3D processing

简明释义

1. 三维处理; 2. 三维资料处理;

英英释义

例句

1.The game development team is focusing on improving the 3D processing 三维处理 capabilities of their engine.

游戏开发团队专注于提升他们引擎的3D processing 三维处理 能力。

2.In architectural visualization, 3D processing 三维处理 helps create realistic models of buildings.

在建筑可视化中，3D processing 三维处理 有助于创建建筑物的真实模型。

3.The new software offers advanced 3D processing 三维处理 features for animators.

新软件为动画师提供了先进的3D processing 三维处理 功能。

4.Medical imaging techniques rely heavily on 3D processing 三维处理 to visualize complex structures.

医学成像技术高度依赖于3D processing 三维处理 来可视化复杂结构。

5.The virtual reality experience is enhanced by efficient 3D processing 三维处理 algorithms.

虚拟现实体验通过高效的3D processing 三维处理 算法得到了提升。

作文

In recent years, the field of technology has seen a remarkable advancement in various areas, particularly in the realm of computer graphics and design. One of the most significant developments is in the area of 3D processing, which refers to the manipulation and creation of three-dimensional models and environments using computer software. This technology has transformed industries such as gaming, film, architecture, and even medicine. Understanding 3D processing is essential for anyone interested in these fields, as it plays a crucial role in how we visualize and interact with digital content.The concept of 3D processing encompasses several techniques, including modeling, rendering, and animation. Modeling involves creating a digital representation of an object or scene in three dimensions. This can be done using various software tools that allow artists and designers to shape and refine their creations. Once a model is complete, the next step is rendering, which is the process of generating a two-dimensional image from the three-dimensional model. Rendering takes into account factors such as lighting, texture, and perspective to produce a realistic image.Animation is another critical aspect of 3D processing. It involves bringing static models to life by creating movement and changes over time. This can be achieved through techniques such as keyframing, where specific points in time are defined, and the software interpolates the motion between these points. The result is a dynamic representation that can be used in films, video games, and virtual reality experiences.One of the most exciting applications of 3D processing is in the field of virtual reality (VR). With VR technology, users can immerse themselves in a completely digital environment, allowing for a unique experience that traditional media cannot provide. The realistic representation of spaces and objects created through 3D processing enhances this immersion, making it feel as though the user is truly present in the virtual world. This has opened up new possibilities for education, training, and entertainment.Moreover, 3D processing has found its way into the medical field, where it is used for visualizing complex anatomical structures. Surgeons can create detailed models of organs and tissues from imaging data, enabling them to plan and practice procedures before performing them on patients. This application not only improves surgical outcomes but also enhances patient understanding and engagement in their own healthcare.As technology continues to evolve, the importance of mastering 3D processing becomes increasingly evident. Educational institutions are now offering specialized programs focused on 3D design and animation, preparing students for careers in this rapidly growing industry. Furthermore, online platforms and tutorials make it accessible for hobbyists and aspiring artists to learn the skills needed to create their own 3D content.In conclusion, 3D processing is a vital component of modern technology that impacts numerous fields. From entertainment to healthcare, the ability to create and manipulate three-dimensional models has revolutionized how we interact with digital content. As we move forward, understanding and mastering 3D processing will be crucial for anyone looking to succeed in a technology-driven world. The future holds exciting possibilities for this technology, and those who embrace it will undoubtedly play a significant role in shaping our digital landscape.

近年来，科技领域在各个方面取得了显著的进步，尤其是在计算机图形和设计领域。其中最重要的发展之一就是3D processing，即使用计算机软件对三维模型和环境进行操作和创建。这项技术已经改变了游戏、电影、建筑甚至医疗等行业。理解3D processing对于任何对这些领域感兴趣的人来说都是至关重要的，因为它在我们可视化和与数字内容互动的方式中发挥着关键作用。3D processing的概念包含几种技术，包括建模、渲染和动画。建模涉及在三维空间中创建物体或场景的数字表示。这可以通过各种软件工具完成，允许艺术家和设计师塑造和完善他们的创作。一旦模型完成，下一步是渲染，即从三维模型生成二维图像的过程。渲染考虑了光照、纹理和透视等因素，以生成逼真的图像。动画是3D processing的另一个关键方面。它通过创建运动和时间变化来使静态模型栩栩如生。这可以通过关键帧技术实现，即定义时间中的特定点，软件在这些点之间插值运动。最终的结果是一个动态表现，可以用于电影、视频游戏和虚拟现实体验。3D processing最令人兴奋的应用之一是在虚拟现实（VR）领域。借助VR技术，用户可以沉浸在完全数字化的环境中，提供了一种传统媒体无法提供的独特体验。通过3D processing创建的空间和物体的逼真表现增强了这种沉浸感，使用户感觉自己确实身处虚拟世界。这为教育、培训和娱乐开辟了新的可能性。此外，3D processing还进入了医疗领域，用于可视化复杂的解剖结构。外科医生可以根据成像数据创建器官和组织的详细模型，使他们能够在对患者进行手术之前进行计划和练习。这种应用不仅提高了手术结果，还增强了患者对自身医疗的理解和参与。随着技术的不断发展，掌握3D processing的重要性变得越来越明显。教育机构现在提供专门针对3D设计和动画的课程，为学生准备进入这个快速增长的行业。此外，在线平台和教程使得爱好者和有抱负的艺术家能够学习创建自己3D内容所需的技能。总之，3D processing是现代科技的重要组成部分，影响着许多领域。从娱乐到医疗，创建和操作三维模型的能力彻底改变了我们与数字内容的互动方式。随着我们向前发展，理解和掌握3D processing将对任何希望在技术驱动的世界中取得成功的人至关重要。未来，这项技术将带来令人兴奋的可能性，而那些接受它的人无疑将在塑造我们的数字景观中发挥重要作用。