本文整理汇总了Python中CANON.CANONLoader.tethys_parms方法的典型用法代码示例。如果您正苦于以下问题:Python CANONLoader.tethys_parms方法的具体用法?Python CANONLoader.tethys_parms怎么用?Python CANONLoader.tethys_parms使用的例子?那么恭喜您, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类CANON.CANONLoader
的用法示例。
在下文中一共展示了CANONLoader.tethys_parms方法的6个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Python代码示例。
示例1:
# 需要导入模块: from CANON import CANONLoader [as 别名]
# 或者: from CANON.CANONLoader import tethys_parms [as 别名]
'20110610_20110616/20110611T232740/slate.nc',
'20110610_20110616/20110612T191007/slate.nc',
'20110610_20110616/20110613T001706/slate.nc',
'20110610_20110616/20110613T053217/slate.nc',
'20110610_20110616/20110614T093150/slate.nc',
'20110610_20110616/20110614T201835/slate.nc',
'20110610_20110616/20110615T030544/slate.nc',
'20110610_20110616/20110616T000907/slate.nc',
'20110618_20110623/20110618T211745/slate.nc',
'20110618_20110623/20110619T231706/slate.nc',
'20110618_20110623/20110620T143623/slate.nc',
'20110618_20110623/20110620T190006/slate.nc',
'20110618_20110623/20110621T185433/slate.nc'
]
cl.tethys_parms = [ 'sea_water_temperature', 'sea_water_salinity', 'sea_water_density', 'volume_scattering_470_nm', 'volume_scattering_650_nm',
'volume_scattering_650_nm', 'mass_concentration_of_oxygen_in_sea_water', 'mole_concentration_of_nitrate_in_sea_water',
'mass_concentration_of_chlorophyll_in_sea_water']
# Execute the load
cl.process_command_line()
if cl.args.test:
cl.loadDorado(stride=100)
cl.loadTethys(stride=1000)
elif cl.args.optimal_stride:
cl.loadDorado(stride=2)
cl.loadTethys(stride=20)
else:
cl.stride = cl.args.stride
示例2:
# 需要导入模块: from CANON import CANONLoader [as 别名]
# 或者: from CANON.CANONLoader import tethys_parms [as 别名]
'201206/20120604T192851/shore.nc',
'201206/20120605T193027/shore.nc',
'201206/20120605T193653/shore.nc',
'201206/20120606T163010/shore.nc',
'201206/20120606T171537/shore.nc',
'201206/20120607T194649/shore.nc',
'201206/20120608T162946/shore.nc',
## '201206/20120608T193449/shore.nc', # degenerate netCDF
'201206/20120608T194202/shore.nc',
'201206/20120608T205115/shore.nc',
'201206/20120610T190213/shore.nc',
'201206/20120613T050147/shore.nc',
'201206/20120613T085821/shore.nc',
'201206/20120613T162943/shore.nc',
]
cl.tethys_parms = [ 'platform_battery_charge', 'sea_water_temperature',
'mass_concentration_of_oxygen_in_sea_water', 'mass_concentration_of_chlorophyll_in_sea_water', 'mole_concentration_of_nitrate_in_sea_water']
# Postrecovery full-resolution tethys data - insert '_d_' for delayed-mode to not load the data
cl.tethys_d_base = 'http://elvis.shore.mbari.org:8080/thredds/dodsC/lrauv/tethys/'
cl.tethys_d_files = [
'2012/20120606_20120613/20120606T171537/slate.nc',
'2012/20120606_20120613/20120607T194649/slate.nc',
'2012/20120606_20120613/20120608T205115/slate.nc',
'2012/20120606_20120613/20120610T190213/slate.nc',
]
cl.tethys_d_parms = [ 'sea_water_temperature', 'sea_water_salinity', 'sea_water_density', 'volume_scattering_470_nm', 'volume_scattering_650_nm',
'volume_scattering_650_nm', 'mass_concentration_of_oxygen_in_sea_water', 'mole_concentration_of_nitrate_in_sea_water',
'mass_concentration_of_chlorophyll_in_sea_water']
cl.tethys_startDatetime = startdate
cl.tethys_endDatetime = enddate
示例3: resolution
# 需要导入模块: from CANON import CANONLoader [as 别名]
# 或者: from CANON.CANONLoader import tethys_parms [as 别名]
'Dorado389_2010_301_00_301_00_decim.nc',
]
cl.dorado_parms = [ 'temperature', 'oxygen', 'nitrate', 'bbp420', 'bbp700',
'fl700_uncorr', 'salinity', 'biolume',
'sepCountList', 'mepCountList',
'roll', 'pitch', 'yaw',
]
# These are full resolution (_d_) data files with Chl only from the first Tethys data used for CANON
# Offical long-term archive location is: http://dods.mbari.org/opendap/data/lrauv/tethys/missionlogs/2010/
cl.tethys_base = 'http://dods.mbari.org/opendap/data/auvctd/tethys/2010/netcdf/'
cl.tethys_files = [ '20101018T143308_Chl_.nc',
'20101019T001815_Chl_.nc',
'20101019T155117_Chl_.nc',
'20101020T113957_Chl_.nc',
]
cl.tethys_parms = ['mass_concentration_of_chlorophyll_in_sea_water']
