3D visualisation

简明释义

三维空间透视图;

英英释义

例句

1.The architect used 3D visualisation to present the building design to the clients.

建筑师使用3D可视化向客户展示建筑设计。

2.Using 3D visualisation, engineers can simulate how structures will behave under stress.

利用3D可视化，工程师可以模拟结构在压力下的表现。

3.Real estate agents often employ 3D visualisation to give potential buyers a virtual tour of properties.

房地产经纪人通常使用3D可视化为潜在买家提供房产的虚拟导览。

4.The video game developer showcased the character models through 3D visualisation techniques.

视频游戏开发者通过3D可视化技术展示角色模型。

5.In medical training, 3D visualisation helps students understand complex anatomy.

在医学培训中，3D可视化帮助学生理解复杂的人体解剖。

作文

In today's digital age, the importance of 3D visualisation (三维可视化) cannot be overstated. This technology has revolutionized various industries, from architecture to medicine, enabling professionals to present complex data in an easily digestible format. The ability to create three-dimensional representations of objects or environments allows for a deeper understanding of spatial relationships and design intricacies.One of the most significant applications of 3D visualisation (三维可视化) is in the field of architecture. Architects use this technology to create realistic models of buildings before they are constructed. These models provide clients with a clear view of what the final product will look like, allowing for modifications and improvements during the design phase. By utilizing 3D visualisation (三维可视化), architects can showcase their vision effectively, ensuring that all stakeholders are on the same page.Moreover, 3D visualisation (三维可视化) plays a crucial role in urban planning. City planners can create detailed models of proposed developments, helping to visualize how new structures will fit into the existing landscape. This not only aids in design but also facilitates public discussions and feedback, as citizens can better understand the impact of changes in their community.In addition to architecture and urban planning, 3D visualisation (三维可视化) is vital in the medical field. Surgeons use this technology to plan complex procedures by visualizing the anatomy of their patients in three dimensions. With 3D visualisation (三维可视化), doctors can anticipate challenges and devise strategies to overcome them, ultimately improving patient outcomes. Furthermore, medical students benefit from 3D visualisation (三维可视化) tools that allow them to study human anatomy in a more interactive and engaging way, enhancing their learning experience.The entertainment industry has also embraced 3D visualisation (三维可视化). In film and video game production, creators use this technology to bring their imaginative worlds to life. Through the use of 3D visualisation (三维可视化), animators can produce stunning visuals that captivate audiences and transport them to fantastical realms. This not only enhances storytelling but also sets a higher standard for visual effects in modern media.Furthermore, the rise of virtual reality (VR) and augmented reality (AR) technologies has expanded the potential of 3D visualisation (三维可视化). These immersive experiences allow users to interact with three-dimensional models in real-time, providing a level of engagement that was previously unimaginable. Whether it's exploring ancient ruins or trying on virtual clothing, 3D visualisation (三维可视化) enriches our experiences and opens up new possibilities for education and entertainment.In conclusion, 3D visualisation (三维可视化) is an invaluable tool that enhances our ability to understand and engage with complex information. Its applications span across various fields, including architecture, urban planning, medicine, and entertainment. As technology continues to advance, we can expect 3D visualisation (三维可视化) to become even more integrated into our daily lives, transforming the way we perceive and interact with the world around us. Embracing this technology will undoubtedly lead to more innovative solutions and a greater appreciation for the intricacies of design and visualization.

在当今数字时代，3D visualisation（三维可视化）的重要性不容忽视。这项技术彻底改变了从建筑到医学等多个行业，使专业人士能够以易于消化的格式呈现复杂的数据。创建物体或环境的三维表示的能力使人们对空间关系和设计细节有更深入的理解。3D visualisation（三维可视化）在建筑领域的应用尤为显著。建筑师利用这项技术在建筑施工前创建逼真的模型。这些模型为客户提供了清晰的最终产品外观，使他们能够在设计阶段进行修改和改进。通过利用3D visualisation（三维可视化），建筑师能够有效展示他们的愿景，确保所有利益相关者达成共识。此外，3D visualisation（三维可视化）在城市规划中也发挥着至关重要的作用。城市规划者可以创建拟议开发的详细模型，帮助可视化新结构如何融入现有景观。这不仅有助于设计，还促进公众讨论和反馈，因为市民可以更好地理解社区变化的影响。除了建筑和城市规划，3D visualisation（三维可视化）在医疗领域也至关重要。外科医生利用这项技术来规划复杂的手术，通过三维可视化患者的解剖结构。借助3D visualisation（三维可视化），医生可以预见挑战并制定应对策略，从而改善患者的治疗效果。此外，医学生从3D visualisation（三维可视化）工具中受益，这些工具使他们能够以更互动和引人入胜的方式学习人体解剖，增强他们的学习体验。娱乐行业也积极采用3D visualisation（三维可视化）。在电影和视频游戏制作中，创作者利用这项技术将其富有想象力的世界呈现出来。通过使用3D visualisation（三维可视化），动画师可以制作出令人惊叹的视觉效果，吸引观众并将他们带入奇幻领域。这不仅增强了故事讲述的效果，还为现代媒体中的视觉效果设定了更高的标准。此外，虚拟现实（VR）和增强现实（AR）技术的兴起扩大了3D visualisation（三维可视化）的潜力。这些沉浸式体验使用户能够实时与三维模型互动，提供了以前无法想象的参与感。无论是探索古代遗址还是试穿虚拟服装，3D visualisation（三维可视化）丰富了我们的体验，为教育和娱乐开辟了新的可能性。总之，3D visualisation（三维可视化）是一种宝贵的工具，增强了我们理解和参与复杂信息的能力。它的应用跨越多个领域，包括建筑、城市规划、医学和娱乐。随着技术的不断进步，我们可以期待3D visualisation（三维可视化）在日常生活中变得更加普及，改变我们感知和与周围世界互动的方式。拥抱这项技术无疑将导致更具创新性的解决方案，并更大程度上欣赏设计和可视化的复杂性。