创新背景

建筑架构设计对于2D图纸和设计素材依赖性强，增强了架构的时间成本。采用新兴技术进入建筑架构领域，对于节省工程时间成本、增强过程可视化具有极大的积极作用。

创新过程

2018年，Fologram将HoloLens使用在展馆钢结构的规模架构上，将保准的建筑设计CAD工作流程和增强现实完美结合，展示了世界上第一个展馆规模的增强现实建筑架构过程。

增强现实（Augmented Reality，简称AR）也被称为扩增现实，促使真实世界信息和虚拟世界信息内容之间综合在一起，在电脑和计算机等科学技术基础上将原本在现实世界的空间范围中比较难以进行体验的实体信息进行模拟仿真处理，叠加后将虚拟信息内容在真实世界中有效应用。并且，增强现实过程能够被人类感官所感知，实现超越现实的感官体验。

AR与展馆建筑架构相结合实现空间和展品展示的虚实融合，通过深度交互提升用户的体验度和沉浸感，扩展参观者对空间环境的感知范围。HoloLens是一款不受线缆束缚的商用混合现实头戴显示设备，通过全息图实现协作，实时解决问题，具有高度安全性、可靠性和可扩展性的强大应用程序生态系统。

利用AR技术HoloLens，建筑架构可以减少对传统2D图纸的依赖，通过全息指令显示创成式设计模型，高度解放设计和施工之间的潜力。HoloLens将屏幕上的视图与物理结构相结合，连接设计和实物编制架构钢亭，极大地提高了建筑过程的可视化。

技术结合大幅度简化施工并对工作进行了高效维护，不到三天就完成了对钢展馆的编制创建，展示了简化施工和使用可访问的方法构建复杂几何形状的可能性。新的建筑架构方式从根本上扩展了物理构建的可能性方法和途径，为未来的建筑带来了重大发展，有极大可能改变建筑设计和建造，构建更多的可能性方案，降低建造成本。

创新关键点

创新结合增强现实和钢展馆物理建造，利用HoloLens实现可视化架构设计，扩展建筑架构途径并创造新的建造方式。

Combine augmented reality and architectural architecture to enhance the design visualization process

In 2018, Fologram used holoLens on the scale architecture of the steel structure of the pavilion, combining the accurate CAD workflow of architectural design with augmented reality, demonstrating the world's first pavilion-scale augmented reality architectural architecture process.
Augmented Reality (AR) is also known as augmented reality, which promotes the integration of real world information and virtual world information content, simulates and simulates the entity information that is difficult to experience in the spatial scope of the real world on the basis of science and technology such as computers and computers, and superimposes the virtual information content in the real world. Moreover, the augmented reality process can be perceived by the human senses, achieving sensory experiences that transcend reality.
AR is combined with the architectural structure of the exhibition hall to achieve the virtual and real integration of space and exhibit display, enhance the user's experience and immersion through deep interaction, and expand the visitor's perception of the spatial environment. HoloLens is a cable-free, commercial mixed reality headset that collaborates through holograms to solve problems in real time, with a robust application ecosystem that is highly secure, reliable, and scalable.
Using AR technology HoloLens, architectural architecture can reduce reliance on traditional 2D drawings, displaying generative design models through holographic instructions, highly liberating the potential between design and construction. HoloLens combines on-screen views with physical structures, connecting designs and physically crafted structure steel pavilions, greatly improving the visualization of the construction process.
Combining technology with significant simplification of construction and efficient maintenance of the work, the creation of the steel pavilion was completed in less than three days, demonstrating the possibility of simplifying construction and constructing complex geometries using accessible methods. The new architectural architecture method fundamentally expands the possible methods and approaches of physical construction, bringing significant development to the future of architecture, with great potential to change building design and construction, build more possibility schemes, and reduce construction costs.