[전공분야]
인공지능 활용 도시공간 분석
도시공간 가상 · 현실 데이터 융합
[학력]
2025 Ph.D. in Urban Systems, Dept. of Civil and Urban Engineering, New York University (Brooklyn, NY USA)
2019 MSc in Urban Informatics, Center for Urban Science and Progress, New York University (Brooklyn, NY USA)
2018 한양대학교 공과대학 도시공학과 석사
2016 한양대학교 공과대학 도시공학과 학사
[주요 경력]
2025.09. ~ 현재 조교수, 부산대학교 도시공학과
[논문실적]
Park, Y., Park, K., Wood, B., Thor, P., Gallegos, T., & Curran, L. (2025). Adolescents’ victimization and perpetration of bullying and their built environment: Exploring the protective effect of family resilience. Journal of Interpersonal Violence (accepted). ISSN: 0886-2605.
Ki, D., Lee, H., Park, K., Ha, J., & Lee, S. (2025). Measuring nuanced walkability: Leveraging ChatGPT's vision reasoning with multisource spatial data. Computers, Environment and Urban Systems, 121, 102319. ISSN: 1873-7587.
Shi, Z., Park, K., & Ergan, S. (2025). A taxonomy of urban fa?ade defects and their distribution on fa?ade components: A data-driven analysis of historical inspection reports. Journal of Construction Engineering and Management, 151(10), 04025152. ISSN: 0733-9364.
Park, K., & Ergan, S. (2025). Quantification of the impact of street design features on restorative quality in urban settings. Sustainable Cities and Society, 121, 106216. ISSN: 2210-6707.
Park, K., Ki, D., & Lee, S. (2025). Toward Automated and Comprehensive Walkability Audits with Street View Images: Leveraging Virtual Reality for Enhanced Semantic Segmentation. ISPRS Journal of Photogrammetry and Remote Sensing, 223, 78-90. ISSN: 1872-8235.
Park, Y., Wood, B., Crutchfield, J., & Park, K. (2024). Built Environment and Anxiety Among Adolescents: To What Extent Can Resilient Family Protect Youth?. Families in Society, 10443894241265530. ISSN: 1044-3894.
Park, K., Ergan, S., & Feng, C. (2024). Quality assessment of residential layout designs generated by relational Generative Adversarial Networks (GANs). Automation in Construction, 158, 105243. ISSN: 0926-5805.
Ki, D., Park, K., & Chen, Z. (2023). Bridging the gap between pedestrian and street views for human-centric environment measurement: A GIS-based 3D virtual environment. Landscape and Urban Planning, 240, 104873. ISSN: 0169-2046.