Attributes { