diff --git a/GEOMS-TE-CLOUD-RADAR-001.csv b/GEOMS-TE-CLOUD-RADAR-001.csv
index 0cce920670c0d9f6d893d39c9f08dfc570463586..77b8562022780211a8d07c9466067527ca35c5bc 100644
--- a/GEOMS-TE-CLOUD-RADAR-001.csv
+++ b/GEOMS-TE-CLOUD-RADAR-001.csv
@@ -10,25 +10,25 @@
 2,RANGE,[RANGE|DATETIME;ALTITUDE],m,REAL,Distance from the Sensor to Center of each Range Gate along the line of sight,x
 2,DATETIME,DATETIME,MJD2K,DOUBLE,Datetime defined relative to reference datetime of Jan. 1 2000 at 0:00:00 UT which is equal to 0.00,x
 2,INTEGRATION.TIME,DATETIME;CHIRP.SEQUENCES.INDEX,s,REAL,Duration/Integration time per single chirp,x
-2,RADAR.REFLECTIVITY.FACTOR,[DATETIME;RANGE|DATETIME;ALTITUDE],mm6 m-3,REAL,Radar Reflectivity Factor of the Radar instrument – if the radar has only one polarisation state,o
-2,RADAR.REFLECTIVITY.FACTOR_HH,[DATETIME;RANGE|DATETIME;ALTITUDE],mm6 m-3,REAL,Radar Reflectivity Factor at horizontal reception and horizontal transmission – mandatory if the radar is fully polarized,o
+2,RADAR.REFLECTIVITY.FACTOR,[DATETIME;RANGE|DATETIME;ALTITUDE],mm6 m-3,REAL,Radar Reflectivity Factor of the Radar instrument - if the radar has only one polarisation state,o
+2,RADAR.REFLECTIVITY.FACTOR_HH,[DATETIME;RANGE|DATETIME;ALTITUDE],mm6 m-3,REAL,Radar Reflectivity Factor at horizontal reception and horizontal transmission - mandatory if the radar is fully polarized,o
 2,RADAR.REFLECTIVITY.FACTOR_VV,[DATETIME;RANGE|DATETIME;ALTITUDE],mm6 m-3,REAL,Radar Reflectivity Factor at vertical reception and vertical transmission - mandatory if the radar is fully polarized ,o
 2,DOPPLER.VELOCITY_MEAN,[DATETIME;RANGE|DATETIME;ALTITUDE],m s-1,REAL,Radar mean Doppler velocity,x
 2,DOPPLER.SPECTRUM_WIDTH,[DATETIME;RANGE|DATETIME;ALTITUDE],m s-1,REAL,Radar Doppler Spectrum Width,x
 2,DOPPLER.SPECTRUM_KURTOSIS,[DATETIME;RANGE|DATETIME;ALTITUDE],1,REAL,Radar Doppler Spectrum Kurtosis,o
 2,DOPPLER.SPECTRUM_SKEWNESS,[DATETIME;RANGE|DATETIME;ALTITUDE],1,REAL,Radar Doppler Spectrum Skewness,x
-2,LINEAR.DEPOLARIZATION.RATIO,[DATETIME;RANGE|DATETIME;ALTITUDE],1,REAL,Radar Linear Depolarization Ratio – LDR measuring radars only,o
-2,DIFFERENTIAL.REFLECTIVITY,[DATETIME;RANGE|DATETIME;ALTITUDE],mm6 m-3,REAL,Radar Differential Reflectivity – fully polarized radars only,o
-2,DIFFERENTIAL.PHASE.SHIFT,[DATETIME;RANGE|DATETIME;ALTITUDE],deg,REAL,Radar Integrated Differential Phase – fully polarized radars only,o
-2,SPECIFIC.DIFFERENTIAL.PHASE,[DATETIME;RANGE|DATETIME;ALTITUDE],deg km-1,REAL,Radar Specific Differential Phase – fully polarized radars only (provide formula),o
-2,CORRELATION.COEFFICIENT,[DATETIME;RANGE|DATETIME;ALTITUDE],1,REAL,Radar Co-polar Correlation Coefficient – fully polarized radars only,o
+2,LINEAR.DEPOLARIZATION.RATIO,[DATETIME;RANGE|DATETIME;ALTITUDE],1,REAL,Radar Linear Depolarization Ratio - LDR measuring radars only,o
+2,DIFFERENTIAL.REFLECTIVITY,[DATETIME;RANGE|DATETIME;ALTITUDE],mm6 m-3,REAL,Radar Differential Reflectivity - fully polarized radars only,o
+2,DIFFERENTIAL.PHASE.SHIFT,[DATETIME;RANGE|DATETIME;ALTITUDE],deg,REAL,Radar Integrated Differential Phase - fully polarized radars only,o
+2,SPECIFIC.DIFFERENTIAL.PHASE,[DATETIME;RANGE|DATETIME;ALTITUDE],deg km-1,REAL,Radar Specific Differential Phase - fully polarized radars only (provide formula),o
+2,CORRELATION.COEFFICIENT,[DATETIME;RANGE|DATETIME;ALTITUDE],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 for each chirp,o
-2,RADAR.REFLECTIVITY.SPECTRUM,[DATETIME;RANGE;DOPPLER.VELOCITY_RESOLUTION|DATETIME;ALTITUDE;DOPPLER.VELOCITY_RESOLUTION],mm6 m-3,REAL,Radar Doppler spectrum – if the radar has only one polarisation state,o