# Realtime shore.nc files - not a DODS server...
cl.tethys_r_base = 'http://aosn.mbari.org/sbdlogs/tethys/2010/201010/'
cl.tethys_r_files = [ '20101018T143308/shore.nc',
'20101019T001815/shore.nc',
'20101019T155117/shore.nv',
'20101020T113957/shore.nc',
]
cl.tethys_r_parms = ['mass_concentration_of_chlorophyll_in_sea_water']
cl.tethys_aux_coords = {}
for v in cl.tethys_r_parms:
cl.tethys_aux_coords[v] = {'time': 'Time', 'latitude': 'latitude', 'longitude': 'longitude', 'depth': 'depth'}
cl.martin_base = 'http://odss.mbari.org/thredds/dodsC/jhm_underway'
cl.martin_files = [ '27710_jhmudas_v1.nc',
示例4:
# 需要导入模块: from CANON import CANONLoader [as 别名]
# 或者: from CANON.CANONLoader import tethys_parms [as 别名]
'20130313_20130320/20130313T203723/201303132037_201303132240.nc',
'20130313_20130320/20130313T224020/201303132240_201303140239.nc',
]
tethys_d_parms = [ 'sea_water_temperature', 'sea_water_salinity', 'sea_water_density', 'volume_scattering_470_nm',
'volume_scattering_650_nm', 'mass_concentration_of_oxygen_in_sea_water', 'mole_concentration_of_nitrate_in_sea_water',
'mass_concentration_of_chlorophyll_in_sea_water']
# Binned Tethys data
tethys_b_base = 'http://odss.mbari.org/thredds/dodsC/CANON_march2013/lrauv/tethys/'
tethys_b_files = ['Tethys_ECOHAB_March2013.nc']
tethys_b_parms = ['temperature', 'salinity', 'chlorophyll', 'bb470', 'bb650']
cl.tethys_base = tethys_b_base
cl.tethys_files = tethys_b_files
cl.tethys_parms = tethys_b_parms
# Webb gliders
cl.hehape_base = cl.dodsBase + 'CANON_march2013/usc_glider/HeHaPe/processed/'
cl.hehape_files = [
'OS_Glider_HeHaPe_20130305_TS.nc',
'OS_Glider_HeHaPe_20130310_TS.nc',
]
cl.hehape_parms = [ 'TEMP', 'PSAL', 'BB532', 'CDOM', 'CHLA', 'DENS' ]
cl.rusalka_base = cl.dodsBase + 'CANON/2014_Apr/Platforms/Gliders/USC/'
cl.rusalka_files = [
'GliderRusalka.nc',
]
cl.rusalka_parms = ['temperature', 'chlorophyll', 'bb532']
示例5:
# 需要导入模块: from CANON import CANONLoader [as 别名]
# 或者: from CANON.CANONLoader import tethys_parms [as 别名]
"20110421_20110424/20110421T170430/slate.nc",
"20110421_20110424/20110422T001932/slate.nc",
"20110421_20110424/20110423T223119/slate.nc",
"20110421_20110424/20110424T214938/slate.nc",
"20110426_20110502/20110426T171129/slate.nc",
"20110426_20110502/20110427T191236/slate.nc",
"20110426_20110502/20110429T222225/slate.nc",
"20110426_20110502/20110430T132028/slate.nc",
"20110426_20110502/20110502T040031/slate.nc",
]
cl.tethys_parms = [
"sea_water_temperature",
"sea_water_salinity",
"sea_water_density",
"volume_scattering_470_nm",
"volume_scattering_650_nm",
"volume_scattering_650_nm",
"mass_concentration_of_oxygen_in_sea_water",
"mole_concentration_of_nitrate_in_sea_water",
"mass_concentration_of_chlorophyll_in_sea_water",
]
# Execute the load
cl.process_command_line()
if cl.args.test:
cl.loadDorado(stride=100)
cl.loadTethys(stride=1000)
elif cl.args.optimal_stride:
cl.loadDorado(stride=2)
示例6: produced
# 需要导入模块: from CANON import CANONLoader [as 别名]
# 或者: from CANON.CANONLoader import tethys_parms [as 别名]
'Dorado389_2013_273_00_273_00_decim.nc',
'Dorado389_2013_274_00_274_00_decim.nc',
'Dorado389_2013_275_00_275_00_decim.nc',
'Dorado389_2013_276_00_276_00_decim.nc',
]
cl.dorado_parms = [ 'temperature', 'oxygen', 'nitrate', 'bbp420', 'bbp700',
'fl700_uncorr', 'salinity', 'biolume', 'rhodamine',
'sepCountList', 'mepCountList' ]
#####################################################################
# LRAUV
#####################################################################
# NetCDF files produced (binned, etc.) by John Ryan
cl.tethys_base = cl.dodsBase + 'CANON_september2013/Platforms/AUVs/Tethys/NetCDF/'
cl.tethys_files = ['Tethys_CANON_Fall2013.nc']
cl.tethys_parms = ['temperature', 'salinity', 'chlorophyll', 'bb470', 'bb650']
cl.daphne_base = cl.dodsBase + 'CANON_september2013/Platforms/AUVs/Daphne/NetCDF/'
cl.daphne_files = ['Daphne_CANON_Fall2013.nc']
cl.daphne_parms = ['temperature', 'chlorophyll', 'bb470', 'bb650']
######################################################################
# GLIDERS
######################################################################
# Glider data files from CeNCOOS thredds server
# L_662
cl.l_662_base = 'http://legacy.cencoos.org/thredds/dodsC/gliders/Line66/'
cl.l_662_files = ['OS_Glider_L_662_20130711_TS.nc']
cl.l_662_parms = ['TEMP', 'PSAL', 'FLU2']
cl.l_662_startDatetime = startdate