Integrated Sustainable Facades
集成可持续立面
The Future of Facades
With new distributed and reliable actuation technology more widely available, responsive façades offer proactive strategies for dynamically responding to sunlight and solar radiation. This façade system proposal uses sensors to track and predict solar radiation data. In the design process, this data is used in the Grasshopper-driven parametric design strategy which generates a comprehensive spectrum of design decisions, from the ideation of façade patterns to the calibration of the iris blades and the determination of their rotational dynamics.
立面设计的未来
随着新的分布式和可靠的驱动技术变得更加广泛,响应式立面能够提供动态响应阳光和太阳辐射的主动策略。该立面系统方案利用传感器来跟踪和预测太阳辐射数据。在设计过程中,这些数据被用于基于Grasshopper的参数化设计策略,从立面图案的构思到光圈叶片的校准以及其旋转动态的确定,生成全面的设计决策方案。
Project Lead: Weiyu Nong | 农玮钰
Publications
Integrated Sustainable Facades
一体化可持续立面系统
The Future of Construction
The future of construction focuses on aesthetics, energy efficiency, and innovative technologies. Double-layer UHPC facades, 3D-printed templates, and dendritic anchor connectors highlight advances in precision, customization, safety, and reliability.
As humans explore other planets, construction must adapt to unique environments. On the Moon, with 1/6G gravity and challenges like vacuum conditions, radiation, and temperature extremes, adaptable trusses with integrated life support and transport systems will enable efficient, safe construction by humans and robots.
未来建筑构造
未来的建筑将重点关注美学、能源效率和创新技术。双层UHPC外立面、3D打印模板和树状锚固连接器凸显了在精度、定制、安全性和可靠性方面的进展。随着人类探索其他星球,建筑必须适应独特的环境。在月球上,1/6G的重力以及真空、辐射和极端温度等挑战,需要可适应的桁架结构,集成生命支持和运输系统,以实现人类和机器人高效、安全的建设。
Project Lead: Chao Tang | 唐朝
Publications
