netcdf tmpassistsummaryM1.a1.20140913.000107 { dimensions: time = UNLIMITED ; // (588 currently) bound = 2 ; variables: int base_time ; base_time:string = "2014-09-13 00:00:00 0:00" ; base_time:long_name = "Base time in Epoch" ; base_time:units = "seconds since 1970-1-1 0:00:00 0:00" ; base_time:ancillary_variables = "time_offset" ; double time_offset(time) ; time_offset:long_name = "Time offset from base_time" ; time_offset:units = "seconds since 2014-09-13 00:00:00 0:00" ; time_offset:ancillary_variables = "base_time" ; double time(time) ; time:long_name = "Time offset from midnight" ; time:units = "seconds since 2014-09-13 00:00:00 0:00" ; time:bounds = "time_bounds" ; time:calendar = "gregorian" ; time:standard_name = "time" ; double time_bounds(time, bound) ; time_bounds:long_name = "Time cell bounds" ; time_bounds:bound_offsets = 0., 12. ; float ch1_surface_layer_radiance(time) ; ch1_surface_layer_radiance:long_name = "Longwave radiance average (675-680 cm^-1) surface air" ; ch1_surface_layer_radiance:units = "mW/(m^2 sr cm^-1)" ; ch1_surface_layer_radiance:missing_value = -9999.f ; ch1_surface_layer_radiance:cell_method = "time: mean" ; float ch1_surface_layer_radiance_imaginary(time) ; ch1_surface_layer_radiance_imaginary:long_name = "Imaginary component of the longwave radiance average (675-680 cm^-1) surface air" ; ch1_surface_layer_radiance_imaginary:units = "mW/(m^2 sr cm^-1)" ; ch1_surface_layer_radiance_imaginary:missing_value = -9999.f ; ch1_surface_layer_radiance_imaginary:cell_method = "time: mean" ; float ch1_elevated_layer_radiance(time) ; ch1_elevated_layer_radiance:long_name = "Longwave radiance average (700_705 cm^-1) elevated air" ; ch1_elevated_layer_radiance:units = "mW/(m^2 sr cm^-1)" ; ch1_elevated_layer_radiance:missing_value = -9999.f ; ch1_elevated_layer_radiance:cell_method = "time: mean" ; float ch1_elevated_layer_radiance_imaginary(time) ; ch1_elevated_layer_radiance_imaginary:long_name = "Imaginary component of the longwave radiance average (700_705 cm^-1) elevated air" ; ch1_elevated_layer_radiance_imaginary:units = "mW/(m^2 sr cm^-1)" ; ch1_elevated_layer_radiance_imaginary:missing_value = -9999.f ; ch1_elevated_layer_radiance_imaginary:cell_method = "time: mean" ; float ch1_window_radiance(time) ; ch1_window_radiance:long_name = "Longwave window radiance average (985_990 cm^-1)" ; ch1_window_radiance:units = "mW/(m^2 sr cm^-1)" ; ch1_window_radiance:missing_value = -9999.f ; ch1_window_radiance:cell_method = "time: mean" ; float ch1_window_radiance_imaginary(time) ; ch1_window_radiance_imaginary:long_name = "Imaginary component of the longwave window radiance average (985_990 cm^-1)" ; ch1_window_radiance_imaginary:units = "mW/(m^2 sr cm^-1)" ; ch1_window_radiance_imaginary:missing_value = -9999.f ; ch1_window_radiance_imaginary:cell_method = "time: mean" ; float ch2_surface_layer_radiance(time) ; ch2_surface_layer_radiance:long_name = "Shortwave radiance average (2295_2300 cm^-1) surface air" ; ch2_surface_layer_radiance:units = "mW/(m^2 sr cm^-1)" ; ch2_surface_layer_radiance:missing_value = -9999.f ; ch2_surface_layer_radiance:cell_method = "time: mean" ; float ch2_surface_layer_radiance_imaginary(time) ; ch2_surface_layer_radiance_imaginary:long_name = "Imaginary component of the shortwave radiance average (2295_2300 cm^-1) surface air" ; ch2_surface_layer_radiance_imaginary:units = "mW/(m^2 sr cm^-1)" ; ch2_surface_layer_radiance_imaginary:missing_value = -9999.f ; ch2_surface_layer_radiance_imaginary:cell_method = "time: mean" ; float ch2_elevated_layer_radiance(time) ; ch2_elevated_layer_radiance:long_name = "Shortwave radiance average (2282_2287 cm^-1) elevated air" ; ch2_elevated_layer_radiance:units = "mW/(m^2 sr cm^-1)" ; ch2_elevated_layer_radiance:missing_value = -9999.f ; ch2_elevated_layer_radiance:cell_method = "time: mean" ; float ch2_elevated_layer_radiance_imaginary(time) ; ch2_elevated_layer_radiance_imaginary:long_name = "Imaginary component of the shortwave radiance average (2282_2287 cm^-1) elevated air" ; ch2_elevated_layer_radiance_imaginary:units = "mW/(m^2 sr cm^-1)" ; ch2_elevated_layer_radiance_imaginary:missing_value = -9999.f ; ch2_elevated_layer_radiance_imaginary:cell_method = "time: mean" ; float ch2_window_radiance(time) ; ch2_window_radiance:long_name = "Shortwave window radiance average (2510_2515 cm^-1)" ; ch2_window_radiance:units = "mW/(m^2 sr cm^-1)" ; ch2_window_radiance:missing_value = -9999.f ; ch2_window_radiance:cell_method = "time: mean" ; float ch2_window_radiance_imaginary(time) ; ch2_window_radiance_imaginary:long_name = "Imaginary component of the shortwave window radiance average (2510_2515 cm^-1)" ; ch2_window_radiance_imaginary:units = "mW/(m^2 sr cm^-1)" ; ch2_window_radiance_imaginary:missing_value = -9999.f ; ch2_window_radiance_imaginary:cell_method = "time: mean" ; float ch1_surface_layer_bt(time) ; ch1_surface_layer_bt:long_name = "Longwave surface air brightness temperature from radiance average (675_680 cm^-1)" ; ch1_surface_layer_bt:units = "K" ; ch1_surface_layer_bt:missing_value = -9999.f ; ch1_surface_layer_bt:cell_method = "time: mean" ; float ch1_elevated_layer_bt(time) ; ch1_elevated_layer_bt:long_name = "Longwave elevated air brightness temperature from radiance average (700_705 cm^-1)" ; ch1_elevated_layer_bt:units = "K" ; ch1_elevated_layer_bt:missing_value = -9999.f ; ch1_elevated_layer_bt:cell_method = "time: mean" ; float ch1_window_bt(time) ; ch1_window_bt:long_name = "Longwave window brightness temperature from radiance average (985_990 cm^-1)" ; ch1_window_bt:units = "K" ; ch1_window_bt:missing_value = -9999.f ; ch1_window_bt:cell_method = "time: mean" ; float ch2_surface_layer_bt(time) ; ch2_surface_layer_bt:long_name = "Shortwave surface air brightness temperature from radiance average (2295_2300 cm^-1)" ; ch2_surface_layer_bt:units = "K" ; ch2_surface_layer_bt:missing_value = -9999.f ; ch2_surface_layer_bt:cell_method = "time: mean" ; float ch2_elevated_layer_bt(time) ; ch2_elevated_layer_bt:long_name = "Shortwave elevated air brightness temperature from radiance average (2282_2287 cm^-1)" ; ch2_elevated_layer_bt:units = "K" ; ch2_elevated_layer_bt:missing_value = -9999.f ; ch2_elevated_layer_bt:cell_method = "time: mean" ; float ch2_window_bt(time) ; ch2_window_bt:long_name = "Shortwave window brightness temperature from radiance average (2510_2515 cm^-1)" ; ch2_window_bt:units = "K" ; ch2_window_bt:missing_value = -9999.f ; ch2_window_bt:cell_method = "time: mean" ; float ch1_surface_layer_radiance_std(time) ; ch1_surface_layer_radiance_std:long_name = "Radiance standard deviation during sky view averaged over (675_680 cm^-1)" ; ch1_surface_layer_radiance_std:units = "mW/(m^2 sr cm^-1)" ; ch1_surface_layer_radiance_std:missing_value = -9999.f ; ch1_surface_layer_radiance_std:cell_method = "time: mean" ; float ch1_elevated_layer_radiance_std(time) ; ch1_elevated_layer_radiance_std:long_name = "Radiance standard deviation during sky view averaged over (700_705 cm^-1)" ; ch1_elevated_layer_radiance_std:units = "mW/(m^2 sr cm^-1)" ; ch1_elevated_layer_radiance_std:missing_value = -9999.f ; ch1_elevated_layer_radiance_std:cell_method = "time: mean" ; float ch1_window_radiance_std(time) ; ch1_window_radiance_std:long_name = "Radiance standard deviation during sky view averaged over (985_990 cm^-1)" ; ch1_window_radiance_std:units = "mW/(m^2 sr cm^-1)" ; ch1_window_radiance_std:missing_value = -9999.f ; ch1_window_radiance_std:cell_method = "time: mean" ; float ch2_surface_layer_radiance_std(time) ; ch2_surface_layer_radiance_std:long_name = "Radiance standard deviation during sky view averaged over (2295_2300 cm^-1)" ; ch2_surface_layer_radiance_std:units = "mW/(m^2 sr cm^-1)" ; ch2_surface_layer_radiance_std:missing_value = -9999.f ; ch2_surface_layer_radiance_std:cell_method = "time: mean" ; float ch2_elevated_layer_radiance_std(time) ; ch2_elevated_layer_radiance_std:long_name = "Radiance standard deviation during sky view averaged over (2282_2287 cm^-1)" ; ch2_elevated_layer_radiance_std:units = "mW/(m^2 sr cm^-1)" ; ch2_elevated_layer_radiance_std:missing_value = -9999.f ; ch2_elevated_layer_radiance_std:cell_method = "time: mean" ; float ch2_window_radiance_std(time) ; ch2_window_radiance_std:long_name = "Radiance