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An image reconstruction framework for characterizing initial visual encoding

Ling-Qi Zhang, Nicolas P Cottaris, David H Brainard

2022eLife14 citationsDOIOpen Access PDF

Abstract

We developed an image-computable observer model of the initial visual encoding that operates on natural image input, based on the framework of Bayesian image reconstruction from the excitations of the retinal cone mosaic. Our model extends previous work on ideal observer analysis and evaluation of performance beyond psychophysical discrimination, takes into account the statistical regularities of the visual environment, and provides a unifying framework for answering a wide range of questions regarding the visual front end. Using the error in the reconstructions as a metric, we analyzed variations of the number of different photoreceptor types on human retina as an optimal design problem. In addition, the reconstructions allow both visualization and quantification of information loss due to physiological optics and cone mosaic sampling, and how these vary with eccentricity. Furthermore, in simulations of color deficiencies and interferometric experiments, we found that the reconstructed images provide a reasonable proxy for modeling subjects' percepts. Lastly, we used the reconstruction-based observer for the analysis of psychophysical threshold, and found notable interactions between spatial frequency and chromatic direction in the resulting spatial contrast sensitivity function. Our method is widely applicable to experiments and applications in which the initial visual encoding plays an important role.

Topics & Concepts

Computer scienceArtificial intelligenceObserver (physics)Computer visionIterative reconstructionEncoding (memory)VisualizationHuman visual system modelSpatial frequencyPattern recognition (psychology)Chromatic scaleContrast (vision)Bayesian probabilityPsychophysicsVisual perceptionImage (mathematics)Image processingRange (aeronautics)Spatial analysisHuman eyeGround truthBayesian inferenceImage resolutionCategorizationInterferometry3D reconstructionStatistical modelColor visionSensitivity (control systems)Visual perception and processing mechanismsRetinal Development and DisordersCCD and CMOS Imaging Sensors