System Architecture and Design Parameters for Extrusion-Based Autonomous Construction Systems

A. Patterson, Bhaskar Vajipeyajula, W. Norris
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Abstract

Autonomous construction systems (ACSs) have become a topic of great interest in recent years in a variety of areas, including design, materials science, architecture, space exploration, natural disaster recover, military operations, and others. Several different approaches have been proposed, the most promising (and so far most widely-applied) one being a large-scale system based on additive manufacturing (or 3-D printing) principles, where a concrete- or foam-based material is extruded in layers to produce a structure. This structure may be used as a basic shell around which a useful building, shelter, bridge, extraterrestrial habitat, or other infrastructure can be built or may be able to produce a full building in one operation. This article extracts information about the the major components, sub-systems, and interfaces in these systems from a broad sampling of published literature and uses this information to propose a quasi-general system architecture and identify design opportunities. These models can be used to drive further research efforts on these systems, assist with more agile implementation, and improve the design of large-scale 3-D printing-based systems. This work is a first step in the development of a reliable general system architecture similar to those used in the design of large-scale military and aerospace systems.
基于挤压的自主施工系统体系结构和设计参数
近年来,自主建筑系统(ACSs)在设计、材料科学、建筑、空间探索、自然灾害恢复、军事行动等各个领域都成为了人们非常感兴趣的话题。目前已经提出了几种不同的方法,其中最有前途的(也是目前应用最广泛的)是基于增材制造(或3d打印)原理的大规模系统,在该系统中,混凝土或泡沫基材料被层层挤压以产生结构。这种结构可以用作一个基本的外壳,在其周围可以建造有用的建筑物、庇护所、桥梁、外星栖息地或其他基础设施,或者可以在一次操作中产生一个完整的建筑物。本文从大量已发表的文献中提取有关这些系统中的主要组件、子系统和接口的信息,并使用这些信息提出准通用系统架构并确定设计机会。这些模型可以用来推动对这些系统的进一步研究工作,帮助更灵活的实现,并改进基于大规模3d打印系统的设计。这项工作是开发可靠的通用系统架构的第一步,类似于大型军事和航空航天系统的设计。
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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