Turhan, Gözde Damla
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TURHAN-HASKARA, GOZDE DAMLA
Turhan, Gozde Damla
Gözde Damla Turhan Haskara
Turhan, Gozde Damla
Gözde Damla Turhan Haskara
Job Title
Email Address
gozde.turhan@ieu.edu.tr
Main Affiliation
06.04. Interior Architecture and Environmental Design
Status
Current Staff
Website
ORCID ID
Scopus Author ID
Turkish CoHE Profile ID
Google Scholar ID
WoS Researcher ID
Sustainable Development Goals
1NO POVERTY
1
Research Products
2ZERO HUNGER
1
Research Products
3GOOD HEALTH AND WELL-BEING
0
Research Products
4QUALITY EDUCATION
6
Research Products
5GENDER EQUALITY
0
Research Products
6CLEAN WATER AND SANITATION
1
Research Products
7AFFORDABLE AND CLEAN ENERGY
1
Research Products
8DECENT WORK AND ECONOMIC GROWTH
2
Research Products
9INDUSTRY, INNOVATION AND INFRASTRUCTURE
9
Research Products
10REDUCED INEQUALITIES
0
Research Products
11SUSTAINABLE CITIES AND COMMUNITIES
6
Research Products
12RESPONSIBLE CONSUMPTION AND PRODUCTION
4
Research Products
13CLIMATE ACTION
1
Research Products
14LIFE BELOW WATER
1
Research Products
15LIFE ON LAND
1
Research Products
16PEACE, JUSTICE AND STRONG INSTITUTIONS
1
Research Products
17PARTNERSHIPS FOR THE GOALS
0
Research Products
Documents
12
Citations
40
h-index
4
Documents
10
Citations
7
Scholarly Output
20
Articles
2
Views / Downloads
21/47
Supervised MSc Theses
1
Supervised PhD Theses
1
WoS Citation Count
7
Scopus Citation Count
39
Patents
1
Projects
0
WoS Citations per Publication
0.35
Scopus Citations per Publication
1.95
Open Access Source
5
Supervised Theses
2
| Journal | Count |
|---|---|
| Proceedings of the International Conference on Education and Research in Computer Aided Architectural Design in Europe | 7 |
| Ecaade 2023 Digital Design Reconsidered, Vol 1 | 2 |
| Co-Creating The Future: Inclusion in and Through Design, Ecaade 2022, Vol 1 | 2 |
| Internatıonal Journal of Archıtectural Computıng | 2 |
| Co-Creating The Future: Inclusion in and Through Design, Ecaade 2022, Vol 2 | 1 |
Current Page: 1 / 2
Scopus Quartile Distribution
Competency Cloud
20 results
Scholarly Output Search Results
Now showing 1 - 10 of 20
Conference Object Citation - WoS: 1Activating Co-Creation Methodologies of 3d Printing With Biocomposites Developed From Local Organic Wastes(Ecaade-education & research computer aided architectural design europe, 2022) Afsar, Seçil; Estevez, Alberto T.; Abdallah, Yomna K.; Turhan, Gözde Damla; Özel, Berfin; Doyuran, AslıhanCompared to the take-make-waste-oriented linear economy model, the circular model has been studied since the 1980s. Due to consumption-oriented lifestyles along with having a tendency of considering waste materials as trash, studies on sustainable materials management (SMM) have remained at a theoretical level or created temporary and limited impacts. To ensure SMM supports The European Green Deal, there is a necessity of developing top-down and bottom-up strategies simultaneously, which can be metaphorized as digging a tunnel from two different directions to meet in the middle of a mountain. In parallel with the New European Bauhaus concept, this research aims to create a case study for boosting bottom-up and data-driven methodologies to produce short-loop products made of bio-based biocomposite materials from local food & organic wastes. The Architecture departments of two universities from different countries collaborated to practice these design democratization methodologies using data transfer paths. The 3D printable models, firmware code, and detailed explanation of working with a customized 3D printer paste extruder were shared using online tools. Accordingly, the bio-based biocomposite recipe from eggshell, xanthan gum, and citric acid, which can be provided from local shops, food & organic wastes, was investigated concurrently to enhance its printability feature for generating interior design elements such as a vase or vertical gardening unit. While sharing each step from open-source platforms with adding snapshots and videos allows further development between two universities, it also makes room for other researchers/makers/designers to replicate the process/product. By combining modern manufacturing and traditional crafting methods with materials produced with DIY techniques from local resources, and using global data transfer platforms to transfer data instead of products themselves, this research seeks to unlock the value of co-creative design practices for SMM.Conference Object A Scalability Assessment of Biofabrics as an Alternative Architectural Construction Material(Sociedad Iberoamericana de Gráfica Digital (SIGraDi), 2024-11-15) Gözde Damla Turhan Haskara; Filiz Özbengi Uslu; Selen Çiçek; Anıl Dinç DemirbilekThis research explores the scalability of