From efbe35f885cdf3c894a480998b4e0f4274cb4822 Mon Sep 17 00:00:00 2001 From: Baptiste Vandecrux <35140661+BaptisteVandecrux@users.noreply.github.com> Date: Fri, 14 Jun 2024 15:44:33 +0200 Subject: [PATCH] removing variables and output files metadata --- setup.py | 2 - src/pypromice/process/metadata.csv | 56 ----------- src/pypromice/process/variables.csv | 92 ------------------- src/pypromice/ressources/__init__.py | 0 .../ressources/variable_aliases_GC-Net.csv | 78 ---------------- 5 files changed, 228 deletions(-) delete mode 100644 src/pypromice/process/metadata.csv delete mode 100644 src/pypromice/process/variables.csv delete mode 100644 src/pypromice/ressources/__init__.py delete mode 100644 src/pypromice/ressources/variable_aliases_GC-Net.csv diff --git a/setup.py b/setup.py index cb1310cb..7dcd1309 100644 --- a/setup.py +++ b/setup.py @@ -31,8 +31,6 @@ packages=setuptools.find_packages(where="src"), python_requires=">=3.8", package_data={ - "pypromice.ressources": ["variable_aliases_GC-Net.csv"], - "pypromice.process": ["metadata.csv", "variables.csv"], "pypromice.tx": ["payload_formats.csv", "payload_types.csv"], "pypromice.qc.percentiles": ["thresholds.csv"], "pypromice.postprocess": ["station_configurations.toml", "positions_seed.csv"], diff --git a/src/pypromice/process/metadata.csv b/src/pypromice/process/metadata.csv deleted file mode 100644 index 01b79ff5..00000000 --- a/src/pypromice/process/metadata.csv +++ /dev/null @@ -1,56 +0,0 @@ -attribute,entry -acknowledgements,The Programme for Monitoring of the Greenland Ice Sheet (PROMICE) -alt.axis,Z -alt.coverage_content_type,coordinate -gps_alt.positive,up -cdm_data_type, -comment,https://doi.org/10.22008/promice/data/aws -contributor_name, -contributor_role, -conventions,ACDD-1.3; CF-1.7 -creater_email,pho@geus.dk -creater_url,https://promice.dk -creator_institution,Geological Survey of Denmark and Greenland (GEUS) -creator_name,Penelope How -creator_type,person -featureType,timeSeries -geospatial_bounds_crs,EPSG:4979 -geospatial_lat_extents_match,gps_lat -geospatial_lat_resolution, -geospatial_lat_units,degrees_north -geospatial_lon_extents_match,gps_lon -geospatial_lon_resolution, -geospatial_lon_units,degrees_east -geospatial_vertical_resolution, -geospatial_vertical_units,EPSG:4979 -institution,Geological Survey of Denmark and Greenland (GEUS) -instrument,See https://doi.org/10.5194/essd-13-3819-2021 -instrument_vocabulary,GCMD:GCMD Keywords -keywords,GCMDSK:EARTH SCIENCE > CRYOSPHERE > GLACIERS/ICE SHEETS > ICE SHEETS > ICE SHEET MEASUREMENTS; GCMDSK:EARTH SCIENCE > CRYOSPHERE > GLACIERS/ICE SHEETS > GLACIER MASS BALANCE/ICE SHEET MASS BALANCE; GCMDSK:EARTH SCIENCE > CRYOSPHERE > SNOW/ICE > SNOW/ICE TEMPERATURE; GCMDSK:EARTH SCIENCE > CRYOSPHERE > SNOW/ICE; GCMDSK:EARTH SCIENCE > CRYOSPHERE > SNOW/ICE > SNOW MELT; GCMDSK:EARTH SCIENCE > CRYOSPHERE > SNOW/ICE > SNOW DEPTH; GCMDSK:EARTH SCIENCE > CRYOSPHERE > SNOW/ICE > ICE