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1 February 1982 Towards A Complete Model Of Photopic Visual Threshold Performance
I. Overington
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Optical Engineering, Vol. 21, Issue 1, 210102 (February 1982). https://doi.org/10.1117/12.7972850
Abstract
Based on a wide variety of fragmentary evidence taken from psycho-physics, neurophysiology and electron microscopy, it has been possible to put together a very widely applicable conceptual model of photopic visual threshold performance. Such a model is so complex that a single comprehensive mathematical version is excessively cumbersome. It is, however, possible to set up a suite of related mathematical models, each of limited application but strictly known envelope of usage. Such models may be used for assessment of a variety of facets of visual performance when using display imagery, including effects and interactions of image quality, random and discrete display noise, viewing distance, image motion, etc., both for foveal interrogation tasks and for visual search tasks. The specific model may be selected from the suite according to the assessment task in hand. The paper discusses in some depth the major facets of preperceptual visual processing and their interaction with instrumental image quality and noise. It then highlights the statistical nature of visual performance before going on to consider a number of specific mathematical models of partial visual function. Where appropriate, these are compared with widely popular empirical models of visual function.
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I. Overington "Towards A Complete Model Of Photopic Visual Threshold Performance," Optical Engineering 21(1), 210102 (1 February 1982). https://doi.org/10.1117/12.7972850
Published: 1 February 1982
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KEYWORDS
Visualization
Mathematical modeling
Visual process modeling
Performance modeling
Image quality
Motion models
Electron microscopy
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