Thesis Type: Postgraduate
Institution Of The Thesis: Gazi Üniversitesi, Fen Bilimleri Enstitüsü, Turkey
Approval Date: 2020
Thesis Language: Turkish
Student: FERDA FİRDEVS YAZICIOĞLU
Supervisor: ARZU ÖZEN YAVUZ
Abstract:It is a holistic whole in synergy with the architectural environment and natural environment, with human life at the center of the urban space. Therefore, when the integrated architectural design method is followed, the necessity of addressing the multidisciplinary integrated design data starting from the city scale coming from different disciplines to building scale, building subsystems and even human life arises at the beginning of the design process. Furthermore, the linear structure of the traditional design method is insufficient for the complex, uncertain and constantly developing structure of the architectural design process. In the traditional design method, the integrated design method gains importance due to the fact that the process is reversed and interdisciplinary interaction is not sufficient. In this direction, the concept of integrated design is discussed from a wider perspective, and firstly, by optimizing and integrating various, dispersed data from all disciplines, the complex process in the design process is analyzed. In the design process, by integrating multidisciplinary complex data components that are included in the integrated design process at the beginning of the process, it is aimed to integrate and optimize information on disciplinary basis, to integrate and visualize the new data produced by using Voronoi diagram which is a productive system. The productive-algorithmic structure of the Voronoi diagram provides multiple data control, simultaneous design, self-updating and flexibility in the architectural design process. Thus, the Voronoi diagram method plays an important role in the practice of making integrated architectural design that requires a multidisciplinary study, in forming the holistic and synergistic city as a whole, integrating the components into a productive and algorithmic structure