stereogram

简明释义

英[ˈsteriəɡræm]美[ˈstɪərɪoˈɡræm]

n. 立体图；体视图；多边形；立体照片

英英释义

单词用法

同义词

反义词

例句

1.The automatic wood recognition is studied in this paper through wood stereogram for its convenient way to obtain.

本文基于获取便捷的木材体视图进行木材树种自动识别研究。

2.Results Comparing the results of random dot stereogram displayed in single and double-screen with that in TNO stereogram, significant difference was not found.

结果双屏及单屏显示计算机仿t NO随机点立体视检查图和TNO检查结果比较差异无统计学意义。

3.The result of stereoacuity testing in the static random-dot stereogram may be affect by the texture of the background.

静态随机点立体图中背景图质地可影响立体视的检测结果。

4.In this paper, the theory foundations of computer 3d stereogram are given, according to d.

本文介绍了计算机三维立体图体视产生的理论基础，根据d。

5.Now you understand the theory of stereogram, let's try to see them!

现在你理解了立体图的原因，让我们试着理解。

6.Results Comparing the results of random dot stereogram displayed in single and double-screen with that in TNO stereogram, significant difference was not found.

结果双屏及单屏显示计算机仿t NO随机点立体视检查图和TNO检查结果比较差异无统计学意义。

7.This paper mainly introduces the structure and photo-principle of the Icnticnlar raster, and discusses shoot and composite of the stereogram.

本文主要介绍了柱透镜光栅片的结构及其成像原理。讨论了立体照片的拍摄和合成。

8.Objective To study the effect of random-dot stereogram texture on stereotest for anisometropic children, and provide the basis for the stereogram probation.

目的探讨不同质地随机点立体视图对屈光参差立体视检查的影响，为研制立体视图提供依据。

9.To see the 3D effect of the stereogram 立体图, you need to relax your eyes.

要看到stereogram 立体图的3D效果，你需要放松你的眼睛。

10.The artist created an amazing stereogram 立体图 that changes when viewed from different angles.

这位艺术家创作了一幅惊人的stereogram 立体图，从不同角度观看时会发生变化。

11.In our art class, we learned how to create our own stereograms 立体图 using digital tools.

在我们的艺术课上，我们学习了如何使用数字工具创建自己的stereograms 立体图。

12.I found a fascinating stereogram 立体图 in the museum that revealed a hidden image.

我在博物馆发现了一幅迷人的stereogram 立体图，它展示了一个隐藏的图像。

13.I enjoy solving puzzles, and stereograms 立体图 are my favorite type.

我喜欢解谜，而stereograms 立体图是我最喜欢的类型。

作文

The world of visual art is filled with various techniques that captivate and engage the viewer. One such fascinating technique is the creation of a stereogram, which is an optical illusion designed to create the perception of a three-dimensional (3D) image from a two-dimensional (2D) image. This unique form of art has intrigued many people, leading them to explore the depths of their visual perception and cognitive abilities. In this essay, I will delve into the concept of stereogram and its significance in both art and science.A stereogram typically consists of a repeating pattern or a random dot matrix that conceals a hidden 3D image. When viewed correctly, the brain interprets the spatial relationships between the dots and translates them into a 3D shape. This process of depth perception occurs because our eyes are spaced apart, allowing us to see slightly different images from each eye. The brain combines these images to create a sense of depth, which is the fundamental principle behind how stereograms work.The history of stereograms can be traced back to the 19th century when the first stereoscopic images were created. These early images used two photographs taken from slightly different angles to achieve a 3D effect when viewed through a special device called a stereoscope. Over time, artists and scientists began to experiment with different ways to create the illusion of depth without the need for specialized equipment. This experimentation led to the development of modern stereograms, which can be viewed with the naked eye.One of the most remarkable aspects of stereograms is their ability to challenge the viewer's perception. Many people find it difficult to see the hidden 3D image at first, leading to a sense of frustration. However, once the viewer learns how to relax their eyes and focus correctly, the 3D image often emerges suddenly, creating a moment of surprise and delight. This experience highlights the complexity of human vision and the brain's role in interpreting visual stimuli.In addition to their artistic appeal, stereograms have practical applications in various fields. For instance, they are used in scientific research to study depth perception and visual processing in the human brain. Psychologists and neuroscientists utilize stereograms to understand how individuals perceive depth and distance, which can provide insights into conditions such as amblyopia or strabismus.Moreover, stereograms have also found their way into the realm of entertainment and technology. They have been incorporated into video games and virtual reality experiences, enhancing the immersive quality of these mediums. By utilizing the principles of stereograms, developers can create environments that feel more realistic and engaging for players.In conclusion, the stereogram is a remarkable example of how art and science intersect to create a unique visual experience. Its ability to challenge our perception and evoke a sense of wonder makes it a captivating subject for exploration. As we continue to study and appreciate stereograms, we gain a deeper understanding of the intricacies of human vision and the endless possibilities of artistic expression. Whether you are an artist, a scientist, or simply someone who enjoys visual puzzles, stereograms offer a delightful journey into the world of three-dimensional imagery.

视觉艺术的世界充满了各种技术，吸引并吸引着观众。其中一种迷人的技术是创建立体图，这是一种光学幻觉，旨在从二维图像中创造出三维（3D）图像的感知。这种独特的艺术形式吸引了许多人，促使他们探索视觉感知和认知能力的深度。在这篇文章中，我将深入探讨立体图的概念及其在艺术和科学中的重要性。立体图通常由一个重复的图案或随机点阵组成，隐藏了一个三维图像。当正确观看时，大脑会解释点之间的空间关系，并将其转化为3D形状。深度感知的这一过程发生是因为我们的眼睛相距一定距离，使我们能够从每只眼睛看到略微不同的图像。大脑将这些图像结合起来，创造出一种深度感，这是立体图工作原理的基本原则。立体图的历史可以追溯到19世纪，当时首次创建了立体图像。这些早期图像使用从略微不同的角度拍摄的两张照片，通过一种叫做立体镜的特殊设备实现3D效果。随着时间的推移，艺术家和科学家开始实验不同的方法，以在不需要专用设备的情况下创建深度的幻觉。这种实验导致了现代立体图的发展，可以用裸眼观看。立体图最显著的方面之一是它们挑战观众的感知能力。许多人发现一开始很难看到隐藏的3D图像，这导致了一种挫败感。然而，一旦观众学会如何放松眼睛并正确聚焦，3D图像往往会突然出现，创造出惊讶和愉悦的时刻。这种体验突显了人类视觉的复杂性以及大脑在解释视觉刺激中的作用。除了艺术吸引力外，立体图在各个领域也有实际应用。例如，它们被用于科学研究，以研究人类大脑中的深度感知和视觉处理。心理学家和神经科学家利用立体图来理解个体如何感知深度和距离，这可以提供对弱视或斜视等疾病的见解。此外，立体图还进入了娱乐和科技领域。它们已被纳入视频游戏和虚拟现实体验中，增强了这些媒介的沉浸感。通过利用立体图的原理，开发人员可以创建更真实和吸引玩家的环境。总之，立体图是艺术与科学交汇的一个杰出例子，创造出独特的视觉体验。它挑战我们感知的能力并唤起惊奇感，使其成为探索的迷人主题。随着我们继续研究和欣赏立体图，我们对人类视觉的复杂性和艺术表现的无限可能性有了更深入的理解。无论你是艺术家、科学家，还是仅仅喜欢视觉难题的人，立体图都提供了一个令人愉快的三维图像之旅。