Optical superresolution and visual hyperacuity.

Classically, diffraction theory sets a boundary for the resolving capacity of optical instruments. Yet some visual thresholds have values much better than the traditional resolution limit. Recent developments in superresolution, an area of optical physics and engineering with claims of transcending the stated resolution limits of optical instruments, are reviewed and their possible relevance to visual spatial processing and to the exploration of the eye's structure are assessed. In optical or diffractive superresolution the transmitted spatial-frequency band is not so much extended as either multiplexed with or displaced into regions that are usually beyond reach, with no overall gain in information transfer because prior knowledge is used to make inferences of possible object structure from the image. The Uncertainty Principle for photon position and momentum is never disobeyed. The study of the neural substrate of visual hyperacuity does, however, overlap that of "geometrical superresolution," in which techniques are used for transcending limits imposed by the receptor lattice in analyzing fine image structure.