stereography
简明释义
英[ˌsterɪˈɒɡrəfi]美[ˌsterɪˈɑːɡrəfi]
n. 立体平画法;立体摄影术
英英释义
单词用法
立体投影 | |
立体图像 | |
立体图像软件 | |
三维立体图像 | |
创建立体图像 | |
分析立体图像数据 | |
立体图像可视化 | |
应用立体图像方法 |
同义词
反义词
例句
1.The expressions of both FGFR1 and FGFR2 increased gradually with kidney development shown by computerized densitometry, stereography and Western blot.
图像分析结果显示,随着肾脏的发育,FGFR1、FGFR2表达逐渐增高。
2.The expressions of both FGFR1 and FGFR2 increased gradually with kidney development shown by computerized densitometry, stereography and Western blot.
图像分析结果显示,随着肾脏的发育,FGFR1、FGFR2表达逐渐增高。
3.The science of stereography involves capturing images from two slightly different angles.
立体绘图的科学涉及从两个略微不同的角度捕捉图像。
4.Learning about stereography can enhance your understanding of depth perception.
学习立体绘图可以增强你对深度感知的理解。
5.Many modern films utilize stereography to immerse viewers in the story.
许多现代电影利用立体绘图让观众沉浸在故事中。
6.The artist used stereography to create a three-dimensional effect in his paintings.
这位艺术家使用立体绘图在他的画作中创造了三维效果。
7.In the field of virtual reality, stereography plays a crucial role in enhancing user experience.
在虚拟现实领域,立体绘图在增强用户体验方面起着至关重要的作用。
作文
In the realm of visual arts and technology, stereography plays a crucial role in enhancing our perception of depth and space. stereography refers to the technique of creating the illusion of three-dimensionality on a two-dimensional surface. This artistic and scientific practice has evolved significantly over the years, from its early beginnings to the advanced digital technologies we have today. Understanding stereography is essential for artists, photographers, and anyone interested in visual representation.The origins of stereography can be traced back to the 19th century when pioneers like Sir David Brewster and Charles Wheatstone began experimenting with binocular vision. They discovered that by presenting two slightly different images to each eye, the brain could merge them into a single three-dimensional image. This principle laid the groundwork for modern stereography, which is now widely used in various fields, including film, gaming, and virtual reality.One of the most significant applications of stereography is in photography. Stereoscopic photography involves taking two photographs of the same scene from slightly different angles, mimicking the way human eyes perceive depth. When viewed through a stereoscope or specialized glasses, these images create a powerful sense of immersion. This technique was especially popular in the late 1800s and early 1900s, with stereoscopic viewers becoming common household items.In contemporary times, stereography has taken on new dimensions with the advent of 3D cinema and virtual reality. Filmmakers utilize advanced cameras and editing techniques to produce films that engage audiences in a more profound way. The use of stereography in movies allows viewers to feel as though they are part of the action, experiencing the story in a way that traditional filmmaking cannot achieve.Moreover, the rise of virtual reality (VR) has revolutionized the application of stereography. VR headsets create an immersive environment where users can explore and interact with a three-dimensional space. This technology relies heavily on stereography principles to provide a realistic experience, making it a valuable tool for education, training, and entertainment.Understanding the principles of stereography also enhances our appreciation of art. Artists who master this technique can create works that challenge our perceptions and invite us to see the world in new ways. Whether through painting, sculpture, or digital media, the ability to manipulate depth and perspective can lead to captivating and thought-provoking pieces.In conclusion, stereography is a fascinating field that combines art and science to create depth and dimension in visual representations. From its historical roots to its modern applications in photography, film, and virtual reality, stereography continues to evolve and shape the way we perceive the world around us. As technology advances, the possibilities for stereography are endless, promising exciting developments in how we create and experience visual content. By understanding and mastering stereography, we open ourselves up to a richer, more immersive understanding of art and visual communication.
在视觉艺术和技术领域,立体图形学在增强我们对深度和空间的感知方面起着至关重要的作用。立体图形学指的是在二维表面上创造三维幻觉的技术。这种艺术和科学实践多年来经历了显著的发展,从早期的起源到我们今天拥有的先进数字技术。理解立体图形学对于艺术家、摄影师以及任何对视觉表现感兴趣的人来说都是至关重要的。立体图形学的起源可以追溯到19世纪,当时像大卫·布鲁斯特爵士和查尔斯·惠斯通这样的先锋开始实验双眼视觉。他们发现,通过向每只眼睛呈现两个略微不同的图像,大脑可以将它们合并为一个单一的三维图像。这一原理为现代立体图形学奠定了基础,而现代立体图形学现在广泛应用于电影、游戏和虚拟现实等多个领域。立体图形学最重要的应用之一是在摄影中。立体摄影涉及从稍微不同的角度拍摄同一场景的两张照片,模拟人眼感知深度的方式。当通过立体镜或专用眼镜观看时,这些图像会产生强烈的沉浸感。这种技术在19世纪末和20世纪初尤其流行,立体观众成为家庭常见物品。在当代,随着3D电影和虚拟现实的出现,立体图形学获得了新的维度。电影制作人利用先进的摄影机和编辑技术制作出能够更深层次吸引观众的影片。电影中使用立体图形学使观众感觉自己是动作的一部分,以一种传统电影无法实现的方式体验故事。此外,虚拟现实(VR)的兴起彻底改变了立体图形学的应用。VR头戴设备创造了一个沉浸式环境,用户可以探索和与三维空间互动。这项技术严重依赖于立体图形学的原理,以提供逼真的体验,使其成为教育、培训和娱乐的宝贵工具。理解立体图形学的原理也增强了我们对艺术的欣赏。掌握这一技术的艺术家可以创作出挑战我们感知并邀请我们以新方式看待世界的作品。无论是通过绘画、雕塑还是数字媒体,操控深度和透视的能力都能导致引人入胜和发人深省的作品。总之,立体图形学是一个迷人的领域,将艺术和科学结合在一起,在视觉表现中创造深度和维度。从历史根源到在摄影、电影和虚拟现实中的现代应用,立体图形学不断发展,并塑造着我们对周围世界的感知。随着技术的进步,立体图形学的可能性是无穷无尽的,承诺在我们创造和体验视觉内容的方式上带来激动人心的发展。通过理解和掌握立体图形学,我们打开了对艺术和视觉传播更丰富、更沉浸的理解。