Ahmad Yoonessi, PhD
Affiliations: | Neuroscience | Baylor College of Medicine, Houston, TX |
Area:
Visual System, Vestibular SystemGoogle:
"Ahmad Yoonessi"Mean distance: 14.03 (cluster 17) | S | N | B | C | P |
Parents
Sign in to add mentor| Curtis L. Baker | grad student | McGill | |
| Dora Angelaki | post-doc | Baylor College of Medicine | |
| Curtis L. Baker | post-doc | McGill |
BETA: Related publications
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Publications
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| Buckthought A, Yoonessi A, Baker CL. (2017) Dynamic perspective cues enhance depth perception from motion parallax. Journal of Vision. 17: 10 |
| Yoonessi A, Baker CL. (2014) Boundary segmentation from dynamic occlusion-based motion parallax. Journal of Vision. 14 |
| Yoonessi A, Buckthought A, Baker C. (2014) Depth perception from motion parallax: dependence on texture spatial frequency and orientation Journal of Vision. 14: 737-737 |
| Buckthought A, Yoonessi A, Baker CL. (2014) Dynamic perspective cues enhance depth from motion parallax Journal of Vision. 14: 734-734 |
| Yoonessi A, Baker CL. (2013) Depth perception from dynamic occlusion in motion parallax: roles of expansion-compression versus accretion-deletion. Journal of Vision. 13 |
| Yoonessi A, Baker C. (2012) Gaze behavior during motion parallax. Journal of Vision. 12: 1008-1008 |
| Arsenault E, Yoonessi A, Baker C. (2011) Higher order texture statistics impair contrast boundary segmentation. Journal of Vision. 11: 14 |
| Yoonessi A, Baker CL. (2011) Contribution of motion parallax to segmentation and depth perception. Journal of Vision. 11: 13 |
| Yoonessi A, Baker CL. (2011) Segmentation and Depth from motion parallax induced dynamic occlusion F1000research. 11: 62-62 |
| Li G, Talebi V, Yoonessi A, et al. (2010) A FPGA real-time model of single and multiple visual cortex neurons. Journal of Neuroscience Methods. 193: 62-6 |