VELOCITY; GCMDSK:EARTH SCIENCE > CRYOSPHERE > SNOW/ICE > ALBEDO; GCMDSK:EARTH SCIENCE > TERRESTRIAL HYDROSPHERE > SNOW/ICE > ALBEDO; GCMDSK:EARTH SCIENCE > TERRESTRIAL HYDROSPHERE > SNOW/ICE > ICE GROWTH/MELT; GCMDSK:EARTH SCIENCE > TERRESTRIAL HYDROSPHERE > SNOW/ICE > ICE VELOCITY; GCMDSK:EARTH SCIENCE > TERRESTRIAL HYDROSPHERE > SNOW/ICE > SNOW DEPTH; GCMDSK:EARTH SCIENCE > TERRESTRIAL HYDROSPHERE > SNOW/ICE > SNOW MELT; GCMDSK:EARTH SCIENCE > TERRESTRIAL HYDROSPHERE > SNOW/ICE > SNOW/ICE TEMPERATURE; GCMDSK:EARTH SCIENCE > TERRESTRIAL HYDROSPHERE > SNOW/ICE; GCMDSK:EARTH SCIENCE > ATMOSPHERE > ATMOSPHERIC PRESSURE; GCMDSK:EARTH SCIENCE > ATMOSPHERE > ATMOSPHERIC RADIATION > ALBEDO; GCMDSK:EARTH SCIENCE > ATMOSPHERE > ATMOSPHERIC RADIATION > INCOMING SOLAR RADIATION; GCMDSK:EARTH SCIENCE > ATMOSPHERE > ATMOSPHERIC RADIATION > LONGWAVE RADIATION > DOWNWELLING LONGWAVE RADIATION; GCMDSK:EARTH SCIENCE > ATMOSPHERE > ATMOSPHERIC RADIATION > LONGWAVE RADIATION > UPWELLING LONGWAVE RADIATION; GCMDSK:EARTH SCIENCE > ATMOSPHERE > ATMOSPHERIC RADIATION > LONGWAVE RADIATION; GCMDSK:EARTH SCIENCE > ATMOSPHERE > ATMOSPHERIC RADIATION > NET RADIATION; GCMDSK:EARTH SCIENCE > ATMOSPHERE > ATMOSPHERIC RADIATION > OUTGOING LONGWAVE RADIATION; GCMDSK:EARTH SCIENCE > ATMOSPHERE > ATMOSPHERIC RADIATION > RADIATIVE FLUX; GCMDSK:EARTH SCIENCE > ATMOSPHERE > ATMOSPHERIC RADIATION > RADIATIVE FORCING; GCMDSK:EARTH SCIENCE > ATMOSPHERE > ATMOSPHERIC RADIATION > SHORTWAVE RADIATION > DOWNWELLING SHORTWAVE RADIATION; GCMDSK:EARTH SCIENCE > ATMOSPHERE > ATMOSPHERIC RADIATION > SHORTWAVE RADIATION; GCMDSK:EARTH SCIENCE > ATMOSPHERE > ATMOSPHERIC RADIATION > SUNSHINE; GCMDSK:EARTH SCIENCE > ATMOSPHERE > ATMOSPHERIC RADIATION; GCMDSK:EARTH SCIENCE > ATMOSPHERE > ATMOSPHERIC TEMPERATURE > SURFACE TEMPERATURE > AIR TEMPERATURE; GCMDSK:EARTH SCIENCE > ATMOSPHERE > ATMOSPHERIC WATER VAPOR > WATER VAPOR INDICATORS > HUMIDITY > ABSOLUTE HUMIDITY; GCMDSK:EARTH SCIENCE > ATMOSPHERE > ATMOSPHERIC WATER VAPOR > WATER VAPOR INDICATORS > HUMIDITY > RELATIVE HUMIDITY; GCMDSK:EARTH SCIENCE > ATMOSPHERE > ATMOSPHERIC WINDS > LOCAL WINDS; GCMDSK:EARTH SCIENCE > ATMOSPHERE > ATMOSPHERIC WINDS > SURFACE WINDS > U/V WIND COMPONENTS; GCMDSK:EARTH SCIENCE > ATMOSPHERE > ATMOSPHERIC WINDS > SURFACE WINDS > WIND DIRECTION; GCMDSK:EARTH SCIENCE > ATMOSPHERE > ATMOSPHERIC WINDS > SURFACE WINDS > WIND SPEED; GCMDSK:EARTH SCIENCE > ATMOSPHERE > ATMOSPHERIC WINDS > SURFACE WINDS; GCMDSK:EARTH SCIENCE > ATMOSPHERE > CLOUDS; GCMDSK:EARTH SCIENCE > ATMOSPHERE > PRECIPITATION -keywords_vocabulary,GCMDSK:GCMD Science Keywords:https://gcmd.earthdata.nasa.gov/kms/concepts/concept_scheme/sciencekeywords -lat.axis,Y -lat.coverage_content_type,coordinate -lat.long_name,station latitude -license,Creative Commons Attribution 4.0 International (CC-BY-4.0) https://creativecommons.org/licenses/by/4.0 -lon.axis,X -lon.coverage_content_type,coordinate -lon.long_name,station