Albayrak Kutlay, Yasemin

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Profile URL
https://hdl.handle.net/20.500.14365/6876
Name Variants
Kutlay, Yasemin Albayrak
Albayrak-Kutlay, Yasemin
Job Title
Email Address
yasemin.albayrak@ieu.edu.tr
Main Affiliation
06.04. Interior Architecture and Environmental Design
Status
Current Staff
Website
ORCID ID
0000-0002-7168-5735
Scopus Author ID
Turkish CoHE Profile ID
9CD16A9959DBD29F
Google Scholar ID
NgfROdcAAAAJ
WoS Researcher ID
NFS-5080-2025
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2

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2

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1

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    Article
    Citation - WoS: 1
    Citation - Scopus: 1
    Emerging Interdisciplinary Approaches: Integrated Biofeedback/IVR Methodologies for Arousal Measurement in Biophilic Interiors
    (Routledge Journals, Taylor & Francis Ltd, 2025) Albayrak-Kutlay, Yasemin
    This research examines the impact of biophilic interior design variables on arousal levels by employing an interdisciplinary approach that integrates biofeedback and immersive virtual reality (IVR) methodologies. Traditionally, the relationship between interiors and human experiences has been explored using qualitative methods like surveys, interviews, self-reports, and observation. However, emerging fields such as neuroarchitecture and biofeedback-informed interior design offer a novel perspective by utilizing quantitative assessments to explore the interactions between the human body, brain, and interiors. The study seeks to advance the understanding of integrated biofeedback and IVR methodologies by quantifying the influence of biophilic variables in interior design. Specifically, it proposes to analyse the effects of key biophilic design variables on arousal levels through the collection and analysis of quantitative physiological and neurophysiological data. Additionally, this research will test the validity and efficiency of the integrated biofeedback and VR methodologies, evaluating their effectiveness in reliably quantifying human experience.
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    Article
    Citation - WoS: 1
    Citation - Scopus: 1
    Exploring Vr and Neuroscience Methodologies in Interior Design: a Systematic Review
    (Wiley, 2025) Albayrak-Kutlay, Yasemin; Bengisu, Murat
    The intersection of neuroscience and interior design offers innovative methodologies for quantifying human experiences in interiors. This systematic review explores the use of immersive virtual reality (IVR) technologies and biometrics in neuroscience-informed interior design, aimed at evaluating current practices, identifying challenges, and suggesting future directions. This study has three objectives: (1) to examine the current applications of integrated VR/neuroscience methodologies in neuroscience-informed interior design; (2) to investigate the utilization of IVR technologies, devices, and sensors measuring biometrics employed in neuroscience-informed interior design to quantify human experience; and (3) to explore potential future directions in interior design that integrate insights from neuroscientific research findings and methodologies. Using the PRISMA methodology, we searched databases, including Taylor and Francis Online, ProQuest, PubMed, PsycINFO, Web of Science, Scopus, and ScienceDirect, in October 2023, retrieving 164 eligible studies, with 29 reviewed in detail. The risk of bias was assessed by paying attention to randomization, intervention deviations, outcome measurement, and the selection of reported results. The findings highlight the critical role of IVR and biometric analysis in enhancing research validity. However, variability in data reliability and differences between self-assessed and neurophysiological outcomes, particularly in EEG studies, have been noted. Despite these limitations, the reviewed studies present reliable findings, underscoring the potential for interdisciplinary collaboration to address technical challenges. Practical implications include advancing evidence-based interior design and developing tools to capture and interpret human experiences better. This study provides designers with a detailed analysis of IVR and neuroscience methodologies, highlighting tools, outcome measures, and their advantages and limitations. Future research should prioritize deeper insights into human-environment interactions through artificial intelligence (AI), machine learning (ML), and biometric sensors integrated with IVR technologies. These advancements will equip designers with interdisciplinary methods and emerging technologies to create innovative interiors that enhance the quality of life.