3D data set

简明释义

三维数据集;

英英释义

例句

1.To simulate weather patterns, meteorologists utilize a 3D data set that includes atmospheric conditions.

为了模拟天气模式，气象学家利用包含大气条件的三维数据集。

2.The researchers used a 3D data set to analyze the geological formations in the area.

研究人员使用了一个三维数据集来分析该地区的地质构造。

3.Architects often rely on a 3D data set to visualize their designs before construction.

建筑师通常依赖于三维数据集在施工前可视化他们的设计。

4.In virtual reality applications, a 3D data set is essential for creating immersive environments.

在虚拟现实应用中，三维数据集对于创建沉浸式环境至关重要。

5.The medical imaging software can process a 3D data set to provide detailed views of organs.

该医学成像软件可以处理三维数据集以提供器官的详细视图。

作文

In recent years, the term 3D data set has gained significant traction in various fields such as computer graphics, virtual reality, and scientific research. A 3D data set refers to a collection of data points that represent a three-dimensional object or space. This data can be obtained from various sources, including 3D scanning technologies, simulations, and modeling software. The ability to visualize and manipulate 3D data sets offers numerous advantages across disciplines, making it an essential concept in today’s digital landscape.One of the most notable applications of 3D data sets is in the field of architecture and construction. Architects and engineers utilize 3D data sets to create accurate representations of buildings and structures. By using software that can process these data sets, they can visualize how a project will look in the real world before any physical construction begins. This not only helps in identifying potential design flaws but also aids in effective communication with clients and stakeholders who may not have technical backgrounds. Furthermore, integrating 3D data sets into Building Information Modeling (BIM) enhances collaboration among team members, ensuring everyone is working with the same information.In the realm of healthcare, 3D data sets are revolutionizing the way medical professionals approach diagnosis and treatment. For instance, doctors can use 3D data sets derived from medical imaging techniques like MRI and CT scans to create detailed models of a patient’s anatomy. These models can assist in planning surgeries with greater precision, ultimately improving patient outcomes. Additionally, 3D data sets can be utilized for educational purposes, allowing medical students to explore human anatomy in a more interactive and engaging manner.Another exciting application of 3D data sets is in the gaming industry. Game developers rely on 3D data sets to create immersive environments and realistic character models. The incorporation of these data sets allows for intricate details and lifelike animations, enhancing the overall gaming experience. As technology advances, the quality of 3D data sets continues to improve, enabling developers to push the boundaries of creativity and innovation in game design.Moreover, the use of 3D data sets is not limited to professional fields. Hobbyists and enthusiasts are increasingly exploring the world of 3D printing, which heavily relies on 3D data sets. Individuals can create their own designs or modify existing ones, turning digital models into tangible objects. This democratization of technology empowers people to bring their ideas to life, fostering creativity and innovation within communities.In conclusion, the significance of 3D data sets cannot be overstated. Their applications span various industries, transforming the way we visualize, analyze, and interact with the world around us. As technology continues to evolve, the importance of mastering and understanding 3D data sets will only increase. Whether in architecture, healthcare, gaming, or personal projects, embracing this technology opens up a world of possibilities for innovation and creativity. Therefore, it is crucial for individuals and professionals alike to develop a solid understanding of 3D data sets and their potential impact on our future.

近年来，术语3D数据集在计算机图形学、虚拟现实和科学研究等各个领域获得了显著的关注。3D数据集指的是一组数据点，表示三维物体或空间。这些数据可以来自各种来源，包括3D扫描技术、模拟和建模软件。可视化和操作3D数据集的能力在各个学科中提供了许多优势，使其成为当今数字环境中的一个重要概念。3D数据集最显著的应用之一是在建筑和施工领域。建筑师和工程师利用3D数据集创建建筑物和结构的准确表示。通过使用能够处理这些数据集的软件，他们可以在实际施工开始之前可视化项目在现实世界中的样子。这不仅有助于识别潜在的设计缺陷，还促进了与可能没有技术背景的客户和利益相关者之间的有效沟通。此外，将3D数据集集成到建筑信息建模（BIM）中增强了团队成员之间的协作，确保每个人都在使用相同的信息。在医疗领域，3D数据集正在革命性地改变医疗专业人员进行诊断和治疗的方式。例如，医生可以使用从医学成像技术（如MRI和CT扫描）获得的3D数据集创建患者解剖结构的详细模型。这些模型可以帮助更精确地规划手术，从而改善患者的结果。此外，3D数据集还可以用于教育目的，使医学生能够以更互动和引人入胜的方式探索人体解剖。3D数据集的另一个令人兴奋的应用是游戏行业。游戏开发者依赖于3D数据集创建沉浸式环境和逼真的角色模型。这些数据集的结合允许细致的细节和栩栩如生的动画，增强了整体游戏体验。随着技术的进步，3D数据集的质量不断提高，使开发者能够在游戏设计中突破创造力和创新的界限。此外，3D数据集的使用并不仅限于专业领域。爱好者和爱好者们越来越多地探索3D打印的世界，而这在很大程度上依赖于3D数据集。个人可以创建自己的设计或修改现有设计，将数字模型转变为有形物体。这种技术的民主化使人们能够将他们的想法变为现实，促进了社区内的创造力和创新。总之，3D数据集的重要性不容小觑。它们的应用跨越多个行业，改变了我们可视化、分析和与周围世界互动的方式。随着技术的不断发展，掌握和理解3D数据集的重要性只会增加。无论是在建筑、医疗、游戏还是个人项目中，拥抱这项技术为创新和创造力打开了一个新的世界。因此，个人和专业人士都必须深入理解3D数据集及其对我们未来的潜在影响。