stereoscopy

简明释义

英[ˌsterɪˈɒskəpi]美[ˌsteriˈɑːskəpi]

n. 立体视觉，立体观视；体视术，体视法

英英释义

单词用法

同义词

反义词

例句

1.Objective: To study the feasibility of using stereoscopy in identification on Edible Birds Nest (EBN).

目的：研究体视镜在燕窝鉴别中的可行性。

2.Nowadays, the analysis on internal force of structure is based on the hypothesis of plane system, but it can not solve the problem of stereoscopy.

现阶段在工程结构内力分析中，主要是基于平面体系的假设，并不能完全解决结构的空间性问题。

3.Still, "stereoscopy is almost always just an enhancement to the image and the sense of 'immersion,' rather than a true game-changer," she said.

“然而这样的立体感通常只是作为画质和代入感的提升，而没能够引起游戏根本性的变化”她补充道。

4.Stereoscopy, interference and diffraction.

立体，干涉和衍射。

5.Using matrix to process stereoscopy transformation, the program will be more laconic and the simulation system will be more reliable, and its efficiency is higher.

采用体视变换矩阵的方法进行体视变换，可使程序变得更加简洁，提高了模拟系统的效率和可靠性。

6.The method is called complementary color polarization stereoscopy.

因此这种方法被称为补色偏振体视。

7.Like any photography niche, stereoscopy involves a billion little accessories you could spend money on. Special slide mounts, viewers and print mats all clamor for your cash.

就像摄影市场，立体摄影术包含了亿万的可供你破费的配件，特制的幻灯挂架，观看设备和印刷设备都嚷嚷着要你花钱。

8.The qualitative features of soils and the factors interfering soil interpretation were analysed by stereoscopy.

另结合立体观察，分析了各种土壤的定性特征与影响土壤判读的干扰因子。

9.Like any photography niche, stereoscopy involves a billion little accessories you could spend money on. Special slide mounts, viewers and print mats all clamor for your cash.

就像摄影市场，立体摄影术包含了亿万的可供你破费的配件，特制的幻灯挂架，观看设备和印刷设备都嚷嚷着要你花钱。

10.Photographers often experiment with stereoscopy 立体视觉 to create striking 3D effects in their images.

摄影师经常尝试使用stereoscopy 立体视觉在他们的图像中创造引人注目的3D效果。

11.Virtual reality headsets utilize stereoscopy 立体视觉 to enhance the realism of the virtual environment.

虚拟现实头盔利用stereoscopy 立体视觉来增强虚拟环境的真实感。

12.The museum featured a section dedicated to stereoscopy 立体视觉, allowing visitors to experience 3D images of historical artifacts.

博物馆设有一个专门展示stereoscopy 立体视觉的区域，让游客体验历史文物的3D图像。

13.The science class incorporated stereoscopy 立体视觉 to help students visualize complex molecular structures.

科学课上使用了stereoscopy 立体视觉来帮助学生可视化复杂的分子结构。

14.In film production, stereoscopy 立体视觉 is used to create depth in scenes, making the viewing experience more immersive.

在电影制作中，stereoscopy 立体视觉用于在场景中创造深度，使观看体验更加身临其境。

作文

Stereoscopy is a fascinating technique that allows us to perceive depth in images, creating a three-dimensional effect. This method has been around since the 19th century and has evolved significantly over the years. The basic principle of stereoscopy (立体视觉) lies in the way our brains interpret visual information from our two eyes. Each eye views a scene from a slightly different angle, and our brain combines these two perspectives to create a sense of depth. This is similar to how stereoscopy (立体视觉) works, as it presents two slightly offset images to each eye, resulting in a three-dimensional experience.The history of stereoscopy (立体视觉) dates back to the early days of photography. In 1838, Sir Charles Wheatstone invented the stereoscope, a device that allowed users to view pairs of photographs taken from different angles. This invention sparked a wave of interest in three-dimensional imagery, leading to the production of stereoscopic cards that became popular in the late 19th and early 20th centuries. People would gather around stereoscopes in their homes, marveling at the lifelike images that seemed to leap off the cards.With the advent of cinema, stereoscopy (立体视觉) found a new platform for expression. Filmmakers began experimenting with 3D films, using techniques that mimicked the principles of stereoscopy (立体视觉). Movies like "Avatar" and "Jurassic Park" showcased the potential of 3D technology, immersing audiences in stunning visual landscapes. The success of these films led to a resurgence of interest in stereoscopy (立体视觉), with theaters investing in advanced projection systems to enhance the viewing experience.In recent years, virtual reality (VR) has taken stereoscopy (立体视觉) to new heights. VR headsets provide an immersive environment where users can explore virtual worlds as if they were physically present. These devices rely heavily on the principles of stereoscopy (立体视觉) to create a convincing sense of depth, allowing users to interact with their surroundings in ways that were previously unimaginable. As technology continues to advance, the applications of stereoscopy (立体视觉) are expanding beyond entertainment into fields such as education, medicine, and architecture.One of the most exciting aspects of stereoscopy (立体视觉) is its ability to enhance our understanding of complex concepts. In education, for example, 3D models can help students visualize intricate structures, such as the human anatomy or molecular formations. By engaging multiple senses, stereoscopy (立体视觉) fosters deeper learning and retention of information.Moreover, in the medical field, stereoscopy (立体视觉) is being used in surgical simulations and training. Surgeons can practice procedures in a three-dimensional space, improving their skills and confidence before operating on real patients. This innovative approach not only enhances the learning experience but also contributes to better patient outcomes.In conclusion, stereoscopy (立体视觉) is a remarkable technique that has transformed the way we perceive and interact with images. From its origins in the 19th century to its current applications in film, virtual reality, and education, stereoscopy (立体视觉) continues to captivate and inspire. As technology advances, the possibilities for stereoscopy (立体视觉) are limitless, promising to deepen our understanding of the world around us and enhance our experiences in various fields.