Dynamic reconfiguration of human brain networks during learning DS Bassett, NF Wymbs, MA Porter, PJ Mucha, JM Carlson, ST Grafton Proceedings of the National Academy of Sciences 108 (18), 7641-7646, 2011 | 1835 | 2011 |
Learning-induced autonomy of sensorimotor systems DS Bassett, M Yang, NF Wymbs, ST Grafton Nature neuroscience 18 (5), 744-751, 2015 | 633 | 2015 |
Robust detection of dynamic community structure in networks DS Bassett, MA Porter, NF Wymbs, ST Grafton, JM Carlson, PJ Mucha Chaos: An Interdisciplinary Journal of Nonlinear Science 23 (1), 2013 | 546 | 2013 |
Task-based core-periphery organization of human brain dynamics DS Bassett, NF Wymbs, MP Rombach, MA Porter, PJ Mucha, ST Grafton PLoS computational biology 9 (9), e1003171, 2013 | 401 | 2013 |
Differential recruitment of the sensorimotor putamen and frontoparietal cortex during motor chunking in humans NF Wymbs, DS Bassett, PJ Mucha, MA Porter, ST Grafton Neuron 74 (5), 936-946, 2012 | 293 | 2012 |
Neural correlates of conflict processing R West, K Jakubek, N Wymbs, M Perry, K Moore Experimental brain research 167, 38-48, 2005 | 202 | 2005 |
Graph frequency analysis of brain signals W Huang, L Goldsberry, NF Wymbs, ST Grafton, DS Bassett, A Ribeiro IEEE journal of selected topics in signal processing 10 (7), 1189-1203, 2016 | 189 | 2016 |
Motor skills are strengthened through reconsolidation NF Wymbs, AJ Bastian, PA Celnik Current Biology 26 (3), 338-343, 2016 | 92 | 2016 |
The human motor system supports sequence-specific representations over multiple training-dependent timescales NF Wymbs, ST Grafton Cerebral cortex 25 (11), 4213-4225, 2015 | 81 | 2015 |
Cross-linked structure of network evolution DS Bassett, NF Wymbs, MA Porter, PJ Mucha, ST Grafton Chaos: An Interdisciplinary Journal of Nonlinear Science 24 (1), 2014 | 81 | 2014 |
Dynamic network centrality summarizes learning in the human brain AV Mantzaris, DS Bassett, NF Wymbs, E Estrada, MA Porter, PJ Mucha, ... Journal of Complex Networks 1 (1), 83-92, 2013 | 80 | 2013 |
Effects of intention load and background context on prospective remembering: An event‐related brain potential study R West, N Wymbs, K Jakubek, RW Herndon Psychophysiology 40 (2), 260-276, 2003 | 65 | 2003 |
Predicting future learning from baseline network architecture MG Mattar, NF Wymbs, AS Bock, GK Aguirre, ST Grafton, DS Bassett NeuroImage 172, 107-117, 2018 | 64 | 2018 |
Brain state flexibility accompanies motor-skill acquisition PG Reddy, MG Mattar, AC Murphy, NF Wymbs, ST Grafton, ... NeuroImage 171, 135-147, 2018 | 60 | 2018 |
Individual differences in neural regions functionally related to real and imagined stuttering NF Wymbs, RJ Ingham, JC Ingham, KE Paolini, ST Grafton Brain and language 124 (2), 153-164, 2013 | 60 | 2013 |
Neural substrates of practice structure that support future off-line learning NF Wymbs, ST Grafton Journal of Neurophysiology 102 (4), 2462-2476, 2009 | 60 | 2009 |
Is detecting prospective cues the same as selecting targets? An ERP study R West, N Wymbs Cognitive, Affective, & Behavioral Neuroscience 4 (3), 354-363, 2004 | 60 | 2004 |
Multifaceted aspects of chunking enable robust algorithms DE Acuna, NF Wymbs, CA Reynolds, N Picard, RS Turner, PL Strick, ... Journal of neurophysiology 112 (8), 1849-1856, 2014 | 58 | 2014 |
Beyond modularity: Fine-scale mechanisms and rules for brain network reconfiguration AN Khambhati, MG Mattar, NF Wymbs, ST Grafton, DS Bassett NeuroImage 166, 385-399, 2018 | 56 | 2018 |
Cohesive network reconfiguration accompanies extended training QK Telesford, A Ashourvan, NF Wymbs, ST Grafton, JM Vettel, DS Bassett Human brain mapping 38 (9), 4744-4759, 2017 | 55 | 2017 |