Human Eye Visual Hyperacuity: A New Paradigm for Sensing?
Adur Lagunas, Oier Dominguez, Susana Martinez-Conde, Stephen L., Macknik, Carlos del-Rio

TL;DR
This paper explores how the human eye's hyperacuity might be enhanced by diffraction effects, proposing a MATLAB-based simulation showing that diffraction can improve image resolution with fewer sensors.
Contribution
It introduces a novel hypothesis that diffraction aids in visual hyperacuity, supported by a simulation demonstrating improved resolution with controlled diffraction patterns.
Findings
Diffraction can enhance image resolution with fewer sensors.
Simulated results outperform non-diffractive systems.
Supports the idea that the eye's hyperacuity benefits from diffraction.
Abstract
The human eye appears to be using a low number of sensors for image capturing. Furthermore, regarding the physical dimensions of cones-photoreceptors responsible for the sharp central vision-, we may realize that these sensors are of a relatively small size and area. Nonetheless, the eye is capable to obtain high resolution images due to visual hyperacuity and presents an impressive sensitivity and dynamic range when set against conventional digital cameras of similar characteristics. This article is based on the hypothesis that the human eye may be benefiting from diffraction to improve both image resolution and acquisition process. The developed method intends to explain and simulate using MATLAB software the visual hyperacuity: the introduction of a controlled diffraction pattern at an initial stage, enables the use of a reduced number of sensors for capturing the image and makes…
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Taxonomy
TopicsCCD and CMOS Imaging Sensors · Image Processing Techniques and Applications · Advanced Vision and Imaging
