date= Timestamp of the measurement (d.M.y H:m:s) tz= Time zone (UTC) doy= Day of the year Sw_in= Incoming Sw (global) radiation corrected [W/m2] Lw_in= Incoming Lw radiation corrected [W/m2] Flag_Sw_in= Flags for incoming Sw (global) radiation (see check_missing_data_and_outliers.r and sw_corr.r functions for more information) Flag_Lw_in= Flags for incoming Lw radiation (see check_missing_data_and_outliers.r and lw_corr.r functions for more information) T_pir_in= Body temperature of upward pointing pyrgeometer (same data as in raw input files) [degC] STD_pyr_in= Standard deviation of Swin STD_pir_in= Standard deviation Lwin Sw_dif_in= Parametrised incoming diffuse radiation (according to method of Bruno Dürr) [W/m2] Sw_out= Outgoing Sw (global) radiation (same data as raw input files) [W/m2] Lw_out= Outgoing Lw radiation corrected [W/m2] Flag_Lw_out= Flags for outgoing Lw radiation (see check_missing_data_and_outliers.r and lw_corr.r functions for more information) T_pir_out= Body temperature of downward pointing pyrgeometer (same data as in raw input files) [degC] STD_pyr_out= Standard deviation of Swout STD_pir_out= Standard deviation of Lwout