Human Visual System involves macroscopic scaleinvariants and microscopic quantum mechanics single-photon sensitivity

MOJ Applied Bionics and Biomechanics Pub Date : 2022-08-23 DOI:10.15406/mojabb.2022.06.00162

H. Szu

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Abstract

“A half Century has gone by; the general public seems to be lacking a simple Readers’ Digest knowledge about human visual system (HVS). In order to ward off wolf eyesight emitting few photons in a dark cavern, we have evolved to separate the energy from the information, as well as adopt the negation of the converse detection logic. To achieve the sensitivity, HVS uses the dark (no light yet) current, discovered by NIH Hagins, to inhibit 100 rods' bundled together by Ganglion integrator by using its own energy firing. We have applied the dark current to inhibit firing, until a detection of a single photon of wolf eyesight by any of the rod bundle. In this short communication, we shall give 2 theorems: macroscopic scale invariants and microscopic quantum mechanics. Now we know why we can see red color while the other animal cannot and why we can detect a single photon while the other cannot. Given the basic deep learning algorithm and possible experiments to verify Quantum Mechanics Uncertainty Principle for HVS single photon detection capability according to the Gold Standard: Double Blind, Negative Control and Sufficient Statistics.”

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人类视觉系统涉及宏观尺度不变量和微观量子力学单光子敏感性

“半个世纪过去了;普通大众似乎缺乏关于人类视觉系统(HVS)的简单读者文摘知识。为了避免狼的视力在黑暗的洞穴中发出很少的光子，我们已经进化到将能量从信息中分离出来，并采用反向检测逻辑的否定。为了达到这种灵敏度，HVS使用由NIH Hagins发现的暗电流(还没有光)，通过自身的能量发射来抑制由神经节整合器捆绑在一起的100个杆。我们使用暗电流来抑制发射，直到任何一个杆状束检测到狼视力的单个光子。在这个简短的交流中，我们将给出两个定理:宏观尺度不变量和微观量子力学。现在我们知道为什么我们能看到红色，而其他动物不能，为什么我们能探测到单个光子，而其他动物不能。根据双盲、负控制和充分统计的黄金标准，给出了基本的深度学习算法和可能的实验来验证量子力学不确定性原理对HVS单光子探测能力的影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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MOJ Applied Bionics and Biomechanics

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