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    Please use this identifier to cite or link to this item: https://tkuir.lib.tku.edu.tw/dspace/handle/987654321/121130


    Title: CoFabs: An interactive fabrication process framework
    Authors: Chang, T-W;Hsiao, C-F;Chen, C-Y;Huang, H-Y
    Keywords: Robot arm;Digital fabrication;Mixed reality;Design process
    Date: 2020-09-03
    Issue Date: 2021-08-27 12:12:43 (UTC+8)
    Publisher: Springer
    Abstract: In the early stages of maker practice, there are many practical problems or design errors that need to be taken care of on their own. In order to lower the manufacturing threshold and obtain as much information on the relevant services as possible, makers sometimes try to simulate and test their works in digital ways before manufacturing them. However, after the process of digital simulation, the maker must hand over the design drawings to the manufacturing unit to develop the prototype. This materialization step requires a long period of time for the consultation, waiting, manufacturing, and adjustment phases. Thus, how to shorten and facilitate the timeline of the prototyping process has become a very important issue in the analysis of a maker’s design practice manufacturing workflow. This article advances a “seeing-moving-seeing” design thinking model that can help designers refine their ideas through observations, as they can directly see the result of their intuitive gestures and present their works with design media. This model, therefore, makes it easier for the makers to explain what they are thinking. In addition, through the model, they can further extend the possibilities of multiple production processes by designing, manufacturing, and integrating tools through the use of a robotic arm. The “seeing-moving-seeing” model proposes that there are three different aspects that respond to the temporary design prototyping process: human features, physical features, and robotic arm manufacturing. We simplify the communication of computing systems through an immersive visual interface and the rendering of real-time feedback, so that makers can focus upon their practice of implementing design ideas.
    Relation: Architectural Intelligence
    DOI: 10.1007/978-981-15-6568-7_17
    Appears in Collections:[建築學系暨研究所] 專書之單篇

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