Meteorology and sea surface (MET) 15 minute averaged data from eleven R/V Endeavor cruises in the Gulf of Maine and Georges Bank area during 1995 (GB project)

Meteorology and sea surface (MET) 15 minute averaged data from eleven R/V Endeavor cruises in the Gulf of Maine and Georges Bank area during 1995.

4. Put plots of all parameters on screen and look for obvious single bad points.Edit in basic concatenated file.Except I have not edited depths.
5. Iterate steps 2-4 until no more obvious bad points.6. Run second program which computes true wind speed and direction from speed and course made good, gyros, larger of port or starboard ws and accompanying wind azimuth.Outputs are year day, lat lon, speed and course made good, gyro, relative ws and direction, true ws and direction, air temp, relative humidity, barometric pressure, short-and long-wave radiation,5m and 1m sea surface temps, Edo depth, Chirp sonar depth, Edo speed, Edo indicator.
7. Check plots of true wind speed and direction to make sure they look ok.
8. Run vector averaging program which produces 60 minute series.The program uses 60 consecutive records and does not check for missing records.I have not carried depths since hourly averages do not seem useful nor Edo speeds since they seem pretty generally useless.Output parameters are: Year day, lat, long, true wind speed and direction, air temp, relative humidity, barometric pressure, short-and long-wave radiation, sea surface temp @ 5m & 1m.

Acquisition Description
The sea surface temperature as measured by the hull sensor is not shown since the sea surface temperature as measured via the engine inlet (field name is temp_ss1) is more accurate.

Processing Description
1. Concatenate daily 1 minute files into one file for whole cruise 2. Edit file for obvious bad data, i.e., missing data, garbage characters, etc.

Acquisition Description
The sea surface temperature as measured by the hull sensor is not shown since the sea surface temperature as measured via the engine inlet (field name is temp_ss1) is more accurate.

Processing Description
Concatenate

Acquisition Description
The sea surface temperature as measured by the hull sensor is not shown since the sea surface temperature as measured via the engine inlet (field name is temp_ss1) is more accurate.

Processing Description
Concatenate

Acquisition Description
The sea surface temperature as measured by the hull sensor is not shown since the sea surface temperature as measured via the engine inlet (field name is temp_ss1) is more accurate.

Processing Description
Concatenate

Acquisition Description
The sea surface temperature as measured by the hull sensor is not shown since the sea surface temperature as measured via the engine inlet (field name is temp_ss1) is more accurate.

Processing Description
Concatenate

Acquisition Description
The sea surface temperature as measured by the hull sensor is not shown since the sea surface temperature as measured via the engine inlet (field name is temp_ss1) is more accurate.

4.
Put plots of all parameters on screen and look for obvious single bad points.Edit in basic concatenated file.Except I have not edited depths.5. Iterate steps 2-4 until no more obvious bad points.6. Run second program which computes true wind speed and direction from speed and course made good, gyros, larger of port or starboard ws and accompanying wind azimuth.Outputs are year day, lat lon, speed and course made good, gyro, relative ws and direction, true ws and direction, air temp, relative humidity, barometric pressure, short-and long-wave radiation,5m and 1m sea surface temps, Edo depth, Chirp sonar depth, Edo speed, Edo indicator.7. Check plots of true wind speed and direction to make sure they look ok.8. Run vector averaging program which produces 60 minute series.The program uses 60 consecutive records and does not check for missing records.I have not carried depths since hourly averages do not seem useful nor Edo speeds since they seem pretty generally useless.Output parameters are: Year day, lat, long, true wind speed and direction, air temp, relative humidity, barometric pressure, short-and long-wave radiation, sea surface temp @ 5m & 1m.

