Biblio

Found 25 results
Author Title Type [ Year(Desc)]
Filters: Author is Burdet, Etienne  [Clear All Filters]
2016
Reinkensmeyer DJ, Burdet E, Casadio M, Krakauer JW, Kwakkel G, Lang CE, Swinnen SP, Ward NS, Schweighofer N.  2016.  Computational neurorehabilitation: modeling plasticity and learning to predict recovery. Journal of NeuroEngineering and Rehabilitation. 13
Rinne P, Mace M, Nakornchai T, Zimmerman K, Fayer S, Sharma P, Liardon J-L, Burdet E, Bentley P.  2016.  Democratizing Neurorehabilitation: How Accessible are Low-Cost Mobile-Gaming Technologies for Self-Rehabilitation of Arm Disability in Stroke? PLOS ONE. 11
Wang C, Xiao Y, Burdet E, Gordon J, Schweighofer N.  2016.  The duration of reaching movement is longer than predicted by minimum variance. Journal of Neurophysiology. 116:2342–2345.
Wang C, Xiao Y, Burdet E, Gordon J, Schweighofer N.  2016.  The duration of reaching movement is longer than predicted by minimum variance. Journal of neurophysiology. 116:2342–2345.
Takagi A, Bagnato C, Burdet E.  2016.  Facing the partner influences exchanges in force. Scientific Reports. 6
Kolossiatis M, Charalambous T, Burdet E.  2016.  How variability and effort determine coordination at large forces. PloS one. 11:e0149512.
Hussain A, Balasubramanian S, Lamers I, Guy S, Feys P, Burdet E.  2016.  Investigation of isometric strength and control of the upper extremities in multiple sclerosis. Journal of Rehabilitation and Assistive Technologies Engineering. 3
Takagi A, Beckers N, Burdet E.  2016.  Motion Plan Changes Predictably in Dyadic Reaching. PLOS ONE. 11
Hussain A, Budhota A, Hughes CMary Lee, Dailey WD, Vishwanath DA, Kuah CWK, Yam LHL, Loh YJ, Xiang L, Chua KSG et al..  2016.  Self-Paced Reaching after Stroke: A Quantitative Assessment of Longitudinal and Directional Sensitivity Using the H-Man Planar Robot for Upper Limb Neurorehabilitation. Frontiers in Neuroscience. 10
Riillo F., Bagnato C., Allievi A.G, Takagi A., Fabrizi L., Saggio G., Arichi T., Burdet E.  2016.  A Simple fMRI Compatible Robotic Stimulator to Study the Neural Mechanisms of Touch and Pain. Annals of Biomedical Engineering. 44:2431–2441.