2026-04-26T21:58:28Zhttps://uvadoc.uva.es/oai/request

oai:uvadoc.uva.es:10324/801852025-12-01T20:08:56Zcom_10324_1191com_10324_931com_10324_894col_10324_1379

00925njm 22002777a 4500 dc Ravnikar, Živa author Bahillo Martínez, Alfonso author Goličnik Marušić, Barbara author 2025 This study advances urban planning and climate adaptation science by employing Information and Communication Technologies (ICT) for a detailed assessment of urban microclimate and user comfort in Ljubljana, Slovenia. The research addresses a significant gap in urban environmental assessments by providing real time, finegranularity data to support urban planners in tackling comfort related issues at the street level. Using a previously developed microclimate and user comfort street assessment protocol, the study conducts anindepthcaseanalysisoffivedistinctstreetsinLjubljana.Dataontemperature, noise, humidity, and air quality were collected using ICT tools and analyzed with GeographicInformation System(GIS) technologyto mapandidentifyzones withvaryingcomfortlevels.Themethodologysystematicallyanalysesthesedata, allowing fordescriptive andcumulativemappingofcomfortable,uncomfortable, andextremeuncomfortablezonesacrossdiverseurbanmorphologies,including historic, contemporary, highdensity, and lowdensity areas. By identifying microclimate and user comfort issues, the study provides insights into site specific conditions and reveals di erences in conditions based on the type of urban pattern. On all five streets, we identified the presence of uncomfortable temperature and noise conditions. Street , Zone I is the most critical area, with extremely uncomfortable conditions for %− % of the time and uncomfortable conditions for %− % of the time. The findings demonstrate that environmental conditions can vary considerably between individual streets, within compact urban areas of Ljubljana. This underlines the value of spatially distributed data collection as a necessary complement to traditional monitoring systems, which are typically limited to only a few fixed locations used by the city. The confirmationofthehypothesis“Detailedmicroclimateandusercomfort related data gathered by the ICT and GIS based protocol for street assessment can significantly assist urban planners in better recognition and interpretation of microclimateanduser comfortrelatedissuesinurbanenvironments”establishes the primary contribution of this research. This study o ers a transparent, replicable method that urban planners can use to assess environmental conditions and make informed decisions for improving urban quality. Frontiers in Sustainable Cities, 2025, vol. 7 2624-9634 https://uvadoc.uva.es/handle/10324/80185 10.3389/frsc.2025.1542126 Frontiers in Sustainable Cities 7 2624-9634 Mapping temperature, humidity, air quality, and noise-related comfort conditions to identify urban planning issues: a case study of Ljubljana, Slovenia