Development of robots for rehabilitation therapy: the Palo Alto VA/Stanford experience.
about
The Three Laws of Neurorobotics: A Review on What Neurorehabilitation Robots Should Do for Patients and CliniciansRobotic technologies and rehabilitation: new tools for stroke patients' therapyOn the assessment of coordination between upper extremities: towards a common language between rehabilitation engineers, clinicians and neuroscientistsA survey on robotic devices for upper limb rehabilitation.Technology-assisted training of arm-hand skills in stroke: concepts on reacquisition of motor control and therapist guidelines for rehabilitation technology design.Training modalities in robot-mediated upper limb rehabilitation in stroke: a framework for classification based on a systematic review.Development and pilot testing of HEXORR: hand EXOskeleton rehabilitation robot.Arm weight support training improves functional motor outcome and movement smoothness after stroke.Assessment of movement quality in robot- assisted upper limb rehabilitation after stroke: a review.Relevance of error: what drives motor adaptation?Feasibility of the adaptive and automatic presentation of tasks (ADAPT) system for rehabilitation of upper extremity function post-strokeBilateral assessment of functional tasks for robot-assisted therapy applications.Recent trends in robot-assisted therapy environments to improve real-life functional performance after stroke.Current Trends in Robot-Assisted Upper-Limb Stroke Rehabilitation: Promoting Patient Engagement in Therapy.Socially assistive robotics for post-stroke rehabilitation.Potential of a suite of robot/computer-assisted motivating systems for personalized, home-based, stroke rehabilitationQuantifying kinematics of purposeful movements to real, imagined, or absent functional objects: implications for modelling trajectories for robot-assisted ADL tasksPilot study to test effectiveness of video game on reaching performance in stroke.Reliability of movement workspace measurements in a passive arm orthosis used in spinal cord injury rehabilitation.A systematic review of bilateral upper limb training devices for poststroke rehabilitation.Robotics to enable older adults to remain living at homeModulation of event-related desynchronization in robot-assisted hand performance: brain oscillatory changes in active, passive and imagined movements.Vision-Based Pose Estimation for Robot-Mediated Hand TelerehabilitationDesign strategies to improve patient motivation during robot-aided rehabilitationFusion of Haptic and Gesture Sensors for Rehabilitation of Bimanual Coordination and Dexterous Manipulation.Combining Dopaminergic Facilitation with Robot-Assisted Upper Limb Therapy in Stroke Survivors: A Focused ReviewEffects of robot-assisted therapy on upper limb recovery after stroke: a systematic reviewCompensatory arm reaching strategies after stroke: induced position analysisMirror versus parallel bimanual reaching.Design of a Reconfigurable Robotic System for Flexoextension Fitted to Hand Fingers SizeTherapeutic Robotics: A Technology Push: Stroke rehabilitation is being aided by robots that guide movement of shoulders and elbows, wrists, hands, arms and ankles to significantly improve recovery of patients.Normalized movement quality measures for therapeutic robots strongly correlate with clinical motor impairment measuresRobotic devices as therapeutic and diagnostic tools for stroke recoveryNeuroplastic Changes Following Brain Ischemia and their Contribution to Stroke Recovery: Novel Approaches in Neurorehabilitation.An Evaluation of the Design and Usability of a Novel Robotic Bilateral Arm Rehabilitation Device for Patients with Stroke.Performance-based robotic assistance during rhythmic arm exercisesUncertainty of feedback and state estimation determines the speed of motor adaptation.A sensorimotor approach to the training of manual actions in children with developmental coordination disorder.Bimanual elbow robotic orthoses: preliminary investigations on an impairment force-feedback rehabilitation methodDesign of a series visco-elastic actuator for multi-purpose rehabilitation haptic device.