Instruments Dataset- specific Instrument Name Thermosalinograph Generic Instrument Name Thermosalinograph Dataset- specific Description
table of contents | back to top ] course made good, gyros, larger of port or starboard ws and accompanying wind azimuth.Outputs are year day, lat lon, speed and course made good, gyro, relative ws and direction, true ws and direction, air temp, relative humidity, barometric pressure, short-and long-wave radiation,5m and 1m sea surface temps, Edo depth, Chirp sonar depth, Edo speed, Edo indicator.Check plots of true wind speed and direction to make sure they look ok.Run vector averaging program which produces 60 minute series.The program uses 60 consecutive records and does not check for missing records.I have not carried depths since hourly averages do not seem useful nor Edo speeds since they seem pretty generally useless.Output parameters are: Year day, lat, long, true wind speed and direction, air temp, relative humidity, barometric pressure, short-and long-wave radiation, sea surface temp @ 5m & 1m.Edo depth error correction: replace bad value with previous value.EN259 -Standard processing.17625 data records Cruise Exp Spds Dirs AT RH BP SST EDOZ LWR SWR Comments EN259 GLOBEC OK OK OK >100 Good Peaks Gap Website https://www.bco-dmo.org/deployment/57400 The sea surface temperature as measured by the hull sensor is not shown since the sea surface temperature as measured via the engine inlet (field name is temp_ss1) is more accurate.
daily 1 minute files into one file for whole cruise Edit file for obvious bad data, i.e., missing data, garbage characters, etc. Run program which reformats data.Output parameters: Year day, lat, long, Speed made good, course made good, gyro 1 & 2, Edo speed, Edo indicator, port wind speed, starboard ws, port wind azimuth, starboard waz, air temp, relative humidity, barometric pressure, sea surface temp @5m & 1m depth, Edo depth, Chirp sonar depth.Put plots of all parameters on screen and look for obvious single bad points.Edit in basic concatenated file.Except I have not edited depths.Iterate steps 2-4 until no more obvious bad points.Run second program which computes true wind speed and direction from speed and course made good, gyros, larger of port or starboard ws and accompanying wind azimuth.Outputs are year day, lat lon, speed and course made good, gyro, relative ws and direction, true ws and direction, air temp, relative humidity, barometric pressure, short-and long-wave radiation,5m and 1m sea surface temps, Edo depth, Chirp sonar depth, Edo speed, Edo indicator.pressure, short-and long-wave radiation, sea surface temp @ 5m & 1m.Edo depth error correction: replace bad value with previous value.EN260 -Standard processing.7641 data records.Cruise Exp Spds Dirs AT RH BP SST EDOZ LWR SWR Comments EN260 GLOBEC Noisy OK OK OK Good humidity, barometric pressure, sea surface temp @5m & 1m depth, Edo depth, Chirp sonar depth.Put plots of all parameters on screen and look for obvious single bad points.Edit in basic concatenated file.Except I have not edited depths.Iterate steps 2-4 until no more obvious bad points.Run second program which computes true wind speed and direction from speed and course made good, gyros, larger of port or starboard ws and accompanying wind azimuth.Outputs are year day, lat lon, speed and course made good, gyro, relative ws and direction, true ws and direction, air temp, relative humidity, barometric pressure, short-and long-wave radiation,5m and 1m sea surface temps, Edo depth, Chirp sonar depth, Edo speed, Edo indicator.Check plots of true wind speed and direction to make sure they look ok.Run vector averaging program which produces 60 minute series.The program uses 60 consecutive records and does not check for missing records.I have not carried depths since hourly averages do not seem useful nor Edo speeds since they seem pretty generally useless.Output parameters are: Year day, EN262 Website https://www.bco-dmo.org/deployment/57402 daily 1 minute files into one file for whole cruise Edit file for obvious bad data, i.e., missing data, garbage characters, etc. Run program which reformats data.Output parameters: Year day, lat, long, Speed made good, course made good, gyro 1 & 2, Edo speed, Edo indicator, port wind speed, starboard ws, port wind azimuth, starboard waz, air temp, relative humidity, barometric pressure, sea surface temp @5m & 1m depth, Edo depth, Chirp sonar depth.Put plots of all parameters on screen and look for obvious single bad points.Edit in basic concatenated file.Except I have not edited