longitude -lon.units,degrees_east -metadata_link, -naming_authority,dk.geus.promice -platform, -platform_vocabulary,GCMD:GCMD Keywords -processing_level,Level 3 -product_status,beta -product_version,4 -program,PROMICE -project,PROMICE -publisher_email,info@promice.dk -publisher_institution,GEUS -publisher_name,GEUS -publisher_type,institution -publisher_url,https://promice.dk -references,"How, P.; Abermann, J.; Ahlstrøm, A.P.; Andersen, S.B.; Box, J. E.; Citterio, M.; Colgan, W.T.; Fausto. R.S.; Karlsson, N.B.; Jakobsen, J.; Langley, K.; Larsen, S.H.; Mankoff, K.D.; Pedersen, A.Ø.; Rutishauser, A.; Shield, C.L.; Solgaard, A.M.; van As, D.; Vandecrux, B.; Wright, P.J., 2022, ""PROMICE and GC-Net automated weather station data in Greenland"", https://doi.org/10.22008/FK2/IW73UU, GEUS Dataverse" -references_bib,@article{How2022; doi = {10.22008/FK2/IW73UU}; url = {https://doi.org/10.22008/FK2/IW73UU}; year = {2022}; month=10; publisher= {GEUS Dataverse}; author = {Penelope How and Jakob Abermann and Andreas P. Ahlstr{\o}m and Signe B. Andersen and Jason E. Box and Michele Citterio and William Colgan and Robert S. Fausto and Nanna B. Karlsson and Jakob Jakobsen and Kirsty Langley and Signe Hillerup Larsen and Kenneth D. Mankoff and Allan {\O}. Pedersen and Anja Rutishauser and Christopher L. Shields and Anne M. Solgaard and Dirk van As and Baptiste Vandecrux}; title = {PROMICE and GC-Net automated weather station data in Greenland}; journal = {GEUS Dataverse}} -standard_name_vocabulary,CF Standard Name Table (v77; 19 January 2021) -summary,"The Programme for Monitoring of the Greenland Ice Sheet (PROMICE) and Greenland Climate Network (GC-Net) have been measuring climate and ice sheet properties since 2007 and 1995, respectively. The PROMICE weather station network monitors glacier mass balance in the melt zone of the Greenland Ice Sheet, providing ground truth data to calibrate mass budget models. GC-Net weather stations measure snowfall and surface properties in the accumulation zone, providing valuable knowledge on the Greenland Ice Sheet’s mass gain and climatology.Accurate measurements of the surface and near-surface atmospheric conditions in a changing climate is important for reliable present and future assessment of changes to the Greenland Ice Sheet. All measurements are handled and processed with pypromice, which is a peer-reviewed and freely available Python package with source code available at https://github.com/GEUS-Glaciology-and-Climate/pypromice. A user-contributable dynamic web-based database of known data quality issues is associated with the data products at https://github.com/GEUS-PROMICE/ PROMICE-AWS-data-issues/." diff --git a/src/pypromice/process/variables.csv b/src/pypromice/process/variables.csv deleted file mode 100644 index 29908293..00000000 --- a/src/pypromice/process/variables.csv +++ /dev/null @@ -1,92 +0,0 @@ -field,standard_name,long_name,units,lo,hi,OOL,station_type,data_type,max_decimals,coverage_content_type,coordinates,instantaneous_hourly,comment -time,time,Time,yyyy-mm-dd HH:MM:SS,,,,all,all,,physicalMeasurement,time lat lon alt,, -rec,record,Record,-,,,,all,,0,referenceInformation,time lat lon alt,,L0 only -p_u,air_pressure,Air pressure (upper boom),hPa,650,1100,z_pt z_pt_cor dshf_u dlhf_u qh_u,all,all,4,physicalMeasurement,time lat lon alt,False, -p_l,air_pressure,Air pressure (lower boom),hPa,650,1100,dshf_l dlhf_l qh_l,two-boom,all,4,physicalMeasurement,time lat lon alt,False, -t_u,air_temperature,Air temperature (upper boom),degrees_C,-80,40,rh_u_cor cc dsr_cor usr_cor z_boom z_stake dshf_u dlhf_u qh_u,all,all,4,physicalMeasurement,time lat lon alt,False, -t_l,air_temperature,Air temperature (lower boom),degrees_C,-80,40,rh_l_cor z_boom_l dshf_l dlhf_l qh_l ,two-boom,all,4,physicalMeasurement,time lat lon alt,False,PT100 temperature at boom -rh_u,relative_humidity,Relative humidity (upper boom),%,0,100,rh_u_cor,all,all,4,physicalMeasurement,time lat lon alt,False, -rh_u_cor,relative_humidity_corrected,Relative humidity (upper boom) - corrected,%,0,150,dshf_u dlhf_u qh_u,all,all,4,modelResult,time lat lon alt,False, -qh_u,specific_humidity,Specific humidity (upper boom),kg/kg,0,100,,all,all,4,modelResult,time lat lon alt,False,Derived value (L2 or later) -rh_l,relative_humidity,Relative humidity (lower boom),%,0,100,rh_l_cor,two-boom,all,4,physicalMeasurement,time lat lon alt,False, -rh_l_cor,relative_humidity_corrected,Relative humidity (lower boom) - corrected,%,0,150,dshf_l dlhf_l qh_l,two-boom,all,4,modelResult,time lat lon alt,False, -qh_l,specific_humidity,Specific humidity (lower boom),kg/kg,0,100,,two-boom,all,4,modelResult,time lat lon alt,False,Derived value (L2 or later) -wspd_u,wind_speed,Wind speed (upper boom),m s-1,0,100,"wdir_u wspd_x_u wspd_y_u dshf_u dlhf_u qh_u, precip_u",all,all,4,physicalMeasurement,time lat lon alt,False, -wspd_l,wind_speed,Wind speed (lower boom),m s-1,0,100,"wdir_l wspd_x_l wspd_y_l dshf_l dlhf_l qh_l , precip_l",two-boom,all,4,physicalMeasurement,time lat lon alt,False, -wdir_u,wind_from_direction,Wind from direction (upper boom),degrees,1,360,wspd_x_u wspd_y_u,all,all,4,physicalMeasurement,time lat lon alt,False, -wdir_std_u,wind_from_direction_standard_deviation,Wind from direction (standard deviation),degrees,,,,one-boom,,4,qualityInformation,time lat lon alt,False,L0 only -wdir_l,wind_from_direction,Wind from direction (lower boom),degrees,1,360,wspd_x_l wspd_y_l,two-boom,all,4,physicalMeasurement,time lat lon alt,False, -wspd_x_u,wind_speed_from_x_direction,Wind speed from x direction (upper boom),m s-1,-100,100,wdir_u wspd_u,all,all,4,modelResult,time lat lon alt,False,L0 only -wspd_y_u,wind_speed_from_y_direction,Wind speed from y direction (upper boom),m s-1,-100,100,wdir_u wspd_u,all,all,4,modelResult,time lat lon alt,False,L0 only -wspd_x_l,wind_speed_from_x_direction,Wind speed from x direction (lower