biopolymer applications in recent biobased textile design applications for architectural construction. It particularly focuses on the transition from laboratory experimentation to architectural construction practice with the aid of computational design and digital fabrication. The research aims at harvesting spatial structures through the re-characterization processes for desired material properties. The methodology is divided into four steps: Modification of the biofabric formulation derived from bacterial cellulose (BC); tensile strength tests; computational design and digital fabrication of a catenary geometry as a scaffold; bioassembly process; and observations at different environmental conditions after the removal of the scaffold. The results have shown that the material properties, such as the tensile strength, structural integrity, high capacity of water detention, and heat insulation, differentiate bacterial cellulose-based biopolymers as circular alternatives to the current conventional architectural construction materials and processes, having us reevaluate our connection with nature through architecture.Conference Object Citation - Scopus: 2Activating Co-Creation Methodologies of 3d Printing With Biocomposites Developed From Local Organic Wastes(Education and research in Computer Aided Architectural Design in Europe, 2022) Afsar S.; Estevez A.T.; Abdallah Y.K.; Turhan G.D.; Oze B.; Doyuran A.; Doyuran, Aslihan; Turhan, Gozde Damla; Estevez, Alberto T.; Afsar, Secil; Oze, Berfin; Abdallah, Yomna K.Compared to the take-make-waste-oriented linear economy model, the circular model has been studied since the 1980s. Due to consumption-oriented lifestyles along with having a tendency of considering waste materials as trash, studies on sustainable materials management (SMM) have remained at a theoretical level or created temporary and limited impacts. To ensure SMM supports The European Green Deal, there is a necessity of developing top-down and bottom-up strategies simultaneously, which can be metaphorized as digging a tunnel from two different directions to meet in the middle of a mountain. In parallel with the New European Bauhaus concept, this research aims to create a case study for boosting bottom-up and data-driven methodologies to produce short-loop products made of bio-based biocomposite materials from local food & organic wastes. The Architecture departments of two universities from different countries collaborated to practice these design democratization methodologies using data transfer paths. The 3D printable models, firmware code, and detailed explanation of working with a customized 3D printer paste extruder were shared using online tools. Accordingly, the bio-based biocomposite recipe from eggshell, xanthan gum, and citric acid, which can be provided from local shops, food & organic wastes, was investigated concurrently to enhance its printability feature for generating interior design elements such as a vase or vertical gardening unit. While sharing each step from open-source platforms with adding snapshots and videos allows further development between two universities, it also makes room for other researchers/makers/designers to replicate the process/product. By combining modern manufacturing and traditional crafting methods with materials produced with DIY techniques from local resources, and using global data transfer platforms to transfer data instead of products themselves, this research seeks to unlock the value of co-creative design practices for SMM. © 2022, Education and research in Computer Aided Architectural Design in Europe. All rights reserved.Conference Object Citation - Scopus: 2Biobased Material Computation and Digital Fabrication for Bacterial Cellulose-Based Biofabrics(Education and research in Computer Aided Architectural Design in Europe, 2023) Turhan, Gözde Damla; Çiçek, Selen; Özbengi Uslu, FilizThe collaboration with biological organisms, biomaterial computation, and digital fabrication offers new possibilities for reconsidering the relationship between human and non-human living forms. These organisms allow for the creation of materials, design and manufacturing processes, and end products to become more closely aligned with natural systems and processes, as they are derived from renewable resources and have a lower environmental impact than synthetic materials. In this research, by focusing on nature and non-human living organisms, biobased material computation and digital fabrication were explored to develop biofabrics. This research offers a fully biodegradable process with zero waste and unlimited supply, enhanced with the resources provided by nature, including nature's design and manufacturing methods. To create this sustainable, circular cycle, one of the