stereovision

简明释义

[ˈsterɪəʊˌvɪʒən][ˈstɪərɪoˌvɪʒən]

n. 立体电视;立体观察

英英释义

The ability to perceive depth and three-dimensional structure from visual information, typically achieved by the brain's processing of two slightly different images received from each eye.

通过视觉信息感知深度和三维结构的能力,通常是由大脑对来自每只眼睛的两个略有不同的图像进行处理而实现的。

单词用法

stereovision technology

立体视觉技术

stereovision system

立体视觉系统

stereovision display

立体视觉显示器

enhance stereovision

增强立体视觉

stereovision effect

立体视觉效果

stereovision imaging

立体视觉成像

同义词

stereoscopic vision

立体视觉

Stereoscopic vision allows us to perceive depth and distance.

立体视觉使我们能够感知深度和距离。

three-dimensional vision

三维视觉

Three-dimensional vision is crucial for activities like driving and sports.

三维视觉对于驾驶和运动等活动至关重要。

depth perception

深度感知

Depth perception is essential for accurately judging the position of objects.

深度感知对于准确判断物体的位置至关重要。

反义词

monovision

单视

Monovision is often used in some medical treatments where depth perception is not crucial.

单视常用于一些医疗治疗中,在这些情况下深度感知并不重要。

flat vision

平面视觉

Flat vision refers to viewing images without any depth or three-dimensional effect.

平面视觉指的是观看图像时没有任何深度或三维效果。

例句

1.In order to improve the precision of 3d facial modeling and according to binocular stereovision theory, a method of 3d facial modeling using several cameras is put forward.

为了提高三维人脸建模的精确度,在双目立体视觉理论的基础上,提出了一种基于多台摄像机拍摄的人脸三维建模方法。

2.Micro stereovision system based on stereo light microscope (SLM) has been applied in some micro-domains widely. Highly accurate measurement and location are implemented by the vision feedback.

显微立体视觉系统在微观研究领域得到广泛应用,通过视觉反馈可实现高精度的三维测量和定位。

3.A suitable stereovision system was set up for this research.

建立了适合本研究的立体视觉系统。

4.People who wake late miss one of the greatest feats of nature, repeated in full stereovision each and every day - the rise of the sun.

晚起的人都会错过自然界中每天周而复始的奇迹之一——日出。

5.The inventive spatial vision training system can stimulate and exploit peripheral retina and improve its cellular activity and stereovision.

根据本发明的空间视觉训 练系统可对周边视网膜进行刺激和开发,以及提高其细胞活性和立体视 觉功能。

6.Camera calibration, stereo rectification and three-dimensional reconstruction are the important con tents of stereovision research.

摄像机标定、立体校正以及三维表面重建是立体视觉研究的重要内容。

7.Second, the modeling problem of micro stereovision with SLM is discussed, and a vision model that describes the projection between 2d image space and 3d object space is derived.

第二部分研究了SLM立体视觉的建模型问题,视觉模型描述了二维图像空间与三维物空间的映射关系。

8.Micro stereovision system based on stereo light microscope (SLM) has been applied in some micro-domains widely. Highly accurate measurement and location are implemented by the vision feedback.

显微立体视觉系统在微观研究领域得到广泛应用,通过视觉反馈可实现高精度的三维测量和定位。

9.The new virtual reality headset offers an immersive experience thanks to its advanced stereovision technology.

新的虚拟现实头戴设备由于其先进的立体视觉技术,提供了沉浸式体验。

10.The film was shot using stereovision, making the action sequences incredibly lifelike.

这部电影采用立体视觉拍摄,使得动作场景非常逼真。

11.Many modern cameras utilize stereovision to create stunning 3D images.

许多现代相机利用立体视觉来创建惊艳的3D图像。

12.Researchers are exploring stereovision techniques to improve autonomous vehicle navigation.

研究人员正在探索立体视觉技术,以改善自动驾驶汽车的导航。

13.In the field of robotics, stereovision is crucial for enabling machines to perceive depth.

