Brett Fajen
Affiliations: | Rensselaer Polytechnic Institute, Troy, NY, United States |
Area:
VisionWebsite:
http://www.cogsci.rpi.edu/pandalabs/people/fajen.htmlGoogle:
"Brett Fajen"Mean distance: 15.31 (cluster 23) | S | N | B | C | P |
Parents
Sign in to add mentor| Michael T. Turvey | grad student | Haskins Laboratories | |
| William H. Warren | post-doc | Brown |
Children
Sign in to add trainee| Kyle Christopher McDermott | research assistant | 2002-2002 | RPI |
| Gabe J. Diaz | grad student | RPI | |
| Gabriel Diaz | grad student | 2010 | RPI |
| Gabriel J Diaz | grad student | 2004-2010 | RPI |
| Romann M. Weber | grad student | 2013 | RPI |
| Jonathan S. Matthis | grad student | 2014 | RPI |
| Oliver W. Layton | post-doc | 2014- | RPI |
Collaborators
Sign in to add collaborator| Numa BASILIO | collaborator | ||
| Flip Phillips | collaborator | RPI | |
| Antoine HP MORICE | collaborator | 2015- |
BETA: Related publications
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Publications
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| Yang Z, Diaz GJ, Fajen BR, et al. (2023) A neural active inference model of perceptual-motor learning. Frontiers in Computational Neuroscience. 17: 1099593 |
| Layton OW, Parade MS, Fajen BR. (2023) The accuracy of object motion perception during locomotion. Frontiers in Psychology. 13: 1068454 |
| Layton OW, Fajen BR. (2022) Distributed encoding of curvilinear self-motion across spiral optic flow patterns. Scientific Reports. 12: 13393 |
| Layton OW, Powell N, Steinmetz ST, et al. (2022) Estimating curvilinear self-motion from optic flow with a biologically inspired neural system. Bioinspiration & Biomimetics. 17 |
| Steinmetz ST, Layton OW, Powell NV, et al. (2022) A Dynamic Efficient Sensory Encoding Approach to Adaptive Tuning in Neural Models of Optic Flow Processing. Frontiers in Computational Neuroscience. 16: 844289 |
| Steinmetz ST, Layton OW, Powell NV, et al. (2020) Affordance-based versus current-future accounts of choosing whether to pursue or abandon the chase of a moving target. Journal of Vision. 20: 8 |
| Steinmetz S, Layton O, Powell N, et al. (2020) Self-regulating neural mechanisms for self-motion estimation from optic flow Journal of Vision. 20: 1212 |
| Layton OW, Fajen BR. (2019) Computational Mechanisms for Perceptual Stability using Disparity and Motion Parallax. The Journal of Neuroscience : the Official Journal of the Society For Neuroscience |
| Barton SL, Matthis JS, Fajen BR. (2019) Control strategies for rapid, visually guided adjustments of the foot during continuous walking. Experimental Brain Research |
| Steinmetz ST, Layton OW, Browning NA, et al. (2019) An integrated neural model of robust self-motion and object motion perception in visually realistic environments Journal of Vision. 19: 294a |