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À¯ÇÑÈ®»êÁýÇÕüÀÇ ÆĶó¸ÞÆ®¸¯ ½Ã¹Ä·¹À̼ÇÀ» ÅëÇÑ °ø°£ ¼³Ä¡¹° / Spatial Installation Through Parametric Simulation of Diffusion Limited Aggregation System |
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Çѱ¹°ø°£µðÀÚÀÎÇÐȸ ³í¹®Áý, Vol.16 No.07 (2021-10) |
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½ÃÀÛÆäÀÌÁö(387) ÃÑÆäÀÌÁö(14) |
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À¯ÇÑÈ®»êÁýÇÕü; ÆĶó¸ÞÆ®¸¯ µðÀÚÀÎ; ½Ã¹Ä·¹À̼Ç; ¼³Ä¡¹Ì¼ú; µðÁöÅÐ ¸ðÇü ; Diffusion Limited Aggregation; Parametric Design; Physical Simulation; Installation; Digital Model |
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(Background and Purpose) Humans have learned the wisdom of life through nature, which offers clues for solving man-made problems. In this regard, science and technology have introduced remarkable achievements.
Meanwhile, architects and artists have been fascinated by the beauty and wonder of nature, which builds on their engineering understanding and technical knowledge. For architects and artists who have focused on improving the value and quality of human life, nature has been a constant source of creativity. Cutting-edge science and technology to understand and utilize nature was not an earnest desire for architects and artists. However, architects and artists are increasingly inclined to apply scientific and technological approaches amid the strong wave of consilience and convergence. In addition, owing to a user-friendly computing environment and accessible software, the barriers to cutting-edge technology have become very low, leading young architects and artists to adapt natural algorithms for their work. Therefore, as one of the architects and designers of the era, I would like to describe a methodology of design and production for art installations or buildings, with a thorough understanding of specific natural phenomena. (Method) Recent precedents clearly show that natural phenomena have been researched and adapted to various art installations or architectural projects in three major steps: 1) In-depth understanding of natural phenomena; 2) Translation into digital models using parametric design tools; and 3) Application to a physical model. One of the well-known natural phenomena, a diffusion limited aggregation system, is examined in this study, and it is converted into a digital model using a parametric design tool and Visual Basic. The digital model is reconfigured to fit into a specific site¡¯s context. As such, this study proposes a conceptual framework and practical workflow of any nature-inspired art installation project. (Results) The diffusion limited aggregation was researched and the algorithm was broken down into chunks of code blocks in Visual Basic before being converted into a digital model through a parametric design tool. Next, it was modified and updated to fit the actual site¡¯s context. The process proposed herein is a good example of visualizing nature¡¯s algorithm by materializing invisible particles floating in the air. (Conclusions) As described above, in this study, a digital model was created based on a deep understanding of nature¡¯s algorithm rather than a superficial understanding or by attempting to mimic natural phenomena. To materialize or visualize this, an installation was proposed on a site by reconfiguring the digital model in light of its specific context. This process showed that a deep understanding of natural phenomena can provide a new method of designing, planning, and constructing workflow, which is difficult to create using the existing processes. |
