Commit eaecb3c9 authored by Ian Boyd's avatar Ian Boyd
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2,LONGITUDE.INSTRUMENT,CONSTANT,deg,REAL,Instrument geolocation (+ for east; - for west),x
2,LATITUDE.INSTRUMENT,CONSTANT,deg,REAL,Instrument geolocation (+ for north; - for south),x
2,ALTITUDE.INSTRUMENT,CONSTANT,m,REAL,Instrument geolocation above MSL,x
2,FREQUENCY,CONSTANT,s-1,REAL,Instrument center frequency of operation,o
2,WAVELENGTH,CONSTANT,m,REAL,Instrument central wavelength of operation,x
2,BEAM.WIDTH,CONSTANT,degree,REAL,Instrument beam width (re. https://www.radartutorial.eu/06.antennas/an08.en.html),x
2,CHIRP.SEQUENCES.INDEX,CHIRP.SEQUENCES.INDEX,1,SHORT,Index count of the numbers of chirps in the measurement configuration that the FMCW-radar is running,x
2,NYQUIST.VELOCITY,CHIRP.SEQUENCES.INDEX,m s-1,REAL,Nyquist velocity range the instrument operates for interpretation of the measured Doppler velocities,x
2,RANGE,RANGE,m,REAL,Distance from the Sensor to Center of each Range Gate along the line of sight,x
2,DATETIME,DATETIME,MJD2K,DOUBLE,Datetime since 0000z 1st January 2000,x
2,RADAR.REFLECTIVITY.FACTOR_HH,DATETIME;RANGE,m3 mm-6,REAL,Radar Reflectivity Factor at horizontal reception and horizontal transmission fully polarized radars only,o
2,RADAR.REFLECTIVITY.FACTOR_VV,DATETIME;RANGE,m3 mm-6,REAL,Radar Reflectivity Factor at vertical reception and vertical transmission,x
2,RADAR.REFLECTIVITY.FACTOR_VH,DATETIME;RANGE,m3 mm-6,REAL,Radar Reflectivity Factor at vertical reception and horizontal transmission (measured in the FRMRadar project),x
2,DOPPLER.VELOCITY_MEAN,DATETIME;RANGE,m s-1,REAL,Radar mean Doppler velocity,x
2,DOPPLER.SPECTRUM_WIDTH,DATETIME;RANGE,m s-1,REAL,Radar Doppler Spectrum Width,x
2,DOPPLER.SPECTRUM_SKEWNESS,DATETIME;RANGE,1,REAL,Radar Doppler Spectrum Skewness,x
2,DOPPLER.SPECTRUM_KURTOSIS,DATETIME;RANGE,1,REAL,Radar Doppler Spectrum Kurtosis,o
2,LINEAR.DEPOLARIZATION.RATIO,DATETIME;RANGE,m3 mm-6,REAL,Radar Linear Depolarization Ratio LDR measuring radars only,o
2,DIFFERENTIAL.REFLECTIVITY,DATETIME;RANGE,m3 mm-6,REAL,Radar Differential Reflectivity fully polarized radars only,o
2,DIFFERENTIAL.PHASE.SHIFT,DATETIME;RANGE,deg,REAL,Radar Integrated Differential Phase fully polarized radars only,o
2,SPECIFIC.DIFFERENTIAL.PHASE,DATETIME;RANGE,deg km-1,REAL,Radar Specific Differential Phase fully polarized radars only (provide formula),o
2,CORRELATION.COEFFICIENT,DATETIME;RANGE,1,REAL,Radar Co-polar Correlation Coefficient fully polarized radars only,o
2,DOPPLER.VELOCITY_RESOLUTION,DOPPLER.VELOCITY_RESOLUTION,m s-1,REAL,The resolution of the Doppler spectrum between +/- Nyquist Velocity,o
2,RADAR.REFLECTIVITY.SPECTRUM_HH,DATETIME;RANGE;DOPPLER.VELOCITY_RESOLUTION,m3 mm-6,REAL,Radar Doppler spectrum at horizontal reception and horizontal transmission fully polarized radars only,o
2,RADAR.REFLECTIVITY.SPECTRUM_VV,DATETIME;RANGE;DOPPLER.VELOCITY_RESOLUTION,m3 mm-6,REAL,Radar Doppler spectrum at vertical reception and vertical transmission,o
2,RADAR.REFLECTIVITY.SPECTRUM_VH,DATETIME;RANGE;DOPPLER.VELOCITY_RESOLUTION,m3 mm-6,REAL,Radar Doppler spectrum at vertical reception and horizontal transmission ,o
2,LINEAR.DEPOLARIZATION.RATIO.SPECTRUM,DATETIME;RANGE;DOPPLER.VELOCITY_RESOLUTION,m3 mm-6,REAL,Spectral Radar Linear Depolarization Ratio LDR measuring radars only,o
2,DIFFERENTIAL.REFLECTIVITY.SPECTRUM,DATETIME;RANGE;DOPPLER.VELOCITY_RESOLUTION,m3 mm-6,REAL,Spectral Radar Differential Radar Reflectivity fully polarized radars only,o
