SMAAD Surface:智能材料辅助建筑设计的有形界面

CAADRIA proceedings Pub Date : 2011-12-01 DOI:10.52842/conf.caadria.2011.355

Akira Wakita, Akito Nakano, Michihiko Ueno

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引用次数: 9

摘要

在本文中，我们提出了智能材料辅助建筑设计(SMAAD)，这是一种通过同步有形用户界面(TUI)和三维CAD系统来实现直观形状建模的设计技术。为了实现SMAAD，我们首先实现了SMAAD Surface，一个模仿自由曲面的TUI。TUI是一种织物装置，其中嵌入了弯曲传感器和致动器(形状记忆合金)。当设计师用手改变纺织品的形状时，其表面数据将通过传感器发送到CAD系统，并可以在PC中创建自由形状的表面。相反方向的操作也是可能的，将CAD表面数据发送到织物设备，动态改变其形状。SMAAD将建筑设计师从复杂的GUI操作和可视化编程中解放出来，并通过物理模型的自然手动操作实现数字模型的创建。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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SMAAD Surface: A tangible interface for smart material aided architectural design

In this paper, we present Smart Material Aided Architectural Design (SMAAD), the design technique to realize intuitive shape modelling with synchronizing a tangible user interface (TUI) and a 3D CAD system. To realize SMAAD, we first implemented SMAAD Surface, the TUI that imitates the free-form surface. The TUI is a fabric device, in which flex sensors and actuators (shape memory alloys) are embedded. As a designer changes the textile shape using his/her hands, its surface data will be sent to the CAD system through the sensor and a free-form surface can be created in the PC. The operation in the opposite direction is also possible, in which the CAD surface data is sent to the fabric device to dynamically change its shape. SMAAD releases architectural designers from complex GUI operations and visual programming and enables digital model creation through natural manual operations for physical models.

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CAADRIA proceedings

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