most abundant materials in the world, the purest form of cellulose, is produced by bacteria such as Acetobacter Xylinus (A. xylinus). In collaboration with A. xylinus, bacterial cellulose-based biofabrics were grown and harvested. The methodology was divided into four main stages: Digital fabrication of a customized fashion dummy which involves 3D modeling, laser-cutting, and assembly of a fashion dummy; a stochastic scaffold design for the bacterial cellulose biofilm layer; biobased material formulation for developing a biofabric; and bio-assembly. The outcome has been exhibited at Good Design İzmir 7, a national curated exhibition among the invited guests’ section, and had a chance to meet a larger audience to raise awareness. As a result, it was seen that incorporating biobased materials into the digital fabrication process has the potential to not only improve the performance and sustainability of materials but also to encourage designers to reconsider the relationship between humans and ecology. Future studies can include the scalability of such systems for broader design realms, such as biobased architectural solutions for buildings, especially lightweight structures, as well as industrial design products such as packaging. © 2023, Education and research in Computer Aided Architectural Design in Europe. All rights reserved.Conference Object Reconsidering Design Pedagogy Through Diffusion Models(Ecaade-education & research computer aided architectural design europe, 2023) Çicek, Selen; Turhan, Gözde Damla; Özkar, MineThe text-to-image based diffusion models are deep learning models that generate images from text-based narratives in user-generated prompts. These models use natural language processing (NLP) techniques to recognize narratives and generate corresponding images. This study associates the assignment-based learning-by-doing of design studio with the prompt-based diffusion models that require fine-tuning in each image generation. The reference is a specific formal education setup developed within the context of compulsory courses in design programs' curricula. We explore the implications of diffusion models for a model of the basic design studio as a case study. The term basic design implies a core and foundational element of design. To explore and evaluate the potential of AI tools to improve novice designers' design problem solving capabilities, a retrospective analysis was conducted for a series of basic design studio assignments. The first step of the study was to reframe the assignment briefs as design problems and student design works as design solutions. The outcomes of the identification were further used as input data to generate synthetic design solutions by text-to-image diffusion models. In the third step, the design solution sets generated by students and the diffusion models were comparatively assessed by design experts with regards to how well they answered to the design problems defined in the briefs. The initial findings showed that diffusion models were able to generate a myriad of design solutions in a short time. It is conjectured that this might help students to easily understand the ill-defined design problem requirements and generate visual concepts based on written descriptions. However, the comparison indicated the value of design reasoning conveyed in the studio, as it gets highlighted with the lack of improvement in the learning curve of the diffusion model recorded through the synthetic design process.Article Citation - WoS: 1Citation - Scopus: 1Bio-Based Material Integration Into Computational Form-Finding Tools by Introducing Tensile Properties in the Case of Bacterial Cellulose-Based Composites(Sage Publications Ltd, 2023) Turhan, Gozde Damla; Varinlioglu, Guzden; Bengisu, MuratRecent studies in digital design and fabrication processes focus on the potentials of using biological systems in nature as mathematical models or more recently as bio-based materials and composites in various applications. The reciprocal integration between mechanical and digital media for designing and manufacturing bio-based products is still open to development. The current digital form-finding scripts involve an extensive material list, although bio-based materials have not been fully integrated yet. This paper explores a customized form-finding process by suggesting a framework through mechanically informed material-based computation. Bacterial cellulose, an unconventional yet potential material for design, was explored across its biological growth, tensile properties, and the integration of datasets into digital form finding. The initial results of the comparison between digital form finding with conventional materials versus mechanically informed digital form finding revealed a