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|Other Titles: ||A study of self-organizing structures in architecture|
|Authors: ||廖韋祁;Liao, Wei-Chi|
|Keywords: ||自我組織;單元;數位製造;參數化設計;Self-organization;Unit;Digital Fabrication;Parametric Design|
|Issue Date: ||2014-01-23 14:25:23 (UTC+8)|
Based on the experience in design operation, a variable design can be generated by means of the unit organization, which will be developed into a possibility of architectural spaces. First, this paper analyzes the basic geometric shape, discusses the ways how different units are assembled and develops them into three-dimensional space organization. The preliminary research includes the organization of single units and the units composed of spaces, and then it controls the change of the units and complements the actual manufacturing by parameterizing. The unit organization is used as the basis for constructing spaces.
With the combination of the CAD software and digital design and manufacturing tool, this paper tries to develop spaces in a way wherein the units are organized and discusses all ways to combine the units that constitute the spaces. And then, it discusses the variations of the units based on the relationship between points and lines and completes the manufacturing by making the locks out of the basic units. It also discusses the ways of combining the derivative units according to the changes of the lock positions of the basic units. Moreover, it completes constituting all single units with the aid of a computer tool. After constructing the spaces by using the single units, it discusses the ways of constituting the region, and then it places the units in the constitution in accordance with the region and finishes the space with units.
The digital manufacturing and design is the main axis of this research, including the constitution of the basic units and the units composed of spaces. It controls the units through parameterization. This research consists of three phases. In the first phase, based on the geometric shape, it discusses all changes in two dimensions and completes the control of the basic units, and then it develops the combination of three dimensions by using the way of organization on two dimensions. Besides, it constitutes the single units in a regular way and develops the basic units into different derivative units, and then simulates the constitution of all units with the aid of a computer tool. In the second phase, it generates the units by using the units to form the region and controls the change of the units through parameterization, and then it calculates the lock positions of all units under the condition that the actual manufacturing can be realized, in a way wherein the space form is created and discussed. When analyzing the constitution of the curved surface, the research divides the curved surface into six basic patterns that are actually constituted of the units. In the third phase, it develops the units into the structure and adds the shielding design in such unit structure. It controls the change of the units by adjusting the parameters in every pattern to meet all conditions of actual manufacturing, in a way wherein the space can be actually constituted quickly. According to the summarization of the research, it operates the constitution of the units and complements the actual manufacturing, meanwhile, it develops the ways of organizing the units into architectural spaces and understands the actual manufacturing process as well as considers various ways to design the architectural spaces.
|Appears in Collections:||[建築學系暨研究所] 學位論文|
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