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Recognition and Perception of Images


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[Pepperell, 2019].

      It has been found that different regions of the brain including not only the frontal but also the motional and parietal cortical layers take part in the valuation of perceivable stimuli. It is necessary to admit that the prefrontal dorsolateral brain cortex is selectively activated by the only stimuli considered to be attractive. At the same time, the prefrontal activity is generally activated during the valuation of both pleasant and unpleasant stimuli. The value of research is that the neuroelectric visualization may be used for receiving useful information relating to the evolution of the aesthetic view of people who perceive the images from simple stimuli to the works of art.

      The work of [Tikhomirov et al., 2018] is dedicated to the study of agnosia of visual objects to determine the pathologies of the brain. The visual agnosia has arisen in the case of damage of brain cortex structure responsible for the analysis and synthesis of information thus leading to the violation of the perceptual process and recognition of visual stimuli. The contemporary views about the neuroanatomical and neurophysiological basis of the visual process are described. The medical cases of visual objects agnosia and peculiarities of neuropsycological diagnostics and post-hospital rehabilitation of patients are presented.

      Furthermore, we’ll analyze some main concepts relating to the biological evolution of organs of visual sensing, the structural features of the human eye as well as the process of processing and perception of visual information by the brain.

Schematic illustration of the examples of interactive realization of basic test models: (а) Wundt’s method; (b) interference test by Stroop’s method; (c) test by Gottschaldt figures.

      1.1.2 Light Perception

      A compound eye is effective for detecting closely spaced objects. The eyes of vertebrates, in contrast to the complex eyes, are perfectly visible at a great distance. The eye of each biological species is maximally adapted to the conditions of its natural habitat and way of life activity.

      1.1.3 Vertebrate Eye Anatomy

Schematic illustration of the structure of the compound eye of a fly.

      The eyeball is located in the deepening of the skull, and has a spherical shape with a diameter of about 20 mm. Outside the eyeball is covered with sclera, a white opaque sheath about 1 mm thick. On the front surface of the eye, the sclera enters the transparent membrane – the cornea. The curved surface of the cornea provides the necessary refractive index (refraction) in the optical system of the eye. It has no blood vessels, it receives nutrients from the capillaries and liquids surrounding it. Light rays are refracted on the cornea and focused by a lens on the retina, located on the back of the eyeball. The vascular membrane of the eye is associated with the sclera, has a thickness of 0.2 mm, and consists of blood vessels that feed the eyes.

      The anterior part of the choroid is a colored concentric disc called the iris. From a biological point of view, the iris contains a landscape filled with rings, dashes, specks; each person has more than 200 individual distinguishing features. The iris is a disc-shaped, colored membrane consisting of two smooth muscles, located between the cornea and the lens [Fershild, 2004].

Schematic illustration of the Vertical section of the human eye.

      Usually the pupil responds to changes in illumination reflexively; bright irritating light causes Witt’s reflex (described by physiologist Robert Witt in 1751). Witt’s reflex is used to diagnose diseases of the central nervous system, as well as to determine signs of life in a person during rescue operations.

      The human pupil is round, but the pupils of some species may have a different shape. The pupils of the cat’s eyes are in the form of a vertical slit, and nocturnal animals (including crocodiles) have such pupils. Nocturnal animals also have a retinal layer, called tapetum (lat. tapete – carpet). It reflects part of the light that enters the eye. It is the reflection of light from the tapetum that causes the eyes to “glow” at night. In the dark, we notice well the “glowing”