This dataset is collected from the Measurement of Turbulence in an Urban Setup (MoTUS) project for the month of November and December 2018. Daily files for each of the instruments are zipped with 7z. Each zip file contains 13 files from the each instrument and is named ddmmyyXXX.txt, where ddmmyy is the date and XXX is either anem#_20Hz for the anemometers, radiometre for the net radiometer, meteo for the meteorological station and mat, North, South, East and West for the surface temperature sensors). For all of the anemometers - GILL Wind Master - (except for anemometer 12 and 14), the file is structured as: Column 1: Node Column 2: Wind direction (°) Column 3: Horizontal wind speed (ms-1) Column 4: Vertical wind speed (ms-1) Column 5: Unit standards Column 6: Sonic speed (ms-1) Column 7: Sonic temperature (K) Column 8: Time stamp Column 9: Communication port For anemometer 12 and 14 - GILL Wind Master RA - , the file is structured as: Column 1: Node Column 2: Horizontal wind speed in the x-direction (ms-1) Column 3: Horizontal wind speed in the y-direction (ms-1) Column 4: Vertical wind speed (ms-1) Column 5: Unit standards Column 6: Sonic speed (ms-1) Column 7: Sonic temperature (K) Column 8: Time stamp Column 9: Communication port The data from the meteorological station is structured as: Column 1: Node Column 2: Pressure (hPa) Column 3: Relative humidity (%) Column 4: Air temperature(°C) Column 5: Dew point temperature (°C) Column 6: Station time Column 7: Supply voltage Column 8: Status Column 9: Checksum Column 10: Time stamp The data from the net radiometer - Kipp & Zonen CNR4 - is structured as: Column 1: Pyranometer Upper Irradiance [W/m^2] Column 2: Pyranometer Lower Irradiance [W/m^2] Column 3: Pyrgeometer Upper Irradiance [W/m^2] Column 4: Pyrgeometer Lower Irradiance [W/m^2] Column 5: Albedo computed [-] (Between [0;1] - Snow : 0.9 ; Grassland : 0.3.) Column 6: Net Solar radiation [W/m^2](Solar radiation that is absorbed by the earth surface. Always positive. 0 at night.) ntr=[] #Net (total) radiation [W/m^2] Column 7: Net Far Infrared radiation [W/m^2] (o Often negative. Roughly independent of ambient temperature.) Column 8: Sky temperature [°C](Clear conditions : sky temperature lower than ambient temperature & cloudy conditions : sky temperature is equal to ambient temperature.) Column 9: Ground temperature [°C] (Assumed to be roughly equal to ambiant temperature. May be lower than ambient temperature during the night and higher during the day.) Column 10: Ground temperature [°C] Column 11: Radiometer temperature [°C] Column 12: Timestamp The data from the surface temperatures - Optris - is structured as: Column 1: Surface temperature Column 2: Albedo (assigned) Column 3: Time stamp Additional information on the measurement setup can be found in the following publication: Mauree, D., Deschamps, L., Becquelin, P., Loesch, P., and Scartezzini, J.-L. (2017). Measurement of the impact of buildings on meteorological variables. Building Simulation Applications, BSA 2017, 273–278. Mauree, Dasaraden, Daniel Sang-Hoon Lee, Emanuele Naboni, Silvia Coccolo, and Jean-Louis Scartezzini. "Localized meteorological variables influence at the early design stage." Energy Procedia 122 (2017): 325-330.