhance learning of inertial dynamics |
| Q37529808 | Normalized movement quality measures for therapeutic robots strongly correlate with clinical motor impairment measures |
| Q37820969 | Not just fun and games: applications of virtual reality in the identification and rehabilitation of cognitive disorders of the elderly |
| Q37270421 | Novel swing-assist un-motorized exoskeletons for gait training |
| Q36237109 | Positive effects of robotic exoskeleton training of upper limb reaching movements after stroke |
| Q34732947 | Poststroke upper extremity rehabilitation: a review of robotic systems and clinical results |
| Q36143334 | Reliability of movement workspace measurements in a passive arm orthosis used in spinal cord injury rehabilitation. |
| Q21231961 | Review of control strategies for robotic movement training after neurologic injury |
| Q35040150 | Robotically facilitated virtual rehabilitation of arm transport integrated with finger movement in persons with hemiparesis |
| Q30486152 | Technology-assisted training of arm-hand skills in stroke: concepts on reacquisition of motor control and therapist guidelines for rehabilitation technology design |
| Q34567165 | The Armeo Spring as training tool to improve upper limb functionality in multiple sclerosis: a pilot study |
| Q30514055 | The Neurorehabilitation Training Toolkit (NTT): A Novel Worldwide Accessible Motor Training Approach for At-Home Rehabilitation after Stroke |
| Q36846884 | The Resonating Arm Exerciser: design and pilot testing of a mechanically passive rehabilitation device that mimics robotic active assistance |
| Q47765102 | The effect of arm support combined with rehabilitation games on upper-extremity function in subacute stroke: a randomized controlled trial |
| Q37717202 | The effect of arm weight support on upper limb muscle synergies during reaching movements. |
| Q38183426 | The value of robotic systems in stroke rehabilitation |
| Q33942177 | Training modalities in robot-mediated upper limb rehabilitation in stroke: a framework for classification based on a systematic review. |
| Q30980880 | Upper limb rehabilitation after spinal cord injury: a treatment based on a data glove and an immersive virtual reality environment. |
| Q37049796 | Virtual reality-based approaches to enable walking for people poststroke |
| Q37650978 | Weight compensation characteristics of Armeo®Spring exoskeleton: implications for clinical practice and research |
| Q41570399 | Weight-supported training of the upper extremity in children with cerebral palsy: a motor learning study |
Search more.