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- ´¡²â²úü°ì±ð Taser
´¡²â²úü°ì±ð Taser
Boursière UCL
´¡²â²úü°ì±ð TaÅŸer est titulaire d'un B.Arch. de l'Université Yasar et M.Sc. diplôme en architecture et physique du bâtiment de l'Institut de technologie d'Izmir, où elle a initié les premières étapes de sa carrière universitaire. TaÅŸer a plusieurs publications dans des revues indexées, des actes de conférence et des symposiums. Ses travaux portent sur l'intelligence computationnelle, la simulation de la performance des bâtiments et l'optimisation; elle est actuellement chercheuse dans le projet SUSHY dans le cadre de son doctorat. é³Ù³Ü»å±ð²õ à l'Сư³æ´«Ã½ (UCLouvain). Elle s'intéresse particulièrement à l'évaluation de la pertinence entre le travail hybride et la performance du bâtiment comme l'axe principal de sa thèse de doctorat.
aybuke.taser@uclouvain.be
Pour en savoir plus sur les publications, veuillez visiter ces pages:
Ìý
researchgate.net/profile/Aybueke_Taser
uclouvain.academia.edu/aybuketaser
orcid.org/0000-0002-0335-2904https://scholar.google.com/citations?user=gTeM8CIAAAAJ&hl=tr&oi=sra
https://www.linkedin.com/in/aybuketaser/
https://figshare.com/authors/Ayb_ke_Ta_er/16501338
- ¶Ù¾±±è±ôô³¾±ð²õ
´¡²Ô²Ôé±ð Label Institution 2023 (informations manquantes) Ä°zmir University of Technology
Ìý
Ìý
2023
Çiçek, Selen ; Turhan, Gozde Damla ; Taser, ´¡²â²úü°ì±ð. Deterioration of pre-war and rehabilitation of post-war urbanscapes using generative adversarial networks. In: International Journal of Architectural Computing, , p. 147807712311812 (2023). doi:10.1177/14780771231181237 (Soumis).
2023
Taser, ´¡²â²úü°ì±ð. Multi-objective evolutionary optimization of photovoltaic glass for thermal, daylight, and energy consideration. In: Multi-objective evolutionary optimization of photovoltaic glass for thermal, daylight, and energy consideration, Vol. 264, no.00, p. 112070 (2023). doi:10.1016/j.solener.2023.112070.
2023
Taser, ´¡²â²úü°ì±ð ; Koyunbaba, BaÅŸak Kundakcı ; Kazanasmaz, Tuğçe. Thermal, daylight, and energy potential of building-integrated photovoltaic (BIPV) systems: A comprehensive review of effects and developments. In: Solar Energy, Vol. 251, no.3, p. 171-196 (2023). doi:10.1016/j.solener.2022.12.039 (Soumis).
2022
Taser, ´¡²â²úü°ì±ð ; UÇARYILMAZ, Sedef ; ÇATAROÄžLU, Ilgın ; SOFUOÄžLU, Sait Cemil. Indoor air CO2 concentrations and ventilation rates in two residences in Ä°zmir, Turkey. In: Environmental Research and Technology, Vol. 5, no.2, p. 172-180 (2022). doi:10.35208/ert.1084052 (Soumis).
2022
Taser, ´¡²â²úü°ì±ð ; Kazanasmaz, Tuğçe. The Role of Light Shelf and Window Size on Daylight Performance of an Architecture Studio :. In: International Journal of Digital Innovation in the Built Environment, Vol. 11, no.3, p. 1-14 (2022). doi:10.4018/ijdibe.306253 (Soumis).
2023
Taser, ´¡²â²úü°ì±ð ; Uçaryılmaz, Sedef ; Arsan, Zeynep DurmuÅŸ. Effect of Building Envelope and Environmental Variables on Building Energy Performance: Case of a Residential Building in Mediterranean Climate. In: NÃdia S. Caetano, Manuel Carlos Felgueiras (eds.), Environmental Science and Engineering : The 9th International Conference on Energy and Environment Research, 2023, p. 69-80. 9783031435584. doi:10.1007/978-3-031-43559-1_7.
2023
Taser, ´¡²â²úü°ì±ð ; Kazanasmaz, Z. Tuğçe. Daylight Performance and Lighting Energy Savings of Amorphous and Crystalline Silicon Solar Cells in an Architecture Studio. 2023 IEEE International Conference on Environment and Electrical Engineering (EEEIC) (Madrid, Spain, du 6/6/2023 au 9/6/2023). doi:10.1109/eeeic/icpseurope57605.2023.10194820.
2022
Taser, ´¡²â²úü°ì±ð ; Arsan, Zeynep Durmus ; Koyunbaba, Basak Kundakci ; Kazanasmaz, Z. Tugce. Thermal and lighting energy benefits of photovoltaic glass in an architecture studio. 2022 IEEE International Conference on Environment and Electrical Engineering (EEEIC) (Prague, Czech Republic, du 28/6/2022 au 1/7/2022). doi:10.1109/eeeic/icpseurope54979.2022.9854776.
2023
Taser, ´¡²â²úü°ì±ð. Multi-Objective Evolutionary Optimization of Photovoltaic Glass for Thermal, Daylight, and Energy Consideration (), 2023. 126 p.
2023
Taser, ´¡²â²úü°ì±ð. Sustaining the Future Hybrid Workplace, 2023. 2 p.