about
Advances in selective activation of muscles for non-invasive motor neuroprosthesesReview of hybrid exoskeletons to restore gait following spinal cord injuryHybrid gait training with an overground robot for people with incomplete spinal cord injury: a pilot study.Real-time estimation of pathological tremor parameters from gyroscope data.Analysis of biomechanical data to determine the degree of users participation during robotic-assisted gait rehabilitation.Rehabilitation of gait after stroke: a review towards a top-down approach.The H2 robotic exoskeleton for gait rehabilitation after stroke: early findings from a clinical studyOnline assessment of human-robot interaction for hybrid control of walking.Muscle Synergies in Cycling after Incomplete Spinal Cord Injury: Correlation with Clinical Measures of Motor Function and SpasticityMotor modules in robot-aided walking.Hybrid FES-robot cooperative control of ambulatory gait rehabilitation exoskeletonPrinciples of human locomotion: a review.Towards human-knee orthosis interaction based on adaptive impedance control through stiffness adjustment.Global Kalman filter approaches to estimate absolute angles of lower limb segments.Boosting the traditional physiotherapist approach for stroke spasticity using a sensorized ankle foot orthosis: a pilot study.Automatic recognition of gait patterns in human motor disorders using machine learning: A review.BioMot exoskeleton - Towards a smart wearable robot for symbiotic human-robot interaction.Combining muscle synergies and biomechanical analysis to assess gait in stroke patients.Joint stiffness modulation of compliant actuators for lower limb exoskeletons.Immediate effects of a controllable knee ankle foot orthosis for functional compensation of gait in patients with proximal leg weakness.Design and validation of a rehabilitation robotic exoskeleton for tremor assessment and suppression.Shared muscle synergies in human walking and cycling.A closed-loop brain-computer interface triggering an active ankle-foot orthosis for inducing cortical neural plasticity.Similarity of muscle synergies in human walking and cycling: preliminary results.Enhancing functional electrical stimulation for emerging rehabilitation robotics in the framework of HYPER project.A Subject-Specific Kinematic Model to Predict Human Motion in Exoskeleton-Assisted Gait.Motor Control System for Adaptation of Healthy Individuals and Recovery of Poststroke Patients: A Case Study on Muscle SynergiesSimultaneous estimation of human and exoskeleton motion: A simplified protocolA new platform based on IEEE802.15.4 wireless inertial sensors for motion caption and assessmentWearable Inertial Sensor System Towards Daily Human Kinematic Gait Analysis: Benchmarking Analysis to MVN BIOMECHAssessing the Involvement of Users During Development of Lower Limb Wearable Robotic Exoskeletons: A Survey Study
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Q26746234-875B3E97-A621-4454-B041-28A328BD0E62Q27011934-36FA8B3E-94BF-4343-9085-D7E1F3C7A3AAQ33633960-DC368B61-DE92-4323-AB95-F9418DEE53C9Q34147424-190A8112-6477-442C-9BC6-27FEDB26054AQ34568782-495F5E8D-3C0F-458B-8FE4-028124BF6C03Q35680299-27030678-F369-4326-BC2A-49795F43B813Q35747627-55D8C02A-B06F-4129-89D7-4B9948C52E11Q35756185-A53A2FB8-F832-4E26-A1C6-9660B6BB1202Q36448295-B7A8A686-21F5-4AB5-A9EC-5C0680F75604Q36499126-97A3B68E-F27D-4455-BD23-E7DA63605C59Q37717127-6FFC997B-511B-42AC-88A7-F7037C68B633Q38151134-06FA25B6-5319-44C6-B62D-A199CAF9340DQ38621949-1DCD2958-B838-408A-BF74-35440C2A8921Q38782223-D498348A-9350-4E94-A571-AEEB26233FDBQ38810724-7BF51C5A-5A4D-4A66-8308-EF5000869310Q47556113-67DB15B2-94F7-49BF-97B5-52C2F195F2C8Q48691331-71E9539C-9234-4778-BEE2-EC7F5137EE71Q50204522-16EBAE0A-D0DB-4289-BC98-81895535816EQ50429827-3EA9FD48-00A5-45F1-B734-B84D36245CC6Q50893439-0383B881-5494-49AC-9D86-960D25B9BA81Q50904803-25DB0DE5-811F-4355-BD67-177D1C3A6C9CQ51064778-E1469EA4-CAE1-494D-97FC-05538CBABE10Q51098437-6DB44656-873C-4BFE-B726-2EFD344F798BQ51153275-92AF9A88-826A-441E-80AE-0999711A3EB7Q51437986-CF2C7FAC-4E77-4469-9932-C371173395F5Q55287195-46A4089E-2D11-4CB1-99A7-38ED3C69A178Q62757174-A1C10EDC-B7A1-4545-868B-7BF013C08832Q62757274-6778EBD8-1672-44BF-AB00-092EEB2F7740Q62757590-5FE91A69-8F0B-4BB8-BA85-15DFC3D9C8DAQ91926525-06E578AB-4700-4B95-949B-6578D383C430Q92583231-5CE57953-01C6-435C-9742-364E9FD3FD11
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Juan C Moreno
@es
Juan C Moreno
@nl
Juan C Moreno
@sl
Juan C. Moreno
@en
type
label
Juan C Moreno
@es
Juan C Moreno
@nl
Juan C Moreno
@sl
Juan C. Moreno
@en
prefLabel
Juan C Moreno
@es
Juan C Moreno
@nl
Juan C Moreno
@sl
Juan C. Moreno
@en
P106
P1153
35299717000
P21
P2456
P31
P496
0000-0001-9561-7764