Deep learning for electroencephalogram (EEG) classification tasks: a review A Craik, Y He, JL Contreras-Vidal Journal of neural engineering 16 (3), 031001, 2019 | 2260 | 2019 |
Parkinsonism reduces coordination of fingers, wrist, and arm in fine motor control HL Teulings, JL Contreras-Vidal, GE Stelmach, CH Adler Experimental neurology 146 (1), 159-170, 1997 | 477 | 1997 |
Reconstructing three-dimensional hand movements from noninvasive electroencephalographic signals TJ Bradberry, RJ Gentili, JL Contreras-Vidal Journal of neuroscience 30 (9), 3432-3437, 2010 | 459 | 2010 |
Adaptation to gradual as compared with sudden visuo-motor distortions FA Kagerer, JL Contreras-Vidal, GE Stelmach Experimental brain research 115, 557-561, 1997 | 369 | 1997 |
Visuomotor adaptation in normal aging ER Buch, S Young, JL Contreras-Vidal Learning & memory 10 (1), 55-63, 2003 | 260 | 2003 |
High accuracy decoding of user intentions using EEG to control a lower-body exoskeleton A Kilicarslan, S Prasad, RG Grossman, JL Contreras-Vidal 2013 35th annual international conference of the IEEE Engineering in …, 2013 | 255 | 2013 |
Brain–machine interfaces for controlling lower-limb powered robotic systems Y He, D Eguren, JM Azorín, RG Grossman, TP Luu, JL Contreras-Vidal Journal of neural engineering 15 (2), 021004, 2018 | 228 | 2018 |
Powered exoskeletons for bipedal locomotion after spinal cord injury Contreras-Vidal JL, B NA, B J, Cruz-Garza JG, H Y, M Q, N S, N K, T SH, ... Journal of neural engineering 13 (3), 031001, 2016 | 205 | 2016 |
Elderly subjects are impaired in spatial coordination in fine motor control JL Contreras-Vidal, HL Teulings, GE Stelmach Acta psychologica 100 (1-2), 25-35, 1998 | 199 | 1998 |
Understanding single-Handed mobile device interaction AK Karlson University of Maryland, 2006 | 177 | 2006 |
A robust adaptive denoising framework for real-time artifact removal in scalp EEG measurements A Kilicarslan, RG Grossman, JL Contreras-Vidal Journal of neural engineering 13 (2), 026013, 2016 | 161 | 2016 |
Parkinsons disease and the control of size and speed in handwriting AWA Van Gemmert, HL Teulings, JL Contreras-Vidal, GE Stelmach Neuropsychologia 37 (6), 685-694, 1999 | 148 | 1999 |
NeuroRex: A clinical neural interface roadmap for EEG-based brain machine interfaces to a lower body robotic exoskeleton JL Contreras-Vidal, RG Grossman 2013 35th Annual International Conference of the IEEE Engineering in …, 2013 | 144 | 2013 |
A neural model of cerebellar learning for arm movement control: cortico-spino-cerebellar dynamics. JL Contreras-Vidal, S Grossberg, D Bullock Learning & memory 3 (6), 475-502, 1997 | 144 | 1997 |
A neural model of basal ganglia-thalamocortical relations in normal and parkinsonian movement JL Contreras-Vidal, GE Stelmach Biological cybernetics 73 (5), 467-476, 1995 | 143 | 1995 |
Decoding intra-limb and inter-limb kinematics during treadmill walking from scalp electroencephalographic (EEG) signals A Presacco, LW Forrester, JL Contreras-Vidal IEEE Transactions on neural systems and rehabilitation engineering 20 (2 …, 2012 | 138 | 2012 |
Adaptation of handwriting size under distorted visual feedback in patients with Parkinson's disease and elderly and young controls HL Teulings, JL Contreras-Vidal, GE Stelmach, CH Adler Journal of Neurology, Neurosurgery & Psychiatry 72 (3), 315-324, 2002 | 137 | 2002 |
Effects of Parkinson's disease on visuomotor adaptation JL Contreras-Vidal, ER Buch Experimental brain research 150, 25-32, 2003 | 136 | 2003 |
Exercise, APOE, and working memory: MEG and behavioral evidence for benefit of exercise in epsilon4 carriers SP Deeny, D Poeppel, JB Zimmerman, SM Roth, J Brandauer, ... Biological psychology 78 (2), 179-187, 2008 | 130 | 2008 |
A predictive reinforcement model of dopamine neurons for learning approach behavior JL Contreras-Vidal, W Schultz Journal of computational neuroscience 6, 191-214, 1999 | 129 | 1999 |