Decoding ivy behavior for a performative flow model

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dc.authorid0000-0003-0688-548X
dc.authorid0000-0002-1044-1649
dc.authorid0000-0003-1245-0044
dc.contributor.authorKahraman, Ataberken_US
dc.contributor.authorCimşit Koş, Fitnaten_US
dc.contributor.authorDelerel, Zehraen_US
dc.contributor.authorKavurmacıoğlu, Özgüren_US
dc.contributor.authorOzar, Betülen_US
dc.date.accessioned2026-02-04T12:56:23Z
dc.date.available2026-02-04T12:56:23Z
dc.date.issued2025-05-27
dc.departmentIşık Üniversitesi, Sanat, Tasarım ve Mimarlık Fakültesi, İç Mimarlık ve Çevre Tasarımı Bölümü en_US
dc.departmentIşık University, Faculty of Arts, Design and Architecture, Department of Interior Architecture and Environmental Designen_US
dc.description.abstractIvy plants exhibit a biologically driven growth pattern that intertwines adaptation with structural interaction. Their ability to climb vertical surfaces, such as walls and trees, establishes a complex relationship with built environments. This study develops a computational model to analyze ivy’s growth behavior and water absorption dynamics, utilizing parametric design techniques for an integrative simulation. Through Python scripting in Rhino, growth and flow parameters were systematically modeled to replicate natural processes. The first experiment simulates ivy’s exploratory growth, visualizing its organic expansion through curves and mass structures. Beyond adherence to surfaces, ivy interacts with material properties, particularly mortar, which retains moisture. As ivy roots absorb this water, mortar dries, leading to material degradation. To capture this phenomenon, the second experiment employs a dynamic flow simulation, illustrating how moisture migrates through walls and how ivy’s absorption alters its distribution over time. Furthermore, the model examines the long-term impact of ivy on structural integrity, where root penetration widens mortar joints, accelerating architectural decay. By integrating principles from complex adaptive systems and performative design, the study emphasizes self-organizing behaviors within dynamic environments. Flow-based models require an elastic topology that responds to natural forces, reinforcing bio-responsive design strategies. This research provides insights into material resilience, ecological interdependencies, and regenerative design, contributing to discussions on responsive architecture. The proposed computational framework enhances the understanding of nature’s influence on built environments, offering strategies for sustainable architectural adaptation.en_US
dc.description.versionPublisher's Versionen_US
dc.identifier.citationKahraman, A., Cimşit Koş, F., Delerel, Z., Kavurmacıoğlu, Ö. & Ozar, B. (2025). Decoding ivy behavior for a performative flow model. Paper presented at the Towards Integrative Design Bio-Integrated and Digitally Fabricated, 1-2. https://doi.org/10.33774/coe-2025-mjj4pen_US
dc.identifier.endpage2
dc.identifier.startpage1
dc.identifier.urihttps://hdl.handle.net/11729/6975
dc.identifier.urihttps://doi.org/10.33774/coe-2025-mjj4p
dc.institutionauthorOzar, Betülen_US
dc.institutionauthorid0000-0003-1245-0044
dc.language.isoenen_US
dc.peerreviewedYesen_US
dc.publicationstatusPublisheden_US
dc.publisherCambridge University Pressen_US
dc.relation.ispartofTowards Integrative Design Bio-Integrated and Digitally Fabricateden_US
dc.relation.publicationcategoryKonferans Öğesi - Uluslararası - Kurum Öğretim Elemanıen_US
dc.rightsinfo:eu-repo/semantics/openAccessen_US
dc.subjectPerformative topological systemsen_US
dc.subjectComputational biomorphogenesisen_US
dc.subjectParametric flow simulationen_US
dc.subjectAdaptive architectural degradationen_US
dc.titleDecoding ivy behavior for a performative flow modelen_US
dc.typeConference Objecten_US
dspace.entity.typePublicationen_US

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