-2,RADAR.REFLECTIVITY.SPECTRUM_HH,[DATETIME;RANGE;DOPPLER.VELOCITY_RESOLUTION|DATETIME;ALTITUDE;DOPPLER.VELOCITY_RESOLUTION],mm6 m-3,REAL,Radar Doppler spectrum at horizontal reception and horizontal transmission – mandatory if the radar is fully polarized,o
-2,RADAR.REFLECTIVITY.SPECTRUM_VV,[DATETIME;RANGE;DOPPLER.VELOCITY_RESOLUTION|DATETIME;ALTITUDE;DOPPLER.VELOCITY_RESOLUTION],mm6 m-3,REAL,Radar Doppler spectrum at vertical reception and vertical transmission – mandatory if the radar is fully polarized,o
-2,LINEAR.DEPOLARIZATION.RATIO.SPECTRUM,[DATETIME;RANGE;DOPPLER.VELOCITY_RESOLUTION|DATETIME;ALTITUDE;DOPPLER.VELOCITY_RESOLUTION],1,REAL,Spectum of radar linear depolarisation ratio – LDR measuring radars only,o
-2,DIFFERENTIAL.REFLECTIVITY.SPECTRUM,[DATETIME;RANGE;DOPPLER.VELOCITY_RESOLUTION|DATETIME;ALTITUDE;DOPPLER.VELOCITY_RESOLUTION],mm6 m-3,REAL,Spectral Radar Differential Radar Reflectivity – fully polarized radars only,o
-2,CORRELATION.COEFFICIENT.SPECTRUM,[DATETIME;RANGE;DOPPLER.VELOCITY_RESOLUTION|DATETIME;ALTITUDE;DOPPLER.VELOCITY_RESOLUTION],1,REAL,Spectral Radar Co-polar Correlation Coefficient – fully polarized radars only,o
+2,RADAR.REFLECTIVITY.SPECTRUM,[DATETIME;RANGE;DOPPLER.VELOCITY_RESOLUTION|DATETIME;ALTITUDE;DOPPLER.VELOCITY_RESOLUTION],mm6 m-3,REAL,Radar Doppler spectrum - if the radar has only one polarisation state,o
+2,RADAR.REFLECTIVITY.SPECTRUM_HH,[DATETIME;RANGE;DOPPLER.VELOCITY_RESOLUTION|DATETIME;ALTITUDE;DOPPLER.VELOCITY_RESOLUTION],mm6 m-3,REAL,Radar Doppler spectrum at horizontal reception and horizontal transmission - mandatory if the radar is fully polarized,o
+2,RADAR.REFLECTIVITY.SPECTRUM_VV,[DATETIME;RANGE;DOPPLER.VELOCITY_RESOLUTION|DATETIME;ALTITUDE;DOPPLER.VELOCITY_RESOLUTION],mm6 m-3,REAL,Radar Doppler spectrum at vertical reception and vertical transmission - mandatory if the radar is fully polarized,o
+2,LINEAR.DEPOLARIZATION.RATIO.SPECTRUM,[DATETIME;RANGE;DOPPLER.VELOCITY_RESOLUTION|DATETIME;ALTITUDE;DOPPLER.VELOCITY_RESOLUTION],1,REAL,Spectum of radar linear depolarisation ratio - LDR measuring radars only,o
+2,DIFFERENTIAL.REFLECTIVITY.SPECTRUM,[DATETIME;RANGE;DOPPLER.VELOCITY_RESOLUTION|DATETIME;ALTITUDE;DOPPLER.VELOCITY_RESOLUTION],mm6 m-3,REAL,Spectral Radar Differential Radar Reflectivity - fully polarized radars only,o
+2,CORRELATION.COEFFICIENT.SPECTRUM,[DATETIME;RANGE;DOPPLER.VELOCITY_RESOLUTION|DATETIME;ALTITUDE;DOPPLER.VELOCITY_RESOLUTION],1,REAL,Spectral Radar Co-polar Correlation Coefficient - fully polarized radars only,o
 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,SURFACE.TEMPERATURE,DATETIME,K,REAL,Air Temperature (from Radar Meteo-Station),o
@@ -47,10 +47,10 @@
 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.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_PITCH,DATETIME,deg,REAL,Pitch is a rotation about an axis that is perpendicular to both the local vertical axis and the nominal forward motion direction of the platform. Because the radar is fixed to the ground the forward motion axis is not existing. Therefore the vertical axis (longer dimension of the radar) is set as the moving direction,o
 2,ANGLE.PLATFORM_ROLL,DATETIME,deg,REAL,Roll is a rotation about an axis that is perpendicular to the local vertical axis and is coplanar with the nominal forward motion direction of the platform. Because the radar is fixed to the ground the forward motion axis is not existing. Therefore  the vertical axis (longer dimension of the radar) is set as the moving direction,o
 2,ANGLE.PLATFORM_YAW,DATETIME,deg,REAL,The twisting of the platform about the vertical axis,o