stereoscopic
简明释义
英[ˌsteriəˈskɒpɪk]美[ˌsteriəˈskɑːpɪk]
adj. 立体的;体视镜的;有立体感的
英英释义
单词用法
立体摄影 | |
立体显示 | |
立体眼镜 | |
立体电影 | |
创造立体效果 | |
以立体格式观看 | |
制作立体图像 | |
体验立体深度 |
同义词
反义词
| 单眼的 | Monoscopic images provide a single viewpoint, lacking depth perception. | 单眼图像提供了一个视角,缺乏深度感知。 | |
| 平面的 | Flat images do not convey the three-dimensionality of objects. | 平面图像无法传达物体的三维特性。 |
例句
1.The position of the feature points in camera coordinate system was obtained based on basic principle of binocular stereoscopic vision.
基于双目立体视觉基本原理,得到特征点在摄像机坐标系下的位置。
2.Holograms have many advantages over stereoscopic images.
与传统图像相比,全息图像有很多优点。
3.One way of doing so is to use "stereoscopic" optical technologies, in which scenes are filmed from two angles.
有一种方式是运用“立体光学技术”,在两个角度拍摄画面。
4.Stereoscopic Vision - Human's left and right eyes receive slightly different images that allow the brain to perceive depth.
立体视觉-人类的左右眼接收有着细微差别的图像能够让大脑察觉到深度的存在。
5.Its stereoscopic camera eyes swivel back and forth, taking in the contents of the room.
它的立体摄像机眼睛前后转动,将房间里的物品尽收眼底。
6.Methods: Practice exercise and stereoscopic treatment for patients by taking advantage of the resource of helicopter program in stereoscopic treatment.
方法:利用立体急救网络启用直升救护机程序,进行模拟演练和立体救送伤病员实践。
7.One prototype, a stereoscopic helmet worn by the surgeon, left users seasick after only a few minutes.
而一些外科医生曾尝试使用立体头盔(3D显示的其中一个原型),但在使用几分钟后就感到头晕。
8.The film was shot using stereoscopic 立体的 cameras to enhance the visual experience.
这部电影使用立体的摄像机拍摄,以增强视觉体验。
9.The stereoscopic 立体的 technology used in gaming makes the graphics more realistic.
游戏中使用的立体的技术使图形更具真实感。
10.The new virtual reality headset offers a stereoscopic 立体的 view that immerses users in a 3D environment.
新的虚拟现实耳机提供了一个立体的视角,让用户沉浸在3D环境中。
11.In the museum, there is a stereoscopic 立体的 display that allows visitors to see ancient artifacts in three dimensions.
在博物馆里,有一个立体的展示,允许游客以三维方式查看古代文物。
12.He created a stereoscopic 立体的 image by combining two photographs taken from slightly different angles.
他通过将从稍微不同的角度拍摄的两张照片结合起来,创建了一幅立体的图像。
作文
In today's world, technology has transformed the way we perceive and interact with our environment. One fascinating aspect of this transformation is the development of stereoscopic (立体的) imaging techniques. These techniques have revolutionized fields such as entertainment, education, and even medicine, allowing us to experience depth and dimension in ways that were previously unimaginable.The concept of stereoscopic (立体的) vision is based on the principle of presenting two slightly different images to each eye, mimicking the way human eyes perceive depth. This phenomenon is crucial for creating a realistic three-dimensional experience. For instance, in the realm of cinema, stereoscopic (立体的) films provide audiences with an immersive experience that traditional two-dimensional films cannot achieve. By wearing special glasses, viewers can enjoy a more lifelike representation of the story unfolding on screen, making them feel as though they are part of the action.Moreover, stereoscopic (立体的) technology is not limited to movies. It has found applications in various sectors, including education and training. In classrooms, stereoscopic (立体的) displays can enhance learning by providing students with a more engaging and interactive experience. For example, science students can visualize complex structures, such as molecules or anatomical features, in three dimensions. This hands-on approach fosters better understanding and retention of information, making learning more effective.In the medical field, stereoscopic (立体的) imaging plays a vital role in diagnostics and surgical procedures. Surgeons can utilize stereoscopic (立体的) visualization tools to gain a clearer understanding of the patient's anatomy before and during operations. This enhanced view allows for greater precision and reduces the risk of complications, ultimately improving patient outcomes. Furthermore, medical students benefit from stereoscopic (立体的) simulations that prepare them for real-life scenarios without putting patients at risk.As we delve deeper into the digital age, the significance of stereoscopic (立体的) technology continues to grow. Virtual reality (VR) and augmented reality (AR) experiences heavily rely on stereoscopic (立体的) principles to create immersive environments. These technologies are being used in gaming, training simulations, and even therapy, offering users an unparalleled sense of presence and engagement.However, despite the many advantages of stereoscopic (立体的) technology, there are challenges to consider. Some individuals may experience discomfort or visual fatigue when viewing stereoscopic (立体的) content for extended periods. Additionally, the production of stereoscopic (立体的) media can be more complex and costly than traditional methods, which may limit its accessibility.In conclusion, the evolution of stereoscopic (立体的) technology has significantly impacted various domains, enriching our experiences and enhancing our understanding of the world around us. From entertainment to education and medicine, stereoscopic (立体的) imaging offers a unique perspective that continues to shape our future. As technology advances, it will be exciting to see how stereoscopic (立体的) techniques further evolve and integrate into our daily lives, opening new doors to exploration and innovation.
在当今世界,技术已经改变了我们感知和与环境互动的方式。这种转变的一个迷人方面是立体成像技术的发展。这些技术彻底改变了娱乐、教育甚至医学等领域,让我们以以前无法想象的方式体验深度和维度。立体的视觉的概念基于向每只眼睛呈现两个略微不同的图像的原理,模拟人类眼睛感知深度的方式。这一现象对于创造逼真的三维体验至关重要。例如,在电影领域,立体的电影为观众提供了一种沉浸式体验,这是传统二维电影无法实现的。通过佩戴特殊眼镜,观众可以享受故事在屏幕上展开时更生动的表现,使他们感觉仿佛是行动的一部分。此外,立体的技术并不仅限于电影。它在教育和培训等各个领域找到了应用。在课堂上,立体的显示器可以通过提供更具吸引力和互动性的体验来增强学习。例如,科学学生可以三维可视化复杂结构,如分子或解剖特征。这种动手的方法促进了更好的理解和信息保留,使学习更加有效。在医学领域,立体的成像在诊断和外科手术中发挥着至关重要的作用。外科医生可以利用立体的可视化工具在手术前和手术中更清晰地了解患者的解剖结构。这种增强的视图允许更大的精确度,并减少并发症的风险,从而改善患者的结果。此外,医学生受益于立体的模拟,这使他们能够在没有患者风险的情况下为现实场景做好准备。随着我们深入数字时代,立体的技术的重要性继续增长。虚拟现实(VR)和增强现实(AR)体验严重依赖于立体的原理来创建沉浸式环境。这些技术正在游戏、培训模拟甚至治疗中使用,为用户提供无与伦比的存在感和参与感。然而,尽管立体的技术有许多优点,但也需要考虑一些挑战。一些人可能在长时间观看立体的内容时会感到不适或视觉疲劳。此外,制作立体的媒体可能比传统方法更复杂且成本更高,这可能限制其可及性。总之,立体的技术的演变显著影响了各个领域,丰富了我们的体验,增强了我们对周围世界的理解。从娱乐到教育和医学,立体的成像提供了独特的视角,继续塑造我们的未来。随着技术的进步,看到立体的技术如何进一步发展并融入我们的日常生活,开启探索和创新的新大门,将会令人兴奋。
