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Revolutionizing Architectural Design with IoT: A Case Study on LabDORA
技术
- 机器人 - 直角坐标机器人
- 传感器 - 温度传感器
适用行业
- 建筑物
- 建筑与基础设施
适用功能
- 产品研发
- 质量保证
用例
- 实验自动化
- 结构健康监测
服务
- 测试与认证
挑战
LabDORA 背后的著名建筑师 Peter Macapia 面临的挑战是改变人们对建筑物的外观以及它们如何影响环境的看法和信念。他试图探索建筑设计的新领域,同时运用建筑和工程原理来产生全新的见解和结构类型。 Macapia 的早期工作基于日本 20 世纪 60 年代和 70 年代开始的研究,该研究产生了结构形态学的遗传型算法。然而,按照今天的标准,这些早期的计算方法的适用性还很原始。 2010 年,当 Macapia 为洛杉矶南加州建筑学院 (SCI-Arc) 准备课程时,向 SolidThinking Inspire 介绍了 SolidThinking Inspire,此时他对自己领域的可能性的看法发生了重大变化。
关于客户
Peter Macapia 是一位备受赞誉的建筑师,他正在探索建筑设计的新领域。他以其独特的建筑设计方法而闻名,该方法同时采用建筑和工程学原理来产生全新的见解和结构类型。 Macapia 的创造力和对技术的创新运用使这些新领域触手可及。他最初独立开展了 20 世纪 60 年代和 70 年代在日本开始的研究,这些工作产生了结构形态学的遗传型算法。当 Macapia 接触到 SolidThinking Inspire 后,他对自己领域的可能性的看法发生了显着变化,该软件使他能够承担富有想象力的工程和建筑项目。
解决方案
该解决方案以 SolidThinking Inspire 的形式出现,该软件使 Macapia 能够开展富有想象力的工程和建筑项目,重点是工程方面。该软件将力转化为设计,同时提供形状、尺寸和材料的替代方案。传统上,在建筑中,分析与设计完全分离,但 SolidThinking Inspire 向 Macapia 展示了设计师如何将分析能力集成到设计空间中。这意味着该结构可以在同一空间进行设计和测试,这与传统流程有很大不同。使用solidThinking Inspire,Macapia 能够将新功能引入已经熟悉的文化和语言环境中。这导致了一种新的结构语言的发明,该语言是通过使表面变形并超越笛卡尔网格的刚性限制来设计的。
运营影响
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