在机器人领域,立体视觉对使机器能够感知深度至关重要。

作文

In today's world, technology has advanced tremendously, allowing us to experience life in ways that were once unimaginable. One of the most fascinating developments in this field is stereovision, a technique that enables us to perceive depth and three-dimensionality in visual images. This technology mimics the way our eyes work together to create a sense of depth perception, providing a more immersive experience in various applications such as film, virtual reality, and even medical imaging.The concept of stereovision can be traced back to the study of human vision. Our eyes are positioned slightly apart, which means that each eye sees a slightly different image. The brain processes these two images and combines them into a single three-dimensional view. This natural process is what allows us to judge distances and appreciate the world around us in full depth. In contrast, traditional two-dimensional media, such as photographs or standard films, only provide a flat representation of reality.With the advent of stereovision technology, creators can produce content that closely resembles our natural viewing experience. For instance, in cinema, films shot with stereovision techniques allow audiences to feel as though they are part of the action, rather than merely observers. This heightened sense of presence can lead to a more emotional and engaging experience, drawing viewers deeper into the narrative.Moreover, stereovision has significant applications beyond entertainment. In the field of medicine, for example, surgeons can use stereovision technology during procedures to gain a better understanding of the spatial relationships between organs and tissues. This enhanced depth perception can lead to more precise movements and improved patient outcomes. Similarly, in architecture and design, stereovision allows professionals to visualize their projects in three dimensions, making it easier to identify potential issues before construction begins.The rise of virtual reality (VR) has also been greatly influenced by stereovision. VR headsets utilize this technology to create immersive environments where users can explore and interact with digital worlds. By providing a sense of depth and space, stereovision enhances the realism of these experiences, making them more enjoyable and effective for training, education, and entertainment.Despite its many advantages, stereovision is not without challenges. Some individuals may experience discomfort or motion sickness when exposed to stereovision content, particularly in virtual reality settings. Developers are continually working to improve the technology and create experiences that minimize these negative effects. Furthermore, as stereovision becomes more mainstream, there is a growing need for standards and guidelines to ensure that content is accessible to all users, including those with visual impairments.In conclusion, stereovision represents a remarkable advancement in our ability to perceive and interact with the world around us. From enhancing cinematic experiences to improving medical procedures, its applications are vast and varied. As technology continues to evolve, we can expect stereovision to play an increasingly important role in shaping our understanding of depth and space in both the physical and digital realms. By embracing this technology, we open up new possibilities for creativity, innovation, and connection in our everyday lives.

在当今世界,科技取得了巨大的进步,让我们以曾经无法想象的方式体验生活。在这个领域中,最令人着迷的发展之一就是立体视觉,这是一种使我们能够在视觉图像中感知深度和三维效果的技术。这项技术模仿了我们眼睛协同工作以创造深度感知的方式,为电影、虚拟现实甚至医学成像等各种应用提供了更身临其境的体验。立体视觉的概念可以追溯到对人类视觉的研究。我们的眼睛稍微分开,这意味着每只眼睛看到的图像略有不同。大脑处理这两幅图像并将它们结合成一个单一的三维视图。这一自然过程使我们能够判断距离,欣赏周围世界的完整深度。相比之下,传统的二维媒介,如照片或标准电影,仅提供现实的平面表现。随着立体视觉技术的出现,创作者可以制作出与我们自然观看体验非常相似的内容。例如,使用立体视觉技术拍摄的电影让观众感觉自己是动作的一部分,而不仅仅是旁观者。这种增强的存在感可以带来更丰富的情感体验,将观众更深地吸引到叙事中。此外,立体视觉在娱乐之外还有重要的应用。在医学领域,例如,外科医生可以在手术过程中使用立体视觉技术,更好地理解器官和组织之间的空间关系。这种增强的深度感知可以导致更精确的动作和改善的患者结果。同样,在建筑和设计中,立体视觉使专业人士能够以三维方式可视化他们的项目,从而更容易在施工开始之前识别潜在问题。虚拟现实(VR)的兴起也在很大程度上受到立体视觉的影响。VR头戴设备利用这项技术创建沉浸式环境,用户可以探索和与数字世界互动。通过提供深度和空间感,立体视觉增强了这些体验的真实感,使其在培训、教育和娱乐方面更加愉快和有效。尽管有许多优点,立体视觉也并非没有挑战。一些人在接触立体视觉内容时可能会感到不适或晕动症,尤其是在虚拟现实环境中。开发者们正在不断努力改进技术,创造出尽量减少这些负面影响的体验。此外,随着立体视觉变得越来越主流,迫切需要建立标准和指南,以确保所有用户,包括视力障碍者,都能获得内容。总之,立体视觉代表了我们感知和与周围世界互动能力的显著进步。从增强电影体验到改善医疗程序,它的应用广泛多样。随着技术的不断发展,我们可以期待立体视觉在塑造我们对物理和数字领域中的深度和空间的理解方面发挥越来越重要的作用。通过拥抱这项技术,我们为创造力、创新和日常生活中的联系打开了新的可能性。