boom),m s-1,-100,100,wdir_l wspd_l,two-boom,all,4,modelResult,time lat lon alt,False,L0 only -wspd_y_l,wind_speed_from_y_direction,Wind speed from y direction (lower boom),m s-1,-100,100,wdir_l wspd_l,two-boom,all,4,modelResult,time lat lon alt,False,L0 only -dsr,surface_downwelling_shortwave_flux,Downwelling shortwave radiation,W m-2,-10,1500,albedo dsr_cor usr_cor,all,all,4,physicalMeasurement,time lat lon alt,False,"Actually radiation_at_sensor, not flux. Units 1E-5 V. Engineering units." -dsr_cor,surface_downwelling_shortwave_flux_corrected,Downwelling shortwave radiation - corrected,W m-2,,,,all,all,4,modelResult,time lat lon alt,False,Derived value (L2 or later) -usr,surface_upwelling_shortwave_flux,Upwelling shortwave radiation,W m-2,-10,1000,albedo dsr_cor usr_cor,all,all,4,physicalMeasurement,time lat lon alt,False, -usr_cor,surface_upwelling_shortwave_flux_corrected,Upwelling shortwave radiation - corrected,W m-2,0,1000,,all,all,4,modelResult,time lat lon alt,False,Derived value (L2 or later) -albedo,surface_albedo,Albedo,-,,,,all,all,4,modelResult,time lat lon alt,False,Derived value (L2 or later) -dlr,surface_downwelling_longwave_flux,Downwelling longwave radiation,W m-2,50,500,albedo dsr_cor usr_cor cc t_surf,all,all,4,physicalMeasurement,time lat lon alt,False, -ulr,surface_upwelling_longwave_flux,Upwelling longwave radiation,W m-2,50,500,t_surf,all,all,4,physicalMeasurement,time lat lon alt,False, -cc,cloud_area_fraction,Cloud cover,%,,,,all,all,4,modelResult,time lat lon alt,False,Derived value (L2 or later) -t_surf,surface_temperature,Surface temperature,C,-80,40,dshf_u dlhf_u qh_u,all,all,4,modelResult,time lat lon alt,False,Derived value (L2 or later) -dlhf_u,surface_downward_latent_heat_flux,Latent heat flux (upper boom),W m-2,,,,all,all,4,modelResult,time lat lon alt,False,Derived value (L2 or later) -dlhf_l,surface_downward_latent_heat_flux,Latent heat flux (lower boom),W m-2,,,,two-boom,all,4,modelResult,time lat lon alt,False,Derived value (L2 or later) -dshf_u,surface_downward_sensible_heat_flux,Sensible heat flux (upper boom),W m-2,,,,all,all,4,modelResult,time lat lon alt,False,Derived value (L2 or later) -dshf_l,surface_downward_sensible_heat_flux,Sensible heat flux (lower boom),W m-2,,,,two-boom,all,4,modelResult,time lat lon alt,False,Derived value (L2 or later) -z_boom_u,distance_to_surface_from_boom,Upper boom height,m,0.3,10,dshf_u dlhf_u qh_u,all,all,4,physicalMeasurement,time lat lon alt,True, -z_boom_q_u,distance_to_surface_from_boom_quality,Upper boom height (quality),-,,,,all,,4,qualityInformation,time lat lon alt,True,L0 only -z_boom_l,distance_to_surface_from_boom,Lower boom height,m,0.3,5,dshf_l dlhf_l qh_l,two-boom,all,4,physicalMeasurement,time lat lon alt,True, -z_boom_q_l,distance_to_surface_from_boom_quality,Lower boom height (quality),-,,,,two-boom,,4,qualityInformation,time lat lon alt,True,L0 only -z_stake,distance_to_surface_from_stake_assembly,Stake