standard deviation during sky view averaged over (2510_2515 cm^-1)" ; ch2_window_radiance_std:units = "mW/(m^2 sr cm^-1)" ; ch2_window_radiance_std:missing_value = -9999.f ; ch2_window_radiance_std:cell_method = "time: mean" ; float ch1_sky_nen_1000wn(time) ; ch1_sky_nen_1000wn:long_name = "The noise equivalent radiance observed in the longwave channel during a sky view at 1000 cm^-1" ; ch1_sky_nen_1000wn:units = "mW/(m^2 sr cm^-1)" ; ch1_sky_nen_1000wn:missing_value = -9999.f ; ch1_sky_nen_1000wn:cell_method = "time: mean" ; float ch2_sky_nen_2500wn(time) ; ch2_sky_nen_2500wn:long_name = "The noise equivalent radiance observed in the shortwave channel during a sky view at 2500 cm^-1" ; ch2_sky_nen_2500wn:units = "mW/(m^2 sr cm^-1)" ; ch2_sky_nen_2500wn:missing_value = -9999.f ; ch2_sky_nen_2500wn:cell_method = "time: mean" ; float ch1_hbb_nen_1000wn(time) ; ch1_hbb_nen_1000wn:long_name = "Longwave hot blackbody noise-equivalent radiance" ; ch1_hbb_nen_1000wn:units = "mW/(m^2 sr cm^-1)" ; ch1_hbb_nen_1000wn:missing_value = -9999.f ; ch1_hbb_nen_1000wn:cell_method = "time: mean" ; float ch2_hbb_nen_2500wn(time) ; ch2_hbb_nen_2500wn:long_name = "Shortwave hot blackbody noise-equivalent radiance" ; ch2_hbb_nen_2500wn:units = "mW/(m^2 sr cm^-1)" ; ch2_hbb_nen_2500wn:missing_value = -9999.f ; ch2_hbb_nen_2500wn:cell_method = "time: mean" ; float ch1_responsivity_1000wn(time) ; ch1_responsivity_1000wn:long_name = "Characteristic value representing overall shortwave channel responsivity" ; ch1_responsivity_1000wn:units = "count/(mW/(m^2 sr cm^-1))" ; ch1_responsivity_1000wn:missing_value = -9999.f ; ch1_responsivity_1000wn:cell_method = "time: mean" ; float ch2_responsivity_2500wn(time) ; ch2_responsivity_2500wn:long_name = "Characteristic value representing overall longwave channel responsivity" ; ch2_responsivity_2500wn:units = "count/(mW/(m^2 sr cm^-1))" ; ch2_responsivity_2500wn:missing_value = -9999.f ; ch2_responsivity_2500wn:cell_method = "time: mean" ; float ch1_irt_band_brightness_temp(time) ; ch1_irt_band_brightness_temp:long_name = "Brightness temperature computed over irt band with IRT responsivity." ; ch1_irt_band_brightness_temp:units = "K" ; ch1_irt_band_brightness_temp:missing_value = -9999.f ; ch1_irt_band_brightness_temp:cell_method = "time: mean" ; float radiance_1302_1307_wn(time) ; radiance_1302_1307_wn:long_name = "Sky radiance averaged from 1302 to 1307 wavenumbers." ; radiance_1302_1307_wn:units = "mW/(m^2 sr cm^-1)" ; radiance_1302_1307_wn:missing_value = -9999.f ; radiance_1302_1307_wn:cell_method = "time: mean" ; float radiance_669p5_670_wn(time) ; radiance_669p5_670_wn:long_name = "Sky radiance averaged from 669.5 to 670 wavenumbers." ; radiance_669p5_670_wn:units = "mW/(m^2 sr cm^-1)" ; radiance_669p5_670_wn:missing_value = -9999.f ; radiance_669p5_670_wn:cell_method = "time: mean" ; float radiance_671_671p5_wn(time) ; radiance_671_671p5_wn:long_name = "Sky radiance averaged from 671 to 671.5 wavenumbers." ; radiance_671_671p5_wn:units = "mW/(m^2 sr cm^-1)" ; radiance_671_671p5_wn:missing_value = -9999.f ; radiance_671_671p5_wn:cell_method = "time: mean" ; float radiance_673_673p5_wn(time) ; radiance_673_673p5_wn:long_name = "Sky radiance averaged from 673 to 673.5 wavenumbers." ; radiance_673_673p5_wn:units = "mW/(m^2 sr cm^-1)" ; radiance_673_673p5_wn:missing_value = -9999.f ; radiance_673_673p5_wn:cell_method = "time: mean" ; float radiance_674p5_675_wn(time) ; radiance_674p5_675_wn:long_name = "Sky radiance averaged from 674.5 to 675 wavenumbers." ; radiance_674p5_675_wn:units = "mW/(m^2 sr cm^-1)" ; radiance_674p5_675_wn:missing_value = -9999.f ; radiance_674p5_675_wn:cell_method = "time: mean" ; float radiance_675p5_676_wn(time) ; radiance_675p5_676_wn:long_name = "Sky radiance averaged from 675.5 to 676 wavenumbers." ; radiance_675p5_676_wn:units = "mW/(m^2 sr cm^-1)" ; radiance_675p5_676_wn:missing_value = -9999.f ; radiance_675p5_676_wn:cell_method = "time: mean" ; float radiance_677_677p5_wn(time) ; radiance_677_677p5_wn:long_name = "Sky radiance averaged from 677 to 677.5 wavenumbers." ; radiance_677_677p5_wn:units = "mW/(m^2 sr