Abstract
The vitreous humor was examined using LED, one of the non-invasive techniques. An acute-angle flare-out-blasting status with continuous broaden conversion was confirmed by irradiating a certain amount of LED on a round hemisphere. It was judged that twinkle-disparity cognition level (TDCL) was formed by several broaden cognition functions of the scattered signal generated for a few seconds from the irradiated LED. Flare-out-blasting was configured as a system according to the level of cognition, and a rugged conveyance technique was used to confirm the experimental conditions of the twinkle tactile-dot. The degree of scattering caused by the surrounding micro-vessels and foreign substances in the vitreous humor was different according to the tactile-dot level. The maximum average value formed in the flare-out-blasting status was calculated as the result value as a result of the acutely converted output of the TDCL. Broaden tactile-dot blasting presented broaden far transition value of Br-CF-FA-?MAX-AVG with 8.49±(-0.22) units. Broaden convenient transition value presented Br-CF-CO-?MAX-AVG with 2.08±(-0.84) units. Broaden flank transition value presented Br-CF-BR-?MAX-AVG with 1.03±(-0.35) units. Broaden vicinage transition value presented Br-CF-VI-?MAX-AVG with 0.16±(-0.02) units. TDCL formed in the flare-out-blasting status expanded the cognition level to form a tactile-dot. The ability of the broaden cognition function to be scattered according to the acute-angle in the flare-out-blasting function was evaluated. It was confirmed that the twinkle-disparity function necessary for the cognition level system appeared by using a rugged conveyance to examine the vitreous humor with a non-invasive rugged conveyance technique. These physical findings made it possible to characterize broaden cognition function in vitreous humor and laid the based on utilizing flare-out-blasting level data by the flare-out cognition system.
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