height,m,0.3,8,,one-boom,all,4,physicalMeasurement,time lat lon alt,True,HeightStakes(m) -z_stake_q,distance_to_surface_from_stake_assembly_quality,Stake height (quality),-,,,,one-boom,,4,qualityInformation,time lat lon alt,True,L0 only -z_pt,depth_of_pressure_transducer_in_ice,Depth of pressure transducer in ice,m,0,30,z_pt_cor,one-boom,all,4,physicalMeasurement,time lat lon alt,False,DepthPressureTransducer(m) -z_pt_cor,depth_of_pressure_transducer_in_ice_corrected,Depth of pressure transducer in ice - corrected,m,0,30,,one-boom,all,4,modelResult,time lat lon alt,False,Derived value (L2 or later) -precip_u,precipitation,Precipitation (upper boom) (cumulative solid & liquid),mm,0,,precip_u_cor precip_u_rate,all,all,4,physicalMeasurement,time lat lon alt,True,Without wind/undercatch correction -precip_u_cor,precipitation_corrected,Precipitation (upper boom) (cumulative solid & liquid) – corrected,mm,0,,,all,all,4,modelResult,time lat lon alt,True,With wind/undercatch correction -precip_u_rate,precipitation_rate,Precipitation rate (upper boom) (cumulative solid & liquid) – corrected,mm,0,,,all,all,4,modelResult,time lat lon alt,True,L0 only -precip_l,precipitation,Precipitation (lower boom) (cumulative solid & liquid),mm,0,,precip_l_cor precip_l_rate,two-boom,all,4,physicalMeasurement,time lat lon alt,True,Without wind/undercatch correction -precip_l_cor,precipitation_corrected,Precipitation (lower boom) (cumulative solid & liquid) – corrected,mm,0,,,two-boom,all,4,modelResult,time lat lon alt,True,With wind/undercatch correction -precip_l_rate,precipitation_rate,Precipitation rate (lower boom) (cumulative solid & liquid) – corrected,mm,0,,,two-boom,all,4,modelResult,time lat lon alt,True,L0 only -t_i_1,ice_temperature_at_t1,Ice temperature at sensor 1,degrees_C,-80,1,,all,all,4,physicalMeasurement,time lat lon alt,False,t1 is installed @ 1 m depth -t_i_2,ice_temperature_at_t2,Ice temperature at sensor 2,degrees_C,-80,1,,all,all,4,physicalMeasurement,time lat lon alt,False, -t_i_3,ice_temperature_at_t3,Ice temperature at sensor 3,degrees_C,-80,1,,all,all,4,physicalMeasurement,time lat lon alt,False, -t_i_4,ice_temperature_at_t4,Ice temperature at sensor 4,degrees_C,-80,1,,all,all,4,physicalMeasurement,time lat lon alt,False, -t_i_5,ice_temperature_at_t5,Ice temperature at sensor 5,degrees_C,-80,1,,all,all,4,physicalMeasurement,time lat lon alt,False, -t_i_6,ice_temperature_at_t6,Ice temperature at sensor 6,degrees_C,-80,1,,all,all,4,physicalMeasurement,time lat lon alt,False, -t_i_7,ice_temperature_at_t7,Ice temperature at sensor 7,degrees_C,-80,1,,all,all,4,physicalMeasurement,time lat lon alt,False, -t_i_8,ice_temperature_at_t8,Ice temperature at sensor 8,degrees_C,-80,1,,all,all,4,physicalMeasurement,time lat lon alt,False,t8 is installed @ 10 m depth -t_i_9,ice_temperature_at_t9,Ice temperature at sensor 9,degrees_C,-80,1,,two-boom,all,4,physicalMeasurement,time lat lon alt,False, -t_i_10,ice_temperature_at_t10,Ice