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Depth Perception and Spatial Vision01:15

Depth Perception and Spatial Vision

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Depth perception is the ability to perceive objects three-dimensionally. It relies on two types of cues: binocular and monocular. Binocular cues depend on the combination of images from both eyes and how the eyes work together. Since the eyes are in slightly different positions, each eye captures a slightly different image. This disparity between images, known as binocular disparity, helps the brain interpret depth. When the brain compares these images, it determines the distance to an object.
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Vision01:24

Vision

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Vision is the result of light being detected and transduced into neural signals by the retina of the eye. This information is then further analyzed and interpreted by the brain. First, light enters the front of the eye and is focused by the cornea and lens onto the retina—a thin sheet of neural tissue lining the back of the eye. Because of refraction through the convex lens of the eye, images are projected onto the retina upside-down and reversed.
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Accessory Structures of the Eye01:17

Accessory Structures of the Eye

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Optical perception, or vision, is an extraordinary sense dependent on converting light signals received via the ocular organs. These organs, known as eyes, are securely positioned within the bony cavities of the skull, called orbits. The orbits serve a dual purpose: a protective shield for the ocular globes and a stable attachment point for the soft ocular tissues. The eye's external protective mechanisms include the eyelids, which are edged with lashes that act as a barrier against foreign...
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Visual System01:26

Visual System

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Light enters the eye through the cornea, a transparent, dome-shaped surface covering the surface of the eyeball that helps to direct and focus incoming light. This light is then channeled toward the pupil, an adjustable opening whose size is controlled by the iris. The iris, a pigmented muscle, regulates the amount of light entering the eye by contracting or dilating the pupil, thereby ensuring optimal light levels for clear vision.
Once through the pupil, the light passes through the lens, a...
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相关实验视频

Updated: May 10, 2025

Assessing Binocular Central Visual Field and Binocular Eye Movements in a Dichoptic Viewing Condition
07:45

Assessing Binocular Central Visual Field and Binocular Eye Movements in a Dichoptic Viewing Condition

Published on: July 21, 2020

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有证据表明,在单眼动态视觉模式下,上层骨之间存在推拉相互作用.

Rita Gil1, Mafalda Valente1, Francisca F Fernandes1

  • 1Champalimaud Research, Champalimaud Foundation, Lisbon, Portugal.

Communications biology
|April 22, 2025
PubMed
概括
此摘要是机器生成的。

这项研究揭示了动态视觉中的推拉机制,其中视觉信号在一个上层结晶体 (SC) 中被抑制,在另一个中被放大. 这突出了形形通路中的新型频率依赖调制.

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Author Spotlight: Unveiling Neural Coding and Mechanisms of Visual Processing in the Superior Colliculus
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Investigating the Deployment of Visual Attention Before Accurate and Averaging Saccades via Eye Tracking and Assessment of Visual Sensitivity
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Investigating the Deployment of Visual Attention Before Accurate and Averaging Saccades via Eye Tracking and Assessment of Visual Sensitivity

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相关实验视频

Last Updated: May 10, 2025

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Author Spotlight: Unveiling Neural Coding and Mechanisms of Visual Processing in the Superior Colliculus
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Author Spotlight: Unveiling Neural Coding and Mechanisms of Visual Processing in the Superior Colliculus

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Investigating the Deployment of Visual Attention Before Accurate and Averaging Saccades via Eye Tracking and Assessment of Visual Sensitivity
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科学领域:

  • 神经科学是一个神经科学.
  • 视觉感知 视觉感知 视觉感知
  • 系统神经科学 系统神经科学

背景情况:

  • 视觉感知以静态和动态模式运行,与上结核 (SC) 中独特的神经活动有关.
  • 路径范围内的机制,特别是动态视觉和连续性错觉期间的皮质结构和质结构反,是不太了解的.

研究的目的:

  • 在动态视觉模式下调查全路神经相互作用.
  • 在连续性错觉编码过程中阐明皮质结构和质结构反的机制.

主要方法:

  • 使用功能性MRI (fMRI) 与老鼠大脑病变一起使用.
  • 通过视觉通路检查神经活动和相互作用.

主要成果:

  • 确定了一种推拉机制:在单眼刺激过程中对抗双侧神经激活的SC活动的逆侧抑制.
  • 皮层病变证实了皮层放大.
  • 侧SC病变增强了对侧SC的负信号,这表明推拉相互作用的构造起源.
  • 发现了在形形通路中依赖频率的调制.

结论:

  • 动态视觉中的推拉相互作用起源于纹体.
  • 形形通路表现出频率依赖的调制.
  • 挑战了这样一种观点,即互连接仅仅抑制了在动过程中的视觉模糊.