cm^-1)" ; radiance_677_677p5_wn:missing_value = -9999.f ; radiance_677_677p5_wn:cell_method = "time: mean" ; float radiance_677p5_678_wn(time) ; radiance_677p5_678_wn:long_name = "Sky radiance averaged from 677.5 to 678 wavenumbers." ; radiance_677p5_678_wn:units = "mW/(m^2 sr cm^-1)" ; radiance_677p5_678_wn:missing_value = -9999.f ; radiance_677p5_678_wn:cell_method = "time: mean" ; float radiance_678p5_679_wn(time) ; radiance_678p5_679_wn:long_name = "Sky radiance averaged from 678.5 to 679 wavenumbers." ; radiance_678p5_679_wn:units = "mW/(m^2 sr cm^-1)" ; radiance_678p5_679_wn:missing_value = -9999.f ; radiance_678p5_679_wn:cell_method = "time: mean" ; float radiance_679_679p5_wn(time) ; radiance_679_679p5_wn:long_name = "Sky radiance averaged from 679 to 679.5 wavenumbers." ; radiance_679_679p5_wn:units = "mW/(m^2 sr cm^-1)" ; radiance_679_679p5_wn:missing_value = -9999.f ; radiance_679_679p5_wn:cell_method = "time: mean" ; float radiance_680p5_681_wn(time) ; radiance_680p5_681_wn:long_name = "Sky radiance averaged from 680.5 to 681 wavenumbers." ; radiance_680p5_681_wn:units = "mW/(m^2 sr cm^-1)" ; radiance_680p5_681_wn:missing_value = -9999.f ; radiance_680p5_681_wn:cell_method = "time: mean" ; float radiance_682_682p5_wn(time) ; radiance_682_682p5_wn:long_name = "Sky radiance averaged from 682 to 682.5 wavenumbers." ; radiance_682_682p5_wn:units = "mW/(m^2 sr cm^-1)" ; radiance_682_682p5_wn:missing_value = -9999.f ; radiance_682_682p5_wn:cell_method = "time: mean" ; float radiance_683p5_684_wn(time) ; radiance_683p5_684_wn:long_name = "Sky radiance averaged from 683.5 to 684 wavenumbers." ; radiance_683p5_684_wn:units = "mW/(m^2 sr cm^-1)" ; radiance_683p5_684_wn:missing_value = -9999.f ; radiance_683p5_684_wn:cell_method = "time: mean" ; float radiance_684_684p5_wn(time) ; radiance_684_684p5_wn:long_name = "Sky radiance averaged from 684 to 684.5 wavenumbers." ; radiance_684_684p5_wn:units = "mW/(m^2 sr cm^-1)" ; radiance_684_684p5_wn:missing_value = -9999.f ; radiance_684_684p5_wn:cell_method = "time: mean" ; float radiance_685p5_686_wn(time) ; radiance_685p5_686_wn:long_name = "Sky radiance averaged from 685.5 to 686 wavenumbers." ; radiance_685p5_686_wn:units = "mW/(m^2 sr cm^-1)" ; radiance_685p5_686_wn:missing_value = -9999.f ; radiance_685p5_686_wn:cell_method = "time: mean" ; float radiance_687_687p5_wn(time) ; radiance_687_687p5_wn:long_name = "Sky radiance averaged from 687 to 687.5 wavenumbers." ; radiance_687_687p5_wn:units = "mW/(m^2 sr cm^-1)" ; radiance_687_687p5_wn:missing_value = -9999.f ; radiance_687_687p5_wn:cell_method = "time: mean" ; float radiance_690_690p5_wn(time) ; radiance_690_690p5_wn:long_name = "Sky radiance averaged from 690 to 690.5 wavenumbers." ; radiance_690_690p5_wn:units = "mW/(m^2 sr cm^-1)" ; radiance_690_690p5_wn:missing_value = -9999.f ; radiance_690_690p5_wn:cell_method = "time: mean" ; float Tb_1302_1307_wn(time) ; Tb_1302_1307_wn:long_name = "Brightness temperature averaged from 1302 to 1307 wavenumbers." ; Tb_1302_1307_wn:units = "K" ; Tb_1302_1307_wn:missing_value = -9999.f ; Tb_1302_1307_wn:standard_name = "brightness_temperature" ; Tb_1302_1307_wn:cell_method = "time: mean" ; float Tb_669p5_670_wn(time) ; Tb_669p5_670_wn:long_name = "Brightness temperature averaged from 669.5 to 670 wavenumbers." ; Tb_669p5_670_wn:units = "K" ; Tb_669p5_670_wn:missing_value = -9999.f ; Tb_669p5_670_wn:standard_name = "brightness_temperature" ; Tb_669p5_670_wn:cell_method = "time: mean" ; float Tb_671_671p5_wn(time) ; Tb_671_671p5_wn:long_name = "Brightness temperature averaged from 671 to 671.5 wavenumbers." ; Tb_671_671p5_wn:units = "K" ; Tb_671_671p5_wn:missing_value = -9999.f ; Tb_671_671p5_wn:standard_name = "brightness_temperature" ; Tb_671_671p5_wn:cell_method = "time: mean" ; float Tb_673_673p5_wn(time) ; Tb_673_673p5_wn:long_name = "Brightness temperature averaged from 673 to 673.5 wavenumbers." ; Tb_673_673p5_wn:units = "K" ; Tb_673_673p5_wn:missing_value = -9999.f ; Tb_673_673p5_wn:standard_name = "brightness_temperature" ; Tb_673_673p5_wn:cell_method = "time: mean" ; float Tb_674p5_675_wn(time) ; Tb_674p5_675_wn:long_name = "Brightness temperature averaged from 674.5 to 675 wavenumbers." ; Tb_674p5_675_wn:units = "K" ; Tb_674p5_675_wn:missing_value = -9999.f ; Tb_674p5_675_wn:standard_name = "brightness_temperature" ; Tb_674p5_675_wn:cell_method = "time: mean" ; float Tb_675p5_676_wn(time) ; Tb_675p5_676_wn:long_name = "Brightness temperature averaged from 675.5 to 676 wavenumbers." ; Tb_675p5_676_wn:units = "K" ; Tb_675p5_676_wn:missing_value = -9999.f ; Tb_675p5_676_wn:standard_name = "brightness_temperature" ; Tb_675p5_676_wn:cell_method = "time: mean" ; float Tb_677_677p5_wn(time) ; Tb_677_677p5_wn:long_name = "Brightness temperature averaged from 677 to 677.5 wavenumbers." ; Tb_677_677p5_wn:units = "K" ; Tb_677_677p5_wn:missing_value = -9999.f ; Tb_677_677p5_wn:standard_name = "brightness_temperature" ; Tb_677_677p5_wn:cell_method = "time: mean" ; float Tb_677p5_678_wn(time) ; Tb_677p5_678_wn:long_name = "Brightness temperature averaged from 677.5 to 678 wavenumbers." ; Tb_677p5_678_wn:units = "K" ; Tb_677p5_678_wn:missing_value = -9999.f ; Tb_677p5_678_wn:standard_name = "brightness_temperature" ; Tb_677p5_678_wn:cell_method = "time: mean" ; float Tb_678p5_679_wn(time) ; Tb_678p5_679_wn:long_name = "Brightness temperature averaged from 678.5 to 679 wavenumbers." ; Tb_678p5_679_wn:units = "K" ; Tb_678p5_679_wn:missing_value = -9999.f ; Tb_678p5_679_wn:standard_name = "brightness_temperature" ; Tb_678p5_679_wn:cell_method = "time: mean" ; float Tb_679_679p5_wn(time) ; Tb_679_679p5_wn:long_name = "Brightness temperature averaged from 679 to 679.5 wavenumbers." ; Tb_679_679p5_wn:units = "K" ; Tb_679_679p5_wn:missing_value = -9999.f ; Tb_679_679p5_wn:standard_name = "brightness_temperature" ; Tb_679_679p5_wn:cell_method = "time: mean" ; float Tb_680p5_681_wn(time) ; Tb_680p5_681_wn:long_name = "Brightness temperature averaged from 680.5 to 681 wavenumbers." ; Tb_680p5_681_wn:units = "K" ; Tb_680p5_681_wn:missing_value = -9999.f ; Tb_680p5_681_wn:standard_name = "brightness_temperature" ; Tb_680p5_681_wn:cell_method = "time: mean" ; float Tb_682_682p5_wn(time) ; Tb_682_682p5_wn:long_name = "Brightness temperature averaged from 682 to 682.5 wavenumbers." ; Tb_682_682p5_wn:units = "K" ; Tb_682_682p5_wn:missing_value = -9999.f ; Tb_682_682p5_wn:standard_name = "brightness_temperature" ; Tb_682_682p5_wn:cell_method = "time: mean" ; float Tb_683p5_684_wn(time) ; Tb_683p5_684_wn:long_name = "Brightness temperature averaged from 683.5 to 684 wavenumbers." ; Tb_683p5_684_wn:units = "K" ; Tb_683p5_684_wn:missing_value = -9999.f ; Tb_683p5_684_wn:standard_name = "brightness_temperature" ; Tb_683p5_684_wn:cell_method = "time: mean" ; float Tb_684_684p5_wn(time) ; Tb_684_684p5_wn:long_name = "Brightness temperature averaged from 684 to 684.5 wavenumbers." ; Tb_684_684p5_wn:units = "K" ; Tb_684_684p5_wn:missing_value = -9999.f ; Tb_684_684p5_wn:standard_name = "brightness_temperature" ; Tb_684_684p5_wn:cell_method = "time: mean" ; float Tb_685p5_686_wn(time) ; Tb_685p5_686_wn:long_name = "Brightness temperature averaged from 685.5 to 686 wavenumbers." ; Tb_685p5_686_wn:units = "K" ; Tb_685p5_686_wn:missing_value = -9999.f ; Tb_685p5_686_wn:standard_name = "brightness_temperature" ; Tb_685p5_686_wn:cell_method = "time: mean" ; float Tb_687_687p5_wn(time) ; Tb_687_687p5_wn:long_name = "Brightness temperature averaged from 687 to 687.5 wavenumbers." ; Tb_687_687p5_wn:units = "K" ; Tb_687_687p5_wn:missing_value = -9999.f ; Tb_687_687p5_wn:standard_name = "brightness_temperature" ; Tb_687_687p5_wn:cell_method = "time: mean" ; float Tb_690_690p5_wn(time) ; Tb_690_690p5_wn:long_name = "Brightness temperature averaged from 690 to 690.5 wavenumbers." ; Tb_690_690p5_wn:units = "K" ; Tb_690_690p5_wn:missing_value = -9999.f ; Tb_690_690p5_wn:standard_name = "brightness_temperature" ; Tb_690_690p5_wn:cell_method = "time: mean" ; float power_supply_box_temp(time) ; power_supply_box_temp:long_name = "Power supply box temperature" ; power_supply_box_temp:units = "degC" ; power_supply_box_temp:missing_value = -9999.f ; power_supply_box_temp:cell_method = "time: mean" ; float bb_cooler_24v(time) ; bb_cooler_24v:long_name = "Blackbody and detector cooler 24 volt supply" ; bb_cooler_24v:units = "V" ; bb_cooler_24v:missing_value = -9999.f ; bb_cooler_24v:cell_method = "time: mean" ; float mirror_motor_24v(time) ; mirror_motor_24v:long_name = "Motor 24 volt supply" ; mirror_motor_24v:units = "V" ; mirror_motor_24v:missing_value = -9999.f ; mirror_motor_24v:cell_method = "time: mean" ; float fts_15v(time) ; fts_15v:long_name = "FTS 15 volt supply" ; fts_15v:units = "V" ; fts_15v:missing_value = -9999.f ; fts_15v:cell_method = "time: mean" ; float preamp_15v(time) ; preamp_15v:long_name = "Pre-amp 15 volt supply" ; preamp_15v:units = "V" ; preamp_15v:missing_value = -9999.f ; preamp_15v:cell_method = "time: mean" ; float itx_pc_12v(time) ; itx_pc_12v:long_name = "ITX PC 12 volt supply" ; itx_pc_12v:units = "V" ; itx_pc_12v:missing_value = -9999.f ; itx_pc_12v:cell_method = "time: mean" ; float annotator_5v(time) ; annotator_5v:long_name = "Annotator 5 volt supply" ; annotator_5v:units = "V" ; annotator_5v:missing_value = -9999.f ; annotator_5v:cell_method = "time: mean" ; float port2_bb_temp(time) ; port2_bb_temp:long_name = "Second port blackbody temperature" ; port2_bb_temp:units = "degC" ; port2_bb_temp:missing_value = -9999.f ; port2_bb_temp:cell_method = "time: mean" ; float cooler_block_temp(time) ; cooler_block_temp:long_name = "Cooler block temperature" ; cooler_block_temp:units = "degC" ; cooler_block_temp:missing_value = -9999.f ; cooler_block_temp:cell_method = "time: mean" ; float fts_enclosure_temp(time) ; fts_enclosure_temp:long_name = "FTS enclosure temperature" ; fts_enclosure_temp:units = "degC" ; fts_enclosure_temp:missing_value = -9999.f ; fts_enclosure_temp:cell_method = "time: mean" ; float fts_enclosure_rh(time) ; fts_enclosure_rh:long_name = "Humidity within FTS enclosure" ; fts_enclosure_rh:units = "%" ; fts_enclosure_rh:missing_value = -9999.f ; fts_enclosure_rh:cell_method = "time: mean" ; float front_end_enclosure_temp(time) ; front_end_enclosure_temp:long_name = "Front end enclosure temperature" ; front_end_enclosure_temp:units = "degC" ; front_end_enclosure_temp:missing_value = -9999.f ; front_end_enclosure_temp:cell_method = "time: mean" ; float mirror_motor_temp(time) ; mirror_motor_temp:long_name = "Scene mirror motor temperature" ; mirror_motor_temp:units = "degC" ; mirror_motor_temp:missing_value = -9999.f ; mirror_motor_temp:cell_method = "time: mean" ; float air_near_fts_temp(time) ; air_near_fts_temp:long_name = "Temperature of air near FTS fan inlet" ; air_near_fts_temp:units = "degC" ; air_near_fts_temp:missing_value = -9999.f ; air_near_fts_temp:cell_method = "time: mean" ; air_near_fts_temp:comment = "Measured jointly with RH by a T/RH sensor" ; float air_near_fts_rh(time) ; air_near_fts_rh:long_name = "Relative humidity of air near FTS fan inlet" ; air_near_fts_rh:units = "%" ; air_near_fts_rh:missing_value = -9999.f ; air_near_fts_rh:cell_method = "time: mean" ; float air_near_fts_temp2(time) ; air_near_fts_temp2:long_name = "Temperature of air near FTS fan inlet, auxiliary" ; air_near_fts_temp2:units = "degC" ; air_near_fts_temp2:missing_value = -9999.f ; air_near_fts_temp2:cell_method = "time: mean" ; air_near_fts_temp2:comment = "Measured by a thermistor on a PCB in the same box as the T/RH sensor, so serves as a good check on this measurement." ; float elec_box_temp(time) ; elec_box_temp:long_name = "Electronics box temperature" ; elec_box_temp:units = "degC" ; elec_box_temp:missing_value = -9999.f ; elec_box_temp:cell_method = "time: mean" ; float itx_cpu_heatsink_temp(time) ; itx_cpu_heatsink_temp:long_name = "Itx CPU heatsink temperature" ; itx_cpu_heatsink_temp:units = "degC" ; itx_cpu_heatsink_temp:missing_value = -9999.f ; itx_cpu_heatsink_temp:cell_method = "time: mean" ; float cooler_diode_reading(time) ; cooler_diode_reading:long_name = "Cooler temperature diode reading" ; cooler_diode_reading:units = "mV" ; cooler_diode_reading:missing_value = -9999.f ; cooler_diode_reading:cell_method = "time: mean" ; float cooler_diode_temperature(time) ; cooler_diode_temperature:long_name = "Cooler temperature" ; cooler_diode_temperature:units = "K" ; cooler_diode_temperature:missing_value = -9999.f ; cooler_diode_temperature:cell_method = "time: mean" ; float compressor_ac_v_applied(time) ; compressor_ac_v_applied:long_name = "AC voltage supplied to compressor" ; compressor_ac_v_applied:units = "V" ; compressor_ac_v_applied:missing_value = -9999.f ; compressor_ac_v_applied:cell_method = "time: mean" ; compressor_ac_v_applied:comment = "Voltage applied onto the compressor varies with temperature;" ; short cooler_temp_alarm(time) ; cooler_temp_alarm:long_name = "Cooler temperature alarm state" ; cooler_temp_alarm:units = "unitless" ; cooler_temp_alarm:flag_values = 0s, 1s ; cooler_temp_alarm:flag_meanings = "false true" ; cooler_temp_alarm:cell_method = "time: point" ; short hatch_open_indicator(time) ; hatch_open_indicator:long_name = "Hatch open when 1" ; hatch_open_indicator:units = "unitless" ; hatch_open_indicator:flag_values = 0s, 1s ; hatch_open_indicator:flag_meanings = "false true" ; hatch_open_indicator:cell_method = "time: point" ; short hatch_closed_indicator(time) ; hatch_closed_indicator:long_name = "Hatch closed when 1" ; hatch_closed_indicator:units = "unitless" ; hatch_closed_indicator:flag_values = 0s, 1s ; hatch_closed_indicator:flag_meanings = "false true" ; hatch_closed_indicator:cell_method = "time: point" ; short precip_sensor_state(time) ; precip_sensor_state:long_name = "Precipitation sensor state" ; precip_sensor_state:units = "unitless" ; precip_sensor_state:flag_values = 0s, 1s ; precip_sensor_state:flag_meanings = "clear precipitating" ; precip_sensor_state:cell_method = "time: point" ; float sun_sensor_signal(time) ; sun_sensor_signal:long_name = "Sunlight intensity with arbitrary scale" ; sun_sensor_signal:units = "V" ; sun_sensor_signal:missing_value = -9999.f ; sun_sensor_signal:cell_method = "time: point" ; float hbb_set_point(time) ; hbb_set_point:long_name = "Hot blackbody temperature setting" ; hbb_set_point:units = "degC" ; hbb_set_point:missing_value = -9999.f ; hbb_set_point:cell_method = "time: mean" ; float hbb_mean_temp(time) ; hbb_mean_temp:long_name = "Mean hot blackbody temperature from three thermistors" ; hbb_mean_temp:units = "degC" ; hbb_mean_temp:missing_value = -9999.f ; hbb_mean_temp:cell_method = "time: mean" ; float hbb_thermistor_top(time) ; hbb_thermistor_top:long_name = "Hot blackbody temperature at top of cone" ; hbb_thermistor_top:units = "degC" ; hbb_thermistor_top:missing_value = -9999.f ; hbb_thermistor_top:cell_method = "time: mean" ; float hbb_thermistor_bottom(time) ; hbb_thermistor_bottom:long_name = "Hot blackbody temperature at bottom of cone" ; hbb_thermistor_bottom:units = "degC" ; hbb_thermistor_bottom:missing_value = -9999.f ; hbb_thermistor_bottom:cell_method = "time: mean" ; float hbb_thermistor_apex(time) ; hbb_thermistor_apex:long_name = "Hot blackbody temperature at apex of cavity" ; hbb_thermistor_apex:units = "degC" ; hbb_thermistor_apex:missing_value = -9999.f ; hbb_thermistor_apex:cell_method = "time: mean" ; float abb_set_point(time) ; abb_set_point:long_name = "Ambient blackbody temperature setting" ; abb_set_point:units = "degC" ; abb_set_point:missing_value = -9999.f ; abb_set_point:cell_method = "time: mean" ; float abb_mean_temp(time) ; abb_mean_temp:long_name = "Mean ambient blackbody temperature from three thermistors" ; abb_mean_temp:units = "degC" ; abb_mean_temp:missing_value = -9999.f ; abb_mean_temp:cell_method = "time: mean" ; float abb_thermistor_top(time) ; abb_thermistor_top:long_name = "Ambient blackbody temperature at top of cone" ; abb_thermistor_top:units = "degC" ; abb_thermistor_top:missing_value = -9999.f ; abb_thermistor_top:cell_method = "time: mean" ; float abb_thermistor_bottom(time) ; abb_thermistor_bottom:long_name = "Ambient blackbody temperature at bottom of cone" ; abb_thermistor_bottom:units = "degC" ; abb_thermistor_bottom:missing_value = -9999.f ; abb_thermistor_bottom:cell_method = "time: mean" ; float abb_thermistor_apex(time) ; abb_thermistor_apex:long_name = "Ambient blackbody temperature at apex of cavity" ; abb_thermistor_apex:units = "degC" ; abb_thermistor_apex:missing_value = -9999.f ; abb_thermistor_apex:cell_method = "time: mean" ; int gps_time_hhmmss_utc(time) ; gps_time_hhmmss_utc:long_name = "Time from GPS in UTC stored as HHMMSS" ; gps_time_hhmmss_utc:units = "HHMMSS" ; gps_time_hhmmss_utc:missing_value = -9999 ; gps_time_hhmmss_utc:cell_method = "time: point" ; float gps_latitude(time) ; gps_latitude:long_name = "Latitude from GPS" ; gps_latitude:units = "degree_N" ; gps_latitude:missing_value = -9999.f ; gps_latitude:cell_method = "time: point" ; float gps_longitude(time) ; gps_longitude:long_name = "Longitude from GPS" ; gps_longitude:units = "degree_W" ; gps_longitude:missing_value = -9999.f ; gps_longitude:cell_method = "time: point" ; float gps_altitude(time) ; gps_altitude:long_name = "Altitude above mean sea level from GPS" ; gps_altitude:units = "m" ; gps_altitude:missing_value = -9999.f ; gps_altitude:cell_method = "time: point" ; float gps_number_satellites(time) ; gps_number_satellites:long_name = "Number of satellites in GPS fix" ; gps_number_satellites:units = "unitless" ; gps_number_satellites:missing_value = -9999.f ; gps_number_satellites:cell_method = "time: point" ; float lat ; lat:long_name = "North latitude" ; lat:units = "degree_N" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; lat:standard_name = "latitude" ; float lon ; lon:long_name = "East longitude" ; lon:units = "degree_E" ; lon:valid_min = -180.f ; lon:valid_max = 180.f ; lon:standard_name = "longitude" ; float alt ; alt:long_name = "Altitude above mean sea level" ; alt:units = "m" ; alt:standard_name = "altitude" ; // global attributes: :command_line = "assist_ingest -s tmp -f M1" ; :Conventions = "ARM-1.0" ; :process_version = "ingest-assist-2.0-0.el6" ; :dod_version = "assistsummary-a1-1.0" ; :input_source = "/data/collection/tmp/tmpassistM1.00/2014_09_13_00_21_23_PROCESSED.piz" ; :site_id = "tmp" ; :platform_id = "assistsummary" ; :facility_id = "M1" ; :data_level = "a1" ; :location_description = "Biogenic Aerosols - Effect on Clouds and Climate (BAECC), Hyytiala, Finland" ; :datastream = "tmpassistsummaryM1.a1" ; :datastream_description = "This datastream encapsulates the contents of the ASSIST \"ExtraCSV\" files. The ExtraCSV files contain an array of defined system constants, quantities derived from the calibrated radiances including brightness temperatures and noise estimates. It also contains most values from both the housekeeping (hkp) and annotator (ann) files except at coarser temporal resolution so represents a virtual one-stop-shop for determining the ASSIST system status." ; :sampling_interval = "1 second" ; :averaging_interval = "12 seconds" ; :averaging_interval_comment = "The time assigned to each data point indicates the beginning of any period of averaging of the geophysical state" ; :cooler_set_point = "1052.0" ; :cooler_set_point_temperature = 76.6f ; :ffov_correction_applied = "true" ; :ffov_half_angle = 0.0225f ; :ffov_half_angle_description = "This represents the actual field of view of the instrument (in mrad) which has the effect of broadening spectral features. The calibrated radiances have been corrected for this effect." ; :ch1_nonlinearity_correction_applied = "true" ; :ch1_nonlinearity_correction_parameter_A2 = 8.e-08f ; :ch1_nonlinearity_correction_parameter_IHLAB = -46690.6549 ; :ch1_nonlinearity_correction_parameter_ICLAB = 80012.4172 ; :reflectivity_correction_applied = "true" ; :reflectivity_correction_sensor = "Front End Enclosure" ; :emissivity_correction_applied = "true" ; :effective_laser_wavenumber_ch1 = 15800.63f ; :effective_laser_wavenumber_ch1_description = "Effective laser wavenumber for channel 1 determined by comparison with clear sky LBL model results" ; :effective_laser_wavenumber_ch2 = 15799.07f ; :effective_laser_wavenumber_ch2_description = "Effective laser wavenumber for channel 2 determined by comparison with clear sky LBL model results" ; :original_interferogram_size = 32768 ; :original_interferogram_size_description = "This is the full length of the double-sided interferogram." ; :history = "created by user dsmgr on machine tin at 2014-09-13 03:26:09, using ingest-assist-2.0-0.el6" ; }