P2860
Q26825126-3221F5FD-9CE1-417F-AE02-9E7B0F417A3BQ26996503-BB55D162-9999-4D82-95CB-D7787E00F923Q28077877-E0B6454A-B2BC-409B-BFC6-C4ADE82C5E59Q30438118-A33D85D3-EEFC-406E-AEA3-661A63410CF2Q30486152-0C55234B-BB41-484B-99B5-C7B49D441954Q33942177-0141656B-7BDF-4AF3-A0EF-24AFBCF01DC2Q34060877-53BA3A75-7771-48CA-878D-99201A0F0751Q34230628-9859758B-6C5B-4EF2-B8AF-F516D46F2262Q34268252-81682498-340B-4828-BDAA-4BC77F1B7595Q34884108-8BF40C14-2D69-425D-8133-953EDCAF6710Q35203700-4D10885F-ADC2-4CB2-9276-2E468C4E5A1EQ35480167-3AD98CE7-50F5-4D17-92CA-EA61FA80F5F6Q35575334-2BF5A807-9F2E-4535-B980-2F078A7B4FB7Q35636347-2089E64A-FD1E-4971-B1AF-2F5F999D7C1CQ35677967-C9ABFCE4-280D-4AA8-B15B-3DB999B7ADD9Q35677971-76036B9F-4A2E-48A7-8AA4-95A8FC667E6FQ35741083-09A72438-DA5C-4E8C-952A-F6072AE37F8AQ35862771-D77E9284-C95A-448B-A7FB-A188B9012091Q36143334-5A507436-9751-438E-BF6F-7685FAB058EAQ36454919-35ECEA20-F53B-4F5D-9084-5E81344C1105Q36486470-C5AC5254-E5A1-4AA0-A7FA-C54BF0275ED5Q36687345-B47F6963-726A-4308-A8C3-A167335860FCQ36711451-5A51E5A0-119F-4629-A901-74D1FF8967EAQ36740014-89DCB046-C2BE-4BEC-8E91-CFFFDD498C6AQ36745684-F157438C-9F59-4301-878F-DC1E4A5B00BEQ36900126-691AF02B-FA7F-4C60-9562-8FC8DA8ACFCDQ36944512-3829A0DA-E93C-4BBA-ACCF-ECC1846C5F0AQ37011655-37BAEC92-E2BD-4850-A1FE-E0DD965CF48CQ37028839-09B8F150-1AEF-4AB2-B94E-974C5C4B4454Q37157188-396F6063-9384-408F-8C85-CCD6DCF196C8Q37358484-C104E5A7-7896-45CF-BB35-3BC925FF99F2Q37529808-2EA9C7CB-5E48-40B0-AF81-F0AF57D30270Q37596799-FBAC6740-BFA9-4955-A897-A003BD581454Q37703086-5EB3D1AF-D3F9-4875-8683-4A265450E8B8Q38372254-A27A1590-9A2C-40D5-8A47-E66B3C3F7677Q39395388-0A6A2EE7-20F0-404E-AD7A-E0C30F09D9F4Q40609062-D4D13295-D210-4E06-A15F-42E957822156Q41508947-4E7EC136-7FCA-4BB3-92AB-7DCD93E311EBQ42161915-AA83FBDF-46C5-4225-A16B-E20AE1DD65E1Q42702863-D4CF1AE5-8E3B-4BB2-87B0-C682773EF702
P2860
Development of robots for rehabilitation therapy: the Palo Alto VA/Stanford experience.
description
2000 nî lūn-bûn
@nan
2000 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2000 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2000年の論文
@ja
2000年論文
@yue
2000年論文
@zh-hant
2000年論文
@zh-hk
2000年論文
@zh-mo
2000年論文
@zh-tw
2000年论文
@wuu
name
Development of robots for rehabilitation therapy: the Palo Alto VA/Stanford experience.
@ast
Development of robots for rehabilitation therapy: the Palo Alto VA/Stanford experience.
@en
type
label
Development of robots for rehabilitation therapy: the Palo Alto VA/Stanford experience.
@ast
Development of robots for rehabilitation therapy: the Palo Alto VA/Stanford experience.
@en
prefLabel
Development of robots for rehabilitation therapy: the Palo Alto VA/Stanford experience.
@ast
Development of robots for rehabilitation therapy: the Palo Alto VA/Stanford experience.
@en
P2093
P1476
Development of robots for rehabilitation therapy: the Palo Alto VA/Stanford experience.
@en
P2093
C G Burgar
H F Machiel Van der Loos
P304
P577
2000-11-01T00:00:00Z