2,CORRELATION.COEFFICIENT.SPECTRUM,DATETIME;RANGE;DOPPLER.VELOCITY_RESOLUTION,1,REAL,Spectral Radar Co-polar Correlation Coefficient fully polarized radars only,o
2,SURFACE.TEMPERATURE,DATETIME,K,REAL,Air Temperature (from Radar Meteo-Station),o
2,SURFACE.TEMPERATURE_SOURCE,CONSTANT,[empty],STRING,Source of Air Temperature measurement (e.g. Vaisala WXT520),x if SURFACE.TEMPERATURE provided
2,HUMIDITY.RELATIVE.SURFACE,DATETIME,%,REAL,Relative Humidity (from Radar Meteo-Station),o
2,HUMIDITY.RELATIVE.SURFACE_SOURCE,CONSTANT,[empty],STRING,Source of Relative Humidity measurement (e.g. Vaisala WXT520),x if HUMIDITY.RELATIVE.SURFACE provided
2,SURFACE.PRESSURE,DATETIME,hPa,REAL,Air Pressure (from Radar Meteo-Station),o
2,SURFACE.PRESSURE_SOURCE,CONSTANT,[empty],STRING,Source of Pressure measurement (e.g. Vaisala WXT520),x if SURFACE.PRESSURE provided
2,WIND.SPEED.SURFACE,DATETIME,m s-1,REAL,Horizontal Wind Speed (from Radar Meteo-Station),o
2,WIND.SPEED.SURFACE_SOURCE,CONSTANT,[empty],STRING,Source of wind speed measurement (e.g. Vaisala WXT520),x if WIND.SPEED.SURFACE provided
2,WIND.DIRECTION.SURFACE,DATETIME,deg,REAL,Wind Direction (from Radar Meteo-Station),o
2,WIND.DIRECTION.SURFACE_SOURCE,CONSTANT,[empty],STRING,Source of wind direction measurment (e.g. Vaisala WXT520),x if WIND.DIRECTION.SURFACE provided
2,RAIN.RATE,DATETIME,mm h-1,REAL,Rain Rate (from Radar Meteo-Station),o
2,RAIN.RATE_SOURCE,CONSTANT,[empty],STRING,Source of rainfall measurement (e.g. Vaisala WXT520),x if RAIN.RATE provided
2,TEMPERATURE.BRIGHTNESS,DATETIME,K,REAL,Brightness Temperature (from the Passive 89-GHz Chanal of the radar),o
2,LIQUID.WATER.PATH,DATETIME,g m-2,REAL,Retrieval based on Nural NetWork developed by RPG and traind on Radiosondes or NWP reanalysis data,o
2,COMPUTER.TEMPERATURE,DATETIME,K,REAL,Radar PC Temperature,o
2,RECEIVER.TEMPERATURE,DATETIME,K,REAL,Radar Receiver Antenna Temperature,o
2,TRANSMITTER.TEMPERATURE,DATETIME,K,REAL,Radar Transmitter Antenna Temperature,o
2,TRANSMITTER.POWER,DATETIME,W,REAL,Radar Transmitter Power,o
2,ANGLE.VIEW_AZIMUTH,DATETIME,deg,REAL,Sensor azimuth angle only for scanning radars,o
2,ANGLE.VIEW_ELEVATION,DATETIME,deg,REAL,Sensor elevation angle only for scanning radars,o
2,ANGLE.VIEW_AZIMUTH.VELOCITY,DATETIME,deg s-1,REAL,Sensor azimuth angle velocity scanning radars only,o
2,ANGLE.VIEW_ELEVATION.VELOCITY,DATETIME,deg s-1,REAL,Sensor zenith angle velocity scanning radars only,o
2,ANGLE.PLATFORM_ELEVATION,DATETIME,deg,REAL,Instrument inclination angle - Sensor monitoring the instrument elevation angle (if not aligned in the horizontal plane),o
2,ANGLE.PLATFORM_AZIMUTH,DATETIME,deg,REAL,Instrument inclination angle - Sensor monitoring the instrument azimuth angle (if not aligned in the horizontal plane),o
2,RANGE_OFFSET,CHIRP.SEQUENCES.INDEX,m,REAL,Range offsets between different chirps when measuring with FMCW-radars,o
2,FLAG.MEASUREMENT.QUALITY,DATETIME,1,REAL,Quality flag related to the radar operation given by the radar software from RPG,o
2,FLAG.PROCESSING.QUALITY,DATETIME;RANGE,1,REAL,Quality flag added in the additional data processing to alert for known issues (from our developed data processing),o
2,ALIAS.PROCESSING.MASK,DATETIME;RANGE,1,,Mask array indicating in which bin dealiasing was applied related to our own developed data processing,o
2,SOURCE.PRODUCT,INDEPENDENT,[empty],STRING, Information relevant to the source history of the Metadata and Datadata in the form Original_Archive;Original_Filename;Original_File_Generation_Date,o
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