Definition and classification of hyperkinetic movements in childhood TD Sanger, D Chen, DL Fehlings, M Hallett, AE Lang, JW Mink, HS Singer, ... Movement Disorders 25 (11), 1538-1549, 2010 | 530 | 2010 |
Design and control of tensegrity robots for locomotion C Paul, FJ Valero-Cuevas, H Lipson IEEE Transactions on Robotics 22 (5), 944-957, 2006 | 510 | 2006 |
Large index-fingertip forces are produced by subject-independent patterns of muscle excitation FJ Valero-Cuevas, FE Zajac, CG Burgar Journal of biomechanics 31 (8), 693-703, 1998 | 404 | 1998 |
The potential of virtual reality and gaming to assist successful aging with disability BS Lange, P Requejo, SM Flynn, AA Rizzo, FJ Valero-Cuevas, L Baker, ... Physical Medicine and Rehabilitation Clinics 21 (2), 339-356, 2010 | 292 | 2010 |
Towards a realistic biomechanical model of the thumb: the choice of kinematic description may be more critical than the solution method or the variability/uncertainty of … FJ Valero-Cuevas, ME Johanson, JD Towles Journal of biomechanics 36 (7), 1019-1030, 2003 | 285 | 2003 |
Challenges and new approaches to proving the existence of muscle synergies of neural origin JJ Kutch, FJ Valero-Cuevas PLoS computational biology 8 (5), e1002434, 2012 | 283 | 2012 |
Structured variability of muscle activations supports the minimal intervention principle of motor control FJ Valero-Cuevas, M Venkadesan, E Todorov Journal of neurophysiology 102 (1), 59-68, 2009 | 278 | 2009 |
Predictive modulation of muscle coordination pattern magnitude scales fingertip force magnitude over the voluntary range FJ Valero-Cuevas Journal of Neurophysiology 83 (3), 1469-1479, 2000 | 231 | 2000 |
Biological underpinnings for lifelong learning machines D Kudithipudi, M Aguilar-Simon, J Babb, M Bazhenov, D Blackiston, ... Nature Machine Intelligence 4 (3), 196-210, 2022 | 213 | 2022 |
An integrative approach to the biomechanical function and neuromuscular control of the fingers FJ Valero-Cuevas Journal of biomechanics 38 (4), 673-684, 2005 | 163 | 2005 |
The tendon network of the fingers performs anatomical computation at a macroscopic scale FJ Valero-Cuevas, JW Yi, D Brown, RV McNamara, C Paul, H Lipson IEEE Transactions on Biomedical Engineering 54 (6), 1161-1166, 2007 | 161 | 2007 |
Computational models for neuromuscular function FJ Valero-Cuevas, H Hoffmann, MU Kurse, JJ Kutch, EA Theodorou IEEE reviews in biomedical engineering 2, 110-135, 2009 | 156 | 2009 |
Morphological communication: exploiting coupled dynamics in a complex mechanical structure to achieve locomotion JA Rieffel, FJ Valero-Cuevas, H Lipson Journal of the royal society interface 7 (45), 613-621, 2010 | 143 | 2010 |
Reported anatomical variability naturally leads to multimodal distributions of Denavit-Hartenberg parameters for the human thumb VJ Santos, FJ Valero-Cuevas IEEE Transactions on Biomedical Engineering 53 (2), 155-163, 2006 | 137 | 2006 |
The strength–dexterity test as a measure of dynamic pinch performance FJ Valero-Cuevas, N Smaby, M Venkadesan, M Peterson, T Wright Journal of biomechanics 36 (2), 265-270, 2003 | 136 | 2003 |
Automated discovery and optimization of large irregular tensegrity structures J Rieffel, F Valero-Cuevas, H Lipson Computers & Structures 87 (5-6), 368-379, 2009 | 132 | 2009 |
A mathematical approach to the mechanical capabilities of limbs and fingers FJ Valero-Cuevas Progress in Motor Control: a Multidisciplinary Perspective, 619-633, 2009 | 121 | 2009 |
Muscle redundancy does not imply robustness to muscle dysfunction JJ Kutch, FJ Valero-Cuevas Journal of biomechanics 44 (7), 1264-1270, 2011 | 119 | 2011 |
Activation patterns of the thumb muscles during stable and unstable pinch tasks ME Johanson, FJ Valero-Cuevas, VR Hentz The Journal of hand surgery 26 (4), 698-705, 2001 | 119 | 2001 |
Manipulating the edge of instability M Venkadesan, J Guckenheimer, FJ Valero-Cuevas Journal of biomechanics 40 (8), 1653-1661, 2007 | 114 | 2007 |