temperature at sensor 10,degrees_C,-80,1,,two-boom,all,4,physicalMeasurement,time lat lon alt,False, -t_i_11,ice_temperature_at_t11,Ice temperature at sensor 11,degrees_C,-80,1,,two-boom,all,4,physicalMeasurement,time lat lon alt,False, -tilt_x,platform_view_angle_x,Tilt to east,degrees,-30,30,dsr_cor usr_cor albedo,all,all,4,physicalMeasurement,time lat lon alt,False, -tilt_y,platform_view_angle_y,Tilt to north,degrees,-30,30,dsr_cor usr_cor albedo,all,all,4,physicalMeasurement,time lat lon alt,False, -rot,platform_azimuth_angle,Station rotation from true North,degrees,0,360,,all,all,2,physicalMeasurement,time lat lon alt,False,v4 addition -gps_lat,gps_latitude,Latitude,degrees_north,50,83,,all,all,6,coordinate,time lat lon alt,True, -gps_lon,gps_longitude,Longitude,degrees_east,5,70,,all,all,6,coordinate,time lat lon alt,True, -gps_alt,gps_altitude,Altitude,m,0,3000,,all,all,2,coordinate,time lat lon alt,True, -gps_time,gps_time,GPS time,s,0,240000,,all,all,,physicalMeasurement,time lat lon alt,True, -gps_geoid,gps_geoid_separation,Height of EGM96 geoid over WGS84 ellipsoid,m,,,,one-boom,all,,physicalMeasurement,time lat lon alt,True, -gps_geounit,gps_geounit,GeoUnit,-,,,,all,,,qualityInformation,time lat lon alt,True,L0 only -gps_hdop,gps_hdop,GPS horizontal dillution of precision (HDOP),m,,,,all,all,2,qualityInformation,time lat lon alt,True,NMEA: Horizontal dilution of precision -gps_numsat,gps_numsat,GPS number of satellites,-,,,,,all,0,qualityInformation,time lat lon alt,True,L0 only -gps_q,gps_q,Quality,-,,,,,all,,qualityInformation,time lat lon alt,True,L0 only -lat,gps_mean_latitude,GPS mean latitude (from all time-series),degrees,,,,all,,6,modelResult,time lat lon alt,True, -lon,gps_mean_longitude,GPS mean longitude (from all time-series),degrees,,,,all,,6,modelResult,time lat lon alt,True, -alt,gps_mean_altitude,GPS mean altitude (from all time-series),degrees,,,,all,,6,modelResult,time lat lon alt,True, -batt_v,battery_voltage,Battery voltage,V,0,30,,all,all,2,physicalMeasurement,time lat lon alt,True, -batt_v_ini,,,-,0,30,,,all,2,physicalMeasurement,time lat lon alt,True,L0 only -batt_v_ss,battery_voltage_at_sample_start,Battery voltage (sample start),V,0,30,,,all,2,physicalMeasurement,time lat lon alt,True,L0 only -fan_dc_u,fan_current,Fan current (upper boom),mA,0,200,,all,all,2,physicalMeasurement,time lat lon alt,True, -fan_dc_l,fan_current,Fan current (lower boom),mA,0,200,,two-boom,all,2,physicalMeasurement,time lat lon alt,True, -freq_vw,frequency_of_precipitation_wire_vibration,Frequency of vibrating wire in precipitation gauge,Hz,0,10000,precip_u,,all,,physicalMeasurement,time lat lon alt,True,L0 only -t_log,temperature_of_logger,Logger temperature,degrees_C,-80,40,,one-boom,all,4,physicalMeasurement,time lat lon alt,True,LoggerTemperature(C) -t_rad,temperature_of_radiation_sensor,Radiation sensor temperature,degrees_C,-80,40,t_surf dlr ulr,all,all,4,physicalMeasurement,time