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capable of evaluating outdoor thermal comfort (OTC) under heterogeneous conditions. Metrics such as PET and UTCI have considerably improved the capacity to capture the spatial variability of outdoor thermal
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, Special Issue No. 113, 256–260. https://doi.org/10.2112/JCR-SI113-051.1 Kudryavtseva, N., Soomere, T., 2017. Satellite altimetry reveals spatial patterns of variations in the Baltic Sea wave climate. Earth
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combining wave modelling, field observations, remote sensing, advanced mathematical methods and AI, the research will quantify spatial patterns of wave set-up, its statistical distributions and co-occurrence
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such as PET and UTCI have considerably improved the capacity to capture the spatial variability of outdoor thermal comfort across complex urban environments. However, despite their widespread application
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, atmospheric forcing, and human activities. Measuring and modelling this complex ecosystem is particularly challenging because of its high spatial and temporal variability, which requires dedicated and adaptive
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changes to hydrometeorological forcing. Geomorphology, 414, 108383, https://doi.org/10.1016/j.geomorph.2022.108383 Eelsalu, M., Viigand, K., Soomere, T., Parnell, K., 2024a. Systematic analysis