huge difference in terms of both the resulting optimum geometry and the maximum axial forces that the geometry could actually handle. Although this integration is relatively novel in the literature, the proposed methodology has proven effective for enhancing the structural optimization process within digital design and fabrication and for bringing us closer to real-life applications. This approach allows conventional and limited material lists in various digital form finding and structural optimization scripts to cover novel materials once the quantitative mechanical properties are obtained. This method has the potential to develop into a commercial algorithm for a large number of bio-based and customized prototypes within the context of digital form finding of complex geometries.Conference Object Work of Art in the Age of Metaverse Exploring Digital Art Through Augmented Reality(Ecaade-education & research computer aided architectural design europe, 2022) Varinlioglu, Güzden; Oğuz, Kaya; Turkmen, Doruk; Ercan, Irem; Turhan, Gozde DamlaThe creation of artworks in the metaverse as unique files that exist on a blockchain world of the non-fungible tokens (NFTs) have revitalized discussions over the uniqueness of a work of art. Similar to the art world market in Second Life, this has presented a novel way to collect imported or natively digital art. This raises the following questions: What are the processes that artwork undergoes in the web 3.0 or metaverse? What constitutes the reproduction/recreation of a work of art? Which tools can be exploited to create more content for this universe? How does this new approach affect ownership, scarcity and authenticity? Unlike art productions that find a place in museums or galleries, Daragac Art Collective independently uses the streets both as their location, and as their canvas. This creates the need to store the artworks as fully as possible in any form available. With this aim, a team of architects, designers and software engineers designed, implemented and tested a mobile application to represent and recreate the experience of the artworks in the digital environment. The artworks of independent artists were collected virtually and compiled in a relational database over the years, and are displayed in their geographical coordinates, and represented in the 3D world. After discussion on how to represent the artworks, it was decided that some only exist in videos and photographs, therefore, we decided to use the archaeology of digital data and present them in 3D space, to ensure their continued existence once they had been performed or exhibited. Illustrated by the case of our augmented application, this paper discusses the reproduction of ownership and scarcity of artworks in terms of preserving a cultural heritage in the metaverse.Doctoral Thesis Mechanically-Informed Computational Form-Finding for Biobased Materials in the Case of Bacterial Cellulose(İzmir Ekonomi Üniversitesi, 2022) Turhan, Gözde Damla; Bengisu, Murat; Varinlioğlu, GüzdenHesaplamalı tasarım ve üretim süreçlerindeki son çalıs¸malar, dogˆadaki biyolojik sistemleri matematiksel modeller olarak veya çes¸itli uygulamalarda biyolojik tabanlı malzemeler ve kompozitler olarak kullanma potansiyellerine odaklanmaktadır. Biyolojik tabanlı ürünlerin tasarlanması ve üretilmesi için mekanik ve dijital medya arasındaki kars¸ılıklı entegrasyon hala gelis¸tirilmeye açıktır. Mevcut hesaplamalı form bulma betikleri, kapsamlı bir malzeme listesi içermesine ragˆmen biyolojik tabanlı malzemelerin bu listeye eklenmesiyle daha da gelis¸tirilebilir. Bu tez, mekanik olarak bilgilendirilmis¸ malzeme tabanlı hesaplama yoluyla bir çerçeve önererek özelles¸tirilmis¸ bir form bulma sürecini aras¸tırmaktadır. Pek alıs¸ılmadık ancak tasarım için potansiyel bir malzeme olan bakteriyel selülozun biyolojik büyüme süreci, mekanik malzeme özelliklerinin elde edilmesi ve bu veri setlerinin hesaplamalı form bulma sürecine entegrasyonu incelenmis¸tir. Standart hesaplamalı form bulma ve mekanik olarak bilgilendirilmis¸ hesaplamalı form bulma arasındaki kars¸ılas¸tırmanın sonuçları, hem elde edilen optimum geometrinin formu hem de geometrinin gerçekte kaldırabilecegˆi maksimum eksenel kuvvetler açısından büyük bir fark ortaya çıkarmıs¸tır. Bu entegrasyon literatürde nispeten yeni olmasına ragˆmen, önerilen yöntemin hesaplamalı tasarım ve üretimdeki yapısal form bulma sürecini gelis¸tirmek ve pratigˆe yaklas¸tırmak için etkili oldugˆu gözlemlenmis¸tir. Bu yaklas¸ım, nicel mekanik özellikler elde edildikten sonra yeni malzemeleri kapsayacak s¸ekilde çes¸itli form bulma ve yapısal optimizasyon betiklerindeki geleneksel ve sınırlı malzeme listelerinin genis¸letilmesine izin vermektedir. Bu yöntem, tasarım bilimine, malzeme bilimine, mimarlıgˆa