Özgüç B. Çapunaman
Part-time Researcher;
Alum - Ph.D in Architecture
Özgüç B. Çapunaman completed his Ph.D studies at ForMat Lab in the Design Computing cluster. His research focuses on advanced robotic fabrication, machine perception, and computational tool-making. He holds a Master’s in Computational Design from Carnegie Mellon University, where he attended as a Fulbright scholar and a Bachelor’s in Industrial Design from Istanbul Bilgi University. His contributions to the field have been recognized by the Association for Computer-Aided Architectural Design Research in Asia (CAADRIA) with the Young CAADRIA Award in 2020. His academic excellence is further acknowledged through the University Graduate Fellowship and the Alma Heinz and August Louis Pohland Graduate Fellowship at Penn State University.
Contact: ozgucbertug@psu.edu
Personal Website: ozgucbertug.com
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Çapunaman, Ö. B., Farrokhsiar, P., Bilen, S., Duarte, J., & Gürsoy, B. (2024). Vision-Based Sensing and Digital Twin Technologies in Conformal 3D Concrete Printing: Exploring Operational Accuracy, Adaptability, and Scalability, and Investigating Monitoring Capabilities in Large-Scale Applications. Construction Robotics. [Under review].
Çapunaman, Ö. B., & Gürsoy, B. (2024). Vision-augmented Robotic Fabrication (V-aRF): Systematic Review on Contemporary Approaches and Computational Methods in Architectural Fabrication and Assembly using Machine Vision. Construction Robotics. [In press].
Çapunaman, Ö. B., Bingöl, C. K., & Gürsoy, B. (2022).From Stitches to Digits and Back: Computational Crocheting of Branching Geometries. Eskisehir Technical University Journal of Science and Technology. DOI:10.18038/estubtda.11699938
Çapunaman, Ö. B., Dong, W., & Gürsoy, B. (2022). A Vision-Based Sensing Framework for Adaptive Robotic Tooling of Indefinite Surfaces. Construction Robotics. DOI: https://doi.org/10.1007/s41693-022-00081-4
Çapunaman, Ö. B., Iseman, E., & Gürsoy, B. (2023).Material-in-the-Loop Fabrication: A Vision-Based Adaptive Clay 3D Printing Workflow on Indeterminate Sand Surfaces. In Turrin, M., Andriotis, C., Rafiee, A. (Eds.), Computer-Aided Architectural Design Futures. Interconnections: Co-computing Beyond Boundaries (pp. 410-424). Cham: Springer.
ISBN: 978-3-031-37188-2Çapunaman, Ö. B., Bingöl, C. K., & Gürsoy, B. (2017).Computing Stitches and Crocheting Geometry. In Cagdas, G., Özkar, M., Gül, L. F., Gurer, E. (Eds.), Computer-Aided Architectural Design Futures. Future Trajectories (pp. 289-305). Singapore: Springer. ISBN: 978-981-10-5196-8
Cook, K., Çapunaman, Ö. B., & Gürsoy, B. (2024). Robotic Sand Shaping for Reusable Formworks: From Toolpath Design to Emergent Shapes and Patterns in Cast Form. eCAADe 42: Data-Driven Intelligence. [In press].
Çapunaman, Ö. B.,Mohseni, A., Zamani, A., Walter, N., & Gürsoy, B. (2024). Conformal Robotic 3D Printing and Post-fabrication Analysis of Mycelium-based Composites. Proceedings of the ROB|ARCH 2024 Conference: Beyond Optimization. [In press].
Çapunaman, Ö. B., & Gürsoy, B. (2022). (2022). See - Sense - Respond: Adaptive Intelligent Robotic Fabrication Framework for Glass Fiber-Reinforced Plastic Architectural Panels. In Pak B., Wurzer G. and Stouffs R. (Eds.), eCAADe 40: Co-Creating the Future (2), (pp. 419-426). ISBN: 9789491207334
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Çapunaman, Ö. B.,Mohseni, A., Zamani, A., Walter, N., & Gürsoy, B. (2024, May). Conformal Robotic 3D Printing and Post-fabrication Analysis of Mycelium-based Composites. Presented at ROB|ARCH 2024 Conference: Beyond Optimization in Toronto, Canada.
Çapunaman, Ö. B., Iseman, E., & Gürsoy, B. (2023). Material-in-the-Loop Fabrication: A Vision-Based Adaptive Clay 3D Printing Workflow on Indeterminate Sand Surfaces. Presented at CAAD Futures 2023 Conference in TU Delft, Netherlands.
Çapunaman, Ö. B., & Gürsoy, B. (2022). See - Sense - Respond: Adaptive Intelligent Robotic Fabrication Framework for Glass Fiber-Reinforced Plastic Architectural Panels. Presented at eCAADe 40: Co-Creating the Future at Gent, Belgium.
Çapunaman, Ö. B., Bingöl, C. K., & Gürsoy, B. (2017). Computing Stitches and Crocheting Geometry. Presented at CAAD Futures 2017 Conference in Istanbul, Turkey.
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