depths.Iterate steps 2-4 until no more obvious bad points.Run second program which computes true wind speed and direction from speed and course made good, gyros, larger of port or starboard ws and accompanying wind azimuth.Outputs are year day, lat lon, speed and course made good, gyro, relative ws and direction, true ws and direction, air temp, relative humidity, barometric pressure, short-and long-wave radiation,5m and 1m sea surface temps, Edo depth, Chirp sonar depth, Edo speed, Edo indicator.15,742 records.5/12/98 -Reprocessed with later software which corrects the time base.One day gap from 109.6 to 110.6.Cruise Exp Spds Dirs AT RH BP SST EDOZ LWR SWR Comments EN265 GLOBEC Spikes ?Spikes Spikes daily 1 minute files into one file for whole cruise Edit file for obvious bad data, i.e., missing data, garbage characters, etc. Run program which reformats data.Output parameters: Year day, lat, long, Speed made good, course made good, gyro 1 & 2, Edo speed, Edo indicator, port wind speed, starboard ws, port wind azimuth, starboard waz, air temp, relative humidity, barometric pressure, sea surface temp @5m & 1m depth, Edo depth, Chirp sonar depth.Put plots of all parameters on screen and look for obvious single bad points.Edit in basic concatenated file.Except I have not edited depths.Iterate steps 2-4 until no more obvious bad points.Run second program which computes true wind speed and direction from speed and course made good, gyros, larger of port or starboard ws and accompanying wind azimuth.Outputs are year day, lat lon, speed and course made good, gyro, relative ws and direction, true ws and direction, air temp, relative humidity, barometric pressure, short-and long-wave radiation,5m and 1m sea surface temps, Edo depth, Chirp sonar depth, Edo speed, Edo indicator.The sea surface temperature as measured by the hull sensor is not shown since the sea surface temperature as measured via the engine inlet (field name is temp_ss1) is more accurate.
The sea surface temperature as measured by the hull sensor is not shown since the sea surface temperature as measured via the engine inlet (field name is temp_ss1) is more accurate.
program which computes true wind speed and direction from speed and course made good, gyros, larger of port or starboard ws and accompanying wind azimuth.Outputs are year day, lat lon, speed and course made good, gyro, relative ws and direction, true ws and direction, air temp, relative humidity, barometric pressure, short-and long-wave radiation,5m and 1m sea surface temps, Edo depth, Chirp sonar depth, Edo speed, Edo indicator.
The sea surface temperature as measured by the hull sensor is not shown since the sea surface temperature as measured via the engine inlet (field name is temp_ss1) is more accurate.Concatenatedaily 1 minute files into one file for whole cruise Edit file for obvious bad data, i.e., missing data, garbage characters, etc. Run program which reformats data.Output parameters: Year day, lat, long, Speed made good, course made good, gyro 1 & 2, Edo speed, Edo indicator, port wind speed, starboard ws, port wind azimuth, starboard waz, air temp, relative humidity, barometric pressure, sea surface temp @5m & 1m depth, Edo depth, Chirp sonar depth.Put plots of all parameters on screen and look for obvious single bad points.Edit in basic concatenated file.Except I have not edited depths.Iterate steps 2-4 until no more obvious bad points.Run second program which computes true wind speed and direction from speed and course made good, gyros, larger of port or starboard ws and accompanying wind azimuth.Outputs are year day, lat lon, speed and course made good, gyro, relative ws and direction, true ws and direction, air temp, relative humidity, barometric pressure, short-and long-wave radiation,5m and 1m sea surface temps, Edo depth, Chirp sonar depth, Edo speed, Edo indicator.Check plots of true wind speed and direction to make sure they look ok.Run vector averaging program which produces 60 minute series.The program uses 60 consecutive records and does not check for missing records.I have not carried depths since hourly averages do not seem useful nor Edo speeds since they seem pretty generally useless.Output parameters are: Year day, lat, long, true wind speed and direction, air temp, relative humidity, barometric pressure, short-and long-wave radiation, sea surface temp @ 5m & 1m.Edo depth error correction: replace bad value with previous value.EN268 -Data gap 20:47:17 to 24:00:00 on last day.Filled it with linearly interpolated data. Websitehttps://www.bco-dmo.org/deployment/57409