Ident. | Authors (with country if any) | Title |
---|
000027 |
David J. Reinkensmeyer [États-Unis] ; Etienne Burdet [Royaume-Uni] ; Maura Casadio [Italie] ; John W. Krakauer [États-Unis] ; Gert Kwakkel [Pays-Bas, États-Unis] ; Catherine E. Lang [États-Unis] ; Stephan P. Swinnen [Belgique] ; Nick S. Ward [Royaume-Uni] ; Nicolas Schweighofer [États-Unis] | Computational neurorehabilitation: modeling plasticity and learning to predict recovery |
000032 |
Ildar Farkhatdinov [Royaume-Uni] ; Arnaud Garnier [Royaume-Uni] ; Etienne Burdet [Royaume-Uni] | Development and Evaluation of a Portable MR Compatible Haptic Interface for Human Motor Control |
000071 |
Alex M. C. Smith [Royaume-Uni] ; Chenguang Yang [Royaume-Uni, République populaire de Chine] ; Hongbin Ma [République populaire de Chine] ; Phil Culverhouse [Royaume-Uni] ; Angelo Cangelosi [Royaume-Uni] ; Etienne Burdet [Royaume-Uni] | Novel Hybrid Adaptive Controller for Manipulation in Complex Perturbation Environments |
000103 |
Elahe Abdi [Suisse] ; Etienne Burdet [Royaume-Uni] ; Mohamed Bouri [Suisse] ; Hannes Bleuler [Suisse] | Control of a Supernumerary Robotic Hand by Foot: An Experimental Study in Virtual Reality |
000376 |
Nathanaël Jarrassé [Royaume-Uni, France] ; Themistoklis Charalambous [Suède] ; Etienne Burdet [Royaume-Uni] | A Framework to Describe, Analyze and Generate Interactive Motor Behaviors |
000402 |
Jindrich Kodl [Royaume-Uni] ; Gowrishankar Ganesh [Japon] ; Etienne Burdet [Royaume-Uni] | The CNS Stochastically Selects Motor Plan Utilizing Extrinsic and Intrinsic Representations |
000422 |
Alejandro Melendez-Calderon [Royaume-Uni] ; Lorenzo Masia ; Roger Gassert ; Giulio Sandini ; Etienne Burdet | Force field adaptation can be learned using vision in the absence of proprioceptive error. |
000426 |
Olivier Lambercy [Singapour, Suisse] ; Ludovic Dovat [Singapour] ; Hong Yun [Singapour] ; Seng Kwee Wee [Singapour] ; Christopher Wk Kuah [Singapour] ; Karen Sg Chua [Singapour] ; Roger Gassert [Suisse] ; Theodore E. Milner [Canada] ; Chee Leong Teo [Singapour] ; Etienne Burdet [Royaume-Uni, Singapour] | Effects of a robot-assisted training of grasp and pronation/supination in chronic stroke: a pilot study |
000543 |
Guoyong Zhao [Singapour] ; Chee Leong Teo [Singapour] ; Dietmar Werner Hutmacher [Australie] ; Etienne Burdet [Singapour, Royaume-Uni] | Force-controlled automatic microassembly of tissue engineering scaffolds |
000587 |
Hamed Kazemi [Singapour] ; James K. Rappel [Singapour] ; Timothy Poston [Inde] ; Beng Hai Lim [Singapour] ; Etienne Burdet [Royaume-Uni] ; Chee Leong Teo [Singapour] | Assessing suturing techniques using a virtual reality surgical simulator |
000600 |
GUOYONG ZHAO [Singapour] ; CHEE LEONG TEE [Singapour] ; DIETMAR WERNER HUTMACHER [Australie] ; Etienne Burdet [Singapour, Royaume-Uni] | Force-controlled automatic microassembly of tissue engineering scaffolds |
000662 |
Sven Haller [Suisse] ; Dominique Chapuis [Suisse] ; Roger Gassert [Suisse] ; Etienne Burdet [Royaume-Uni] ; Markus Klarhöfer [Suisse] | Supplementary motor area and anterior intraparietal area integrate fine‐graded timing and force control during precision grip |
000808 |
David W. Franklin [Japon, Royaume-Uni] ; Udell So [Japon] ; Etienne Burdet [Royaume-Uni] ; Mitsuo Kawato [Japon] | Visual Feedback Is Not Necessary for the Learning of Novel Dynamics |
000876 |
ENG SENG BOY [Singapour] ; Etienne Burdet [Royaume-Uni] ; CHEE LEONG TEO [Singapour] ; James Edward Colgate [États-Unis] | Investigation of motion guidance with scooter cobot and collaborative learning |
000906 |
Zhe Lu [Singapour] ; Peter C Y. Chen [Singapour] ; Anand Ganapathy [Singapour] ; Guoyong Zhao [Singapour] ; Joohoo Nam [Singapour] ; Guilin Yang [Singapour] ; Etienne Burdet [Royaume-Uni] ; Cheeleong Teo [Singapour] ; Qingnian Meng [Singapour] ; Wei Lin [Singapour] | A force-feedback control system for micro-assembly |
000938 |
Roger Gassert [Suisse, Royaume-Uni] ; Akio Yamamoto [Japon] ; Dominique Chapuis [Suisse] ; Ludovic Dovat ; Hannes Bleuler [Suisse] ; Etienne Burdet [Royaume-Uni] | Actuation methods for applications in MR environments |