Ülkün Neusser, Işık

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Profile URL
https://hdl.handle.net/20.500.14365/6879
Name Variants
Neusser, Isık Ulkun
Ulkun Neusser, Isik
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Email Address
isik.ulkun@ieu.edu.tr
Main Affiliation
06.04. Interior Architecture and Environmental Design
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Current Staff
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ORCID ID
0009-0008-9151-1282
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730A186BFB83C4D4
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Isik_Ulken_Neusser.png (41.37 KB)

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Proceedings of the International Conference on Education and Research in Computer-Aided Architectural Design in Europe1
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    Conference Object
    An Investigation Into Form Blending in Architecture Through Generative Form-Finding and Optimization Procedures: A Form-Finding Methodology
    (Education and research in Computer Aided Architectural Design in Europe, 2024) Neusser, Wilhelm; Morales-Beltran, Mauricio; Ülkün Neusser, Işık; Berthold, Manfred
    ʻForm-blendingʼ is a computational design tool rooted in the animation industry and utilized by 3D programs originally developed for cartoon films. At the turn of the millennium, architects and designers started utilizing ʻform-blendingʼ to design gradual shapes. However, since these form-blended geometries per se, have their genesis rooted in merging irregular patterns, they do not necessarily embrace structural principles. Thus, the use of ʻform-blendingʼ tools does not guarantee geometries adhere to any generic structural rationale. To address this problem, a comparison discussing the pros and cons of optimization methods and tools regarding their potential for integration into ʻform-blendingʼ was initiated. The outcome of this process suggested the development of a methodology incorporating discretization, finite element model, and multi-objective optimization in connection with tools such as ʻform-blending', to generate geometries with structural logic. This methodology aims to enable architects and designers to receive structural feedback during the design process and to generate variants based on structural objectives. In a case study employing form-blended shapes, the methodology was tested to evaluate the methodologyʼs applicability and performance. The results exhibited form-blended geometry based on structural rationale and form-finding principles. Thus, supporting architects with a methodology to employ computational tools such as ʻform blendingʼ to design and generate variants of shapes based on a structural logic for further structural development. © 2024 Elsevier B.V., All rights reserved.