Kim F. Fluitt scite author profile

When scanning across a scene, luminance can vary by up to 100,000-to-1 (high dynamic range, HDR), requiring multiple normalizing mechanisms spanning from the retina to the cortex to support visual acuity and recognition. Vision models based on standard dynamic range (SDR) luminance contrast ratios below 100-to-1 have limited ability to generalize to real-world scenes with HDR luminance. To characterize how orientation and luminance are linked in brain mechanisms for luminance normalization, we measured orientation discrimination of Gabor targets under HDR luminance dynamics. We report a novel phenomenon, that abrupt 10-to 100-fold darkening engages contextual facilitation, distorting the apparent orientation of a high-contrast

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Divisive display augmented reality (ddAR) for real-world soldier performance

Hung

Larkin

Geuss

et al. 2020

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Kim F. Fluitt

Auditory Perception in Open Field: Distance Estimation

A 100,000-to-1 high dynamic range (HDR) luminance display for investigating visual perception under real-world luminance dynamics

Auditory Distance Estimation in an Open Space

Abrupt darkening under high dynamic range (HDR) luminance invokes facilitation for high-contrast targets and grouping by luminance similarity

Divisive display augmented reality (ddAR) for real-world soldier performance

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