Self-Organized Construction with Continuous Building Material: Higher Flexibility Based on Braided Structures

2016 IEEE 1st International Workshops on Foundations and Applications of Self* Systems (FAS*W) Pub Date : 2016-09-01 DOI:10.1109/FAS-W.2016.43

Mary Katherine Heinrich, Mostafa Wahby, Mohammad Divband Soorati, D. Hofstadler, Payam Zahadat, P. Ayres, K. Støy, Heiko Hamann

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引用次数: 20

Abstract

Self-organized construction with continuous, structured building material, as opposed to modular units, offers new challenges to the robot-based construction process and lends the opportunity for increased flexibility in constructed artifact properties, such as shape and deformation. As an example investigation, we look at continuous filaments organized into braided structures, within the context of bio-hybrids constructing architectural artifacts. We report the result of an early swarm robot experiment. The robots successfully constructed a braid in a self-organized process. The construction process can be extended by using different materials and by embedding sensors during the self-organized construction directly into the braided structure. In future work, we plan to apply dedicated braiding robot hardware and to construct sophisticated 3-d structures with local variability in patterns of filament interlacing.

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连续建筑材料自组织结构:基于编织结构的更高柔性

与模块化单元相反，使用连续的、结构化的建筑材料进行自组织施工，为基于机器人的施工过程提供了新的挑战，并为构建的人工制品属性(如形状和变形)提供了增加灵活性的机会。作为一个例子调查，我们看看连续的细丝组织成编织结构，在生物混合结构建筑文物的背景下。我们报告了一个早期群体机器人实验的结果。机器人在自组织过程中成功地构建了一个辫子。通过使用不同的材料和在自组织施工过程中直接将传感器嵌入编织结构中，可以延长施工过程。在未来的工作中，我们计划应用专用的编织机器人硬件，并构建具有纤维交错模式局部变化的复杂三维结构。

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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2016 IEEE 1st International Workshops on Foundations and Applications of Self* Systems (FAS*W)

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