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This dataset presents continuous microclimate observations recorded from a personal weather station (PWS) located in Goa, India (15°35'38.1"N, 73°48'29.87"E, altitude 32 m ASL) on the western coastal belt of the Indian subcontinent. The station records thirteen primary meteorological parameters at each observation interval: outdoor air temperature (°C), relative humidity (%), dew point temperature (°C), apparent temperature / heat index (°C), wind direction (°), wind gust speed (m/s), mean wind speed (m/s), rainfall rate (mm/h), relative atmospheric pressure (hPa), UV index, solar irradiance (W/m²), indoor air temperature (°C), and indoor relative humidity (%). From these base observations, twenty statistically significant derived parameters are computed per record, including: saturation vapour pressure (hPa), actual vapour pressure (hPa), vapour pressure deficit — VPD (kPa), absolute humidity (g/m³), wet bulb temperature (°C), wet bulb globe temperature — WBGT (°C, ISO 7243), Humidex, air density (kg/m³), wind power density (W/m²), Beaufort scale classification, photosynthetically active radiation — PAR estimate (μmol/m²/s), clearness index Kt, reference evapotranspiration ET₀ (FAO-56 Penman-Monteith, mm/day), indoor–outdoor temperature differential ΔT (°C), indoor–outdoor humidity differential ΔRH (%), indoor–outdoor VPD gradient ΔVPD (kPa), indoor–outdoor absolute humidity gradient ΔAH (g/m³), and a mould risk index. The Goa coastal location provides a unique dataset for studying tropical maritime microclimate dynamics, urban heat stress, building energy performance, and pre-monsoon atmospheric conditions on India's west coast. Observations are timestamped in IST (UTC+5:30) and structured as individual PDF reports (MCR-series) with a companion data log. This dataset is intended to grow as a long-term continuous record suitable for climatological trend analysis, agricultural planning, public health research, and renewable energy assessment. Station instrument: Personal Weather Station with wireless outdoor sensor.Data collection method: Manual photographic observation + automated parameter extraction and derivation.Coverage: April 2026 — ongoing.Report format: MCR-series (Microclimate Research Reports), versioned.