| Temporal structure of motor variability is dynamically regulated and predicts motor learning ability HG Wu, YR Miyamoto, LNG Castro, BP Ölveczky, MA Smith Nature neuroscience 17 (2), 312-321, 2014 | 735 | 2014 |
| Motor cortex is required for learning but not for executing a motor skill R Kawai, T Markman, R Poddar, R Ko, AL Fantana, AK Dhawale, ... Neuron 86 (3), 800-812, 2015 | 625 | 2015 |
| Vocal experimentation in the juvenile songbird requires a basal ganglia circuit BP Ölveczky, AS Andalman, MS Fee PLoS biology 3 (5), e153, 2005 | 605 | 2005 |
| Segregation of object and background motion in the retina BP Ölveczky, SA Baccus, M Meister Nature 423 (6938), 401-408, 2003 | 523 | 2003 |
| The role of variability in motor learning AK Dhawale, MA Smith, BP Ölveczky Annual review of neuroscience 40 (1), 479-498, 2017 | 502 | 2017 |
| Acute off-target effects of neural circuit manipulations TM Otchy, SBE Wolff, JY Rhee, C Pehlevan, R Kawai, A Kempf, ... Nature 528 (7582), 358-363, 2015 | 386 | 2015 |
| Rapid diffusion of green fluorescent protein in the mitochondrial matrix A Partikian, B Ölveczky, R Swaminathan, Y Li, AS Verkman The Journal of cell biology 140 (4), 821-829, 1998 | 287 | 1998 |
| A retinal circuit that computes object motion SA Baccus, BP Ölveczky, M Manu, M Meister Journal of Neuroscience 28 (27), 6807-6817, 2008 | 237 | 2008 |
| Catalyzing next-generation artificial intelligence through neuroai A Zador, S Escola, B Richards, B Ölveczky, Y Bengio, K Boahen, ... Nature communications 14 (1), 1597, 2023 | 212* | 2023 |
| What is cognition? T Bayne, D Brainard, RW Byrne, L Chittka, N Clayton, C Heyes, J Mather, ... Current Biology 29 (13), R608-R615, 2019 | 204 | 2019 |
| Motor circuits are required to encode a sensory model for imitative learning TF Roberts, SMH Gobes, M Murugan, BP Ölveczky, R Mooney Nature neuroscience 15 (10), 1454-1459, 2012 | 196 | 2012 |
| Changes in the neural control of a complex motor sequence during learning BP Ölveczky, TM Otchy, JH Goldberg, D Aronov, MS Fee Journal of neurophysiology 106 (1), 386-397, 2011 | 168 | 2011 |
| Geometric deep learning enables 3D kinematic profiling across species and environments TW Dunn, JD Marshall, KS Severson, DE Aldarondo, DGC Hildebrand, ... Nature methods 18 (5), 564-573, 2021 | 162 | 2021 |
| Learning precisely timed spikes RM Memmesheimer, R Rubin, BP Ölveczky, H Sompolinsky Neuron 82 (4), 925-938, 2014 | 160 | 2014 |
| Automated long-term recording and analysis of neural activity in behaving animals AK Dhawale, R Poddar, SBE Wolff, VA Normand, E Kopelowitz, ... Elife 6, e27702, 2017 | 158 | 2017 |
| The basal ganglia is necessary for learning spectral, but not temporal, features of birdsong F Ali, TM Otchy, C Pehlevan, AL Fantana, Y Burak, BP Ölveczky Neuron 80 (2), 494-506, 2013 | 153 | 2013 |
| Monte Carlo analysis of obstructed diffusion in three dimensions: application to molecular diffusion in organelles BP Ölveczky, AS Verkman Biophysical journal 74 (5), 2722-2730, 1998 | 141 | 1998 |
| The basal ganglia control the detailed kinematics of learned motor skills AK Dhawale, SBE Wolff, R Ko, BP Ölveczky Nature neuroscience 24 (9), 1256-1269, 2021 | 138* | 2021 |
| Continuous whole-body 3D kinematic recordings across the rodent behavioral repertoire JD Marshall, DE Aldarondo, TW Dunn, WL Wang, GJ Berman, ... Neuron 109 (3), 420-437. e8, 2021 | 120 | 2021 |
| Mapping fluorophore distributions in three dimensions by quantitative multiple angle-total internal reflection fluorescence microscopy BP Olveczky, N Periasamy, AS Verkman Biophysical journal 73 (5), 2836-2847, 1997 | 115 | 1997 |