Related Experiment Videos
Summary
Human spatial visual channels are not separable by spatial frequency and orientation. These channels act as elongated wave-packets, optimizing joint information resolution in 2D space and frequency domains.
Related Concept Videos
You might also read
Related Articles
Articles linked to this work by shared authors, journal, and citation graph.
Sort by
Same author
Demodulation, predictive coding, and spatial vision.
Journal of the Optical Society of America. A, Optics, image science, and vision·1995
Same author
Pattern and motion vision without Laplacian zero crossings.
Journal of the Optical Society of America. A, Optics and image science·1988
Same author
Uncertainty relation for resolution in space, spatial frequency, and orientation optimized by two-dimensional visual cortical filters.
Journal of the Optical Society of America. A, Optics and image science·1985
Same author
Visual plasticity as revealed in the two-dimensional modulation transfer function of a meridional amblyope.
Human neurobiology·1983
Same author
Amblyopic contrast sensitivity: insensitivity to unsteady fixation.
Investigative ophthalmology & visual science·1982
Same author
Two-dimensional spectral analysis of cortical receptive field profiles.
Vision research·1980
Same journal
Computational and mathematical models in vision: Quantitative approaches to understanding visual perception.
Vision research·2026
Same journal
Complex interactions between lightness, chroma, and hue in color ensemble perception.
Vision research·2026
Same journal
Driving with autism spectrum disorder: Exploring the impact of tactile hazard warnings on gaze behavior and hazard responses.
Vision research·2026
Same journal
Early visual processing in adults with ADHD: evidence from contrast sensitivity, spatial integration, and external noise.
Vision research·2026
Same journal
Pupil reflexes generate the peripheral drift illusion due to ON/OFF motion responses.
Vision research·2026
Same journal
Perceived direction of glass patterns can flip by 90°: A neural model.
Vision research·2026