ve Antroposenin sürekli artan etkilerine kars¸ı sürdürülebilir bir gelecegˆe katkıda bulunur.Conference Object Citation - Scopus: 33d Printing With Bacterial Cellulose-Based Bioactive Composites for Design Applications(Education and research in Computer Aided Architectural Design in Europe, 2022) Turhan G.D.; Afsar S.; Ozel B.; Doyuran A.; Varinlioglu G.; Bengisu, MuratThe bacterial cellulose (BC) biofilms are explored in design applications as replacements to petroleum-based materials in order to overcome the irreversible effects of the Anthropocene. Unlike biomaterials, designers as mediators could collaborate with bioactive polymers as a form of wetware to manufacture living design products with the aid of novel developments in biology and engineering. Past and ongoing experiments in the literature show that BC has a strong nanofibril structure that provides adhesion for attachment to plant cellulose-based networks and it could grow on the surfaces of the desired geometry thanks to its inherited, yet, controllable bio-intelligence. This research explores BC-based bioactive composites as wetware within the context of digital fabrication in which the methodology involves distinct, yet integrated, three main stages: Digital design and G-code generation (software stage); BC cultivation and printable bioactive composite formulation (wetware stage); digital fabrication with a customized 3D printer (hardware stage). The results have shown that the interaction of BC and plant-based cellulose fibers ofjute yarns has enhanced the structural load-bearing capacity of the form against compressive forces, while pure BC is known only by its tensile strength. Since the outcomes were fabricated with the use of a bioactive material, the degradation process also adds a fourth dimension: Time, by which the research findings could further establish a bio-upcycling process of wastes towards biosynthesis of valuable products. Moreover, developing a BC-based bioactive filament indicates potentially a feasible next step in the evolution of multiscale perspectives on the growth of habitable living structures that could reinforce the interaction between nature and architecture through collaboration with software, hardware, and wetware in innovative and sustainable ways. © 2022, Education and research in Computer Aided Architectural Design in Europe. All rights reserved.Conference Object Biobased Material Computation and Digital Fabrication for Bacterial Cellulose-Based Biofabrics(Ecaade-education & research computer aided architectural design europe, 2023) Turhan, Gözde Damla; Çicek, Selen; Özbengi Uslu, Filiz; Uslu, Filiz ÖzbengiThe collaboration with biological organisms, biomaterial computation, and digital fabrication offers new possibilities for reconsidering the relationship between human and non-human living forms. These organisms allow for the creation of materials, design and manufacturing processes, and end products to become more closely aligned with natural systems and processes, as they are derived from renewable resources and have a lower environmental impact than synthetic materials. In this research, by focusing on nature and non-human living organisms, biobased material computation and digital fabrication were explored to develop biofabrics. This research offers a fully biodegradable process with zero waste and unlimited supply, enhanced with the resources provided by nature, including nature's design and manufacturing methods. To create this sustainable, circular cycle, one of the most abundant materials in the world, the purest form of cellulose, is produced by bacteria such as Acetobacter Xylinus (A. xylinus). In collaboration with A. xylinus, bacterial cellulose-based biofabrics were grown and harvested. The methodology was divided into four main stages: Digital fabrication of a customized fashion dummy which involves 3D modeling, laser-cutting, and assembly of a fashion dummy; a stochastic scaffold design for the bacterial cellulose biofilm layer; biobased material formulation for developing a biofabric; and bio-assembly. The outcome has been exhibited at Good Design Izmir 7, a national curated exhibition among the invited guests' section, and had a chance to meet a larger audience to raise awareness. As a result, it was seen that incorporating biobased materials into the digital fabrication process has the potential to not only improve the performance and sustainability of materials but also to encourage designers to reconsider the relationship between humans and ecology. Future studies can include the scalability of such systems for broader design realms, such as biobased architectural solutions for buildings, especially lightweight structures, as well as industrial design products such as packaging.
