دوره 6، شماره 4 - ( 1395 )                   جلد 6 شماره 4 صفحات 25-1 | برگشت به فهرست نسخه ها

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Shahbazi Y, Masoudi E, Vafa-Mehr M. Parameterization of Geometric Patterns of Islamic-Iranian Space Structure Domes; Case Study: Shabdari Arc. Naqshejahan 2017; 6 (4) :1-25
URL: http://bsnt.modares.ac.ir/article-2-1390-fa.html
Shahbazi Yaser، Masoudi Ehsan، Vafa-Mehr Mohsen. Parameterization of Geometric Patterns of Islamic-Iranian Space Structure Domes; Case Study: Shabdari Arc. نقش جهان - مطالعات نظری و فناوری های نوین معماری و شهرسازی. 1395; 6 (4) :1-25

URL: http://bsnt.modares.ac.ir/article-2-1390-fa.html


1- Assistant Professor of Smart Structures and Architectural Technology, Architecture and Urbanism Department, Tabriz Islamic Art University.
2- Master of Architectural Technology, Architecture and Urbanism Department, Tabriz Islamic Art University
3- Professor of Architecture, School of Architecture and Environmental Design, Iran University of Science & Technology
چکیده:   (9134 مشاهده)
In this paper, parametric modeling of five types of common used motifs in Islamic-Iranian architecture including Hashte-Chahar-Lengeh, Hashte-Panj, Hashte-Bazoubandi, Chahar-Lengeh-AlmasTarash and Table Khofte Rasteh are carried out. These motifs are selected because of low condensate of members and the ability to construct them appropriately as load barring rod elements in the dome space structure of slow Shabdari arch. Hence, motifs are projected on the geometry of slow Shabdari arch to create a dome space structure. The problem of parametric modeling of motifs is done in two cases of changing the number of basic modules and changing module production parameters. In the first case, the projection algorithm of basic modules depends on the dissemination coefficients representing the number of modules’ proliferation in horizontal and vertical direction of dome. In this case, the aim is to create sparse or delicate networks based on the form of fixed basic module. In the second case, the parameters used in the algorithm of basic modules themselves relies on the dissemination coefficients to produce new modules based on the considered motifs. Computer simulations for the second case of the problem of motifs’ parametric modeling show that, through a proper choice of the dissemination coefficients, slow Shabdari arch can be converted to common dome space structures such as lamella and ribbed domes.
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دریافت: 1396/2/2 | پذیرش: 1395/10/12 | انتشار: 1396/2/2

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