Brain areas involved in perception of biological motion E Grossman, M Donnelly, R Price, D Pickens, V Morgan, G Neighbor, ... Journal of cognitive neuroscience 12 (5), 711-720, 2000 | 1204 | 2000 |
Brain areas active during visual perception of biological motion ED Grossman, R Blake Neuron 35 (6), 1167-1175, 2002 | 864 | 2002 |
Brain activity evoked by inverted and imagined biological motion ED Grossman, R Blake Vision research 41 (10-11), 1475-1482, 2001 | 472 | 2001 |
Repetitive TMS over posterior STS disrupts perception of biological motion ED Grossman, L Battelli, A Pascual-Leone Vision research 45 (22), 2847-2853, 2005 | 350 | 2005 |
Concepts are more than percepts: the case of action verbs M Bedny, A Caramazza, E Grossman, A Pascual-Leone, R Saxe Journal of Neuroscience 28 (44), 11347-11353, 2008 | 307 | 2008 |
Learning to see biological motion: brain activity parallels behavior ED Grossman, R Blake, CY Kim Journal of Cognitive Neuroscience 16 (9), 1669-1679, 2004 | 189 | 2004 |
Perception of coherent motion, biological motion and form-from-motion under dim-light conditions ED Grossman, R Blake Vision research 39 (22), 3721-3727, 1999 | 127 | 1999 |
fMR-adaptation reveals invariant coding of biological motion on human STS ED Grossman, NL Jardine, JA Pyles Frontiers in human neuroscience 4, 954, 2010 | 102 | 2010 |
Temporal “Bubbles” reveal key features for point-light biological motion perception SM Thurman, ED Grossman Journal of vision 8 (3), 28-28, 2008 | 98 | 2008 |
Visual perception and neural correlates of novel ‘biological motion’ JA Pyles, JO Garcia, DD Hoffman, ED Grossman Vision research 47 (21), 2786-2797, 2007 | 93 | 2007 |
What constitutes an efficient reference frame for vision? D Tadin, JS Lappin, R Blake, ED Grossman Nature neuroscience 5 (10), 1010-1015, 2002 | 71 | 2002 |
Differential activation patterns of occipital and prefrontal cortices during motion processing: evidence from normal and schizophrenic brains Y Chen, ED Grossman, LC Bidwell, D Yurgelun-Todd, SA Gruber, ... Cognitive, Affective, & Behavioral Neuroscience 8 (3), 293-303, 2008 | 63 | 2008 |
Perceptual and computational analysis of critical features for biological motion SM Thurman, MA Giese, ED Grossman Journal of Vision 10 (12), 15-15, 2010 | 59 | 2010 |
Necessary but not sufficient: Motion perception is required for perceiving biological motion JO Garcia, ED Grossman Vision research 48 (9), 1144-1149, 2008 | 53 | 2008 |
Evoked potentials in large-scale cortical networks elicited by TMS of the visual cortex JO Garcia, ED Grossman, R Srinivasan Journal of Neurophysiology 106 (4), 1734-1746, 2011 | 48 | 2011 |
Functional connectivity in ASD: atypical pathways in brain networks supporting action observation and joint attention E Delbruck, M Yang, A Yassine, ED Grossman Brain research 1706, 157-165, 2019 | 41 | 2019 |
Network connectivity of the right STS in three social perception localizers S Dasgupta, SC Tyler, J Wicks, R Srinivasan, ED Grossman Journal of Cognitive Neuroscience 29 (2), 221-234, 2017 | 40 | 2017 |
Distinct cerebellar regions for body motion discrimination C Ferrari, A Ciricugno, L Battelli, ED Grossman, Z Cattaneo Social cognitive and affective neuroscience 17 (1), 72-80, 2022 | 37 | 2022 |
The pivotal role of the right parietal lobe in temporal attention S Agosta, D Magnago, S Tyler, E Grossman, E Galante, F Ferraro, ... Journal of cognitive neuroscience 29 (5), 805-815, 2017 | 32 | 2017 |
Evidence for a network of brain areas involved in perception of biological motion ED Grossman Human body perception from the inside out, 361-384, 2006 | 32 | 2006 |