Preparing the past for the future: Curating a daylight simulation model of Hagia Sophia for modern data infrastructures. In: International Conference on Cultural Heritage and New Technologies CHNT25. Vienna, Austria: Propylaeum, Heidelberg, Germany; In Press.
Efficient simulation for visual comfort evaluations. Energy and Buildings. 2022;267.
Nur eine Frage der Optik? Untersuchungen von Reflexion und Transmission an der Hochschule Luzern. Fassade - Schweizerische Fachzeitschrift für Fenster- und Fassadenbau. 2022;3.
Analysis and evaluation of BSDF characterization of daylighting systems. Paris: International Energy Agency (IEA); 2021.
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BSDF generation procedures for daylighting systems. International Energy Agency; 2021.
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Daylight scattering by late antique window glass from Ephesos: Reconstructing the spatial distribution of daylight in lost architecture. In: International Conference on Cultural Heritage and New Technologies CHNT24. Vienna, Austria: Propylaeum, Heidelberg, Germany; 2021.
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Effects of Phase Change Materials on heat flows through double skin facades. Journal of Facade Design and Engineering. 2021;9(1):17-30.
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Irregular light scattering properties of fenestration for comfortable and energy-efficient buildings. International Journal of Digital Innovation in the Built Environment. 2021;10(2):1-16.
A model chain to simulate daylight in historic built environments. Kiel, Germany; 2021.
(1.12 MB)

Modeling the effects of daylight scattering by window glass: The case of sixth century Hagia Sophia in Istanbul. In: 21. Congrès de l'Association Internationale pour l'Histoire du Verre. Istanbul, Turkey: Association Internationale pour l'Histoire du Verre; 2021.
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Challenges in the simulation of the daylight distribution in late antique Hagia Sophia. In: International Hagia Sophia Symposium. Istanbul, Turkey: Fatih Sultan Mehmet Vakıf University, Faculty of Architecture and Design; 2020.
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Data-driven modelling of daylight scattering by Roman window glass. ACM Journal on Computing and Cultural Heritage. 2020;13(1):20.
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Designing the colour, pattern and specularity of building integrated photovoltaics. In: Architecture, Technology and Innovation 2020: Smart buildings, smart cities. Izmir, Turkey; 2020.
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Hagia Sophia’s sixth century daylighting. In: Proceedings of the International Hagia Sophia Symposium. Istanbul, Turkey: Fatih Sultan Mehmet Vakıf University, Faculty of Architecture and Design; 2020.
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An innovative facade element with controlled solar-thermal collector and storage. Sustainability. 2020;12(13).
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Irregular light scattering properties of innovative fenestration for comfortable and energy-efficient buildings. In: Architecture, Technology and Innovation 2020: Smart buildings, smart cities. Izmir, Turkey; 2020.
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Retroreflective coating for window blinds: Reconciling view, solar control and visual comfort. In: Facade Tectonics 2020 World Congress. Vol 1. Noble, Douglas and Kensek, Karen and Gould, Katie ed. Los Angeles, United States: Tectonic Press; 2020. 2. p. 287-299p.
A critical literature review of spatio-temporal simulation methods for daylight glare assessment. SDAR Journal of Sustainable Design in Engineering of the Built Environment. 2019;7(1).
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Data-driven modelling of daylight redirecting fenestration at variable directional resolution. Vol Ph.D. Urla, Izmir, Turkey: Izmir Institute of Technology; 2019.
Daylight scattering by late antique window glass from Ephesos: Reconstructing the spatial distribution of daylight in lost architecture. Vienna, Austria: Museen der Stadt Wien - Stadtarchäologie; 2019.
«… an Licht und Sonnengefunkel aber hat sie Überfluss»: Die 3D-Innenraumrekonstruktion der Hagia Sophia in Istanbul. In: Auferstehung der Antike: Archäologische Stätten digital rekonstruiert. Darmstadt: wbg Philipp von Zabern in Wissenschaftliche Buchgesellschaft; 2019. 1. p. 114-117p.
Photon-mapping in climate-based daylight modelling with high-resolution BSDFs. Energy and Buildings. 2019;205.
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Photon mapping to accelerate daylight simulation with high-resolution, data-driven fenestration models. Lausanne, CH: Ecole Polytechnique Fédérale de Lausanne; 2019.
Photon mapping to accelerate daylight simulation with high-resolution, data-driven fenestration models. Journal of Physics: Conference Series. 2019;1343(1).
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High Resolution Complex Glazing Library BIMSOL. Horw, Switzerland: Lucerne University of Applied Sciences and Arts; 2018.
Modeling light transmission through Venetian blinds. Horw, Switzerland: Lucerne University of Applied Sciences and Arts; 2018.
Measuring and modelling scattering properties of Roman window glass for daylight simulation. British Museum, London, UK; 2017.
Monitoring of solar irradiation at Lucerne University of Applied Sciences and Arts. Lucerne University of Applied Sciences and Arts; 2017.
Accordance of Light Scattering from Design and De-Facto Variants of a Daylight Redirecting Component. Buildings. 2016;6(3):30.
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