lat lon alt,False, -p_i,air_pressure,Air pressure (instantaneous) minus 1000,hPa,-350,100,,all,all,4,physicalMeasurement,time lat lon alt,True,For meteorological observations -t_i,air_temperature,Air temperature (instantaneous),degrees_C,-80,40,,all,all,4,physicalMeasurement,time lat lon alt,True,"PT100 temperature at boom, for meteorological observations" -rh_i,relative_humidity,Relative humidity (instantaneous),%,0,150,rh_i_cor,all,all,4,physicalMeasurement,time lat lon alt,True,For meteorological observations -rh_i_cor,relative_humidity_corrected,Relative humidity (instantaneous) – corrected,%,0,100,,all,all,4,modelResult,time lat lon alt,True,For meteorological observations -wspd_i,wind_speed,Wind speed (instantaneous),m s-1,0,100,wdir_i wspd_x_i wspd_y_i,all,all,4,physicalMeasurement,time lat lon alt,True,For meteorological observations -wdir_i,wind_from_direction,Wind from direction (instantaneous),degrees,1,360,wspd_x_i wspd_y_i,all,all,4,physicalMeasurement,time lat lon alt,True,For meteorological observations -wspd_x_i,wind_speed_from_x_direction,Wind speed from x direction (instantaneous),m s-1,-100,100,wdir_i wspd_i,all,all,4,modelResult,time lat lon alt,True,For meteorological observations -wspd_y_i,wind_speed_from_y_direction,Wind speed from y direction (instantaneous),m s-1,-100,100,wdir_i wspd_i,all,all,4,modelResult,time lat lon alt,True,For meteorological observations -msg_i,message,Message string (instantaneous),-,,,,all,,,qualityInformation,time lat lon alt,True,L0 only diff --git a/src/pypromice/ressources/__init__.py b/src/pypromice/ressources/__init__.py deleted file mode 100644 index e69de29b..00000000 diff --git a/src/pypromice/ressources/variable_aliases_GC-Net.csv b/src/pypromice/ressources/variable_aliases_GC-Net.csv deleted file mode 100644 index 92704ab8..00000000 --- a/src/pypromice/ressources/variable_aliases_GC-Net.csv +++ /dev/null @@ -1,78 +0,0 @@ -GEUS_name,old_name -time,timestamp -p_u,P -p_l, -t_u,TA2 -t_l,TA1 -rh_u,RH2 -rh_u_cor,RH2_cor -qh_u,Q2 -rh_l,RH1 -rh_l_cor,RH1_cor -qh_l,Q1 -wspd_u,VW2 -wspd_l,VW1 -wdir_u,DW2 -wdir_l,DW1 -dsr, -dsr_cor,ISWR -usr, -usr_cor,OSWR -albedo,Alb -dlr, -ulr, -cc, -t_surf, -dlhf_u,LHF -dlhf_l, -dshf_u,SHF -dshf_l, -z_boom_u,HW2 -z_boom_l,HW1 -precip_u, -precip_u_cor, -precip_l, -precip_l_cor, -t_i_1,TS1 -t_i_2,TS2 -t_i_3,TS3 -t_i_4,TS4 -t_i_5,TS5 -t_i_6,TS6 -t_i_7,TS7 -t_i_8,TS8 -t_i_9,TS9 -t_i_10,TS10 -t_i_11, -tilt_x, -tilt_y, -rot, -gps_lat,latitude -gps_lon,longitude -gps_alt,elevation -gps_time, -gps_geounit, -gps_hdop, -batt_v,V -fan_dc_u, -fan_dc_l, -t_rad, -msg_lat, -msg_lon, -z_surf_1,HS1 -z_surf_2,HS2 -z_surf_1_adj_flag,HS1_adj_flag -z_surf_2_adj_flag,HS2_adj_flag -z_surf_combined,HS_combined -depth_t_i_1,DTS1 -depth_t_i_2,DTS2 -depth_t_i_3,DTS3 -depth_t_i_4,DTS4 -depth_t_i_5,DTS5 -depth_t_i_6,DTS6 -depth_t_i_7,DTS7 -depth_t_i_8,DTS8 -depth_t_i_9,DTS9 -depth_t_i_10,DTS10 -depth_t_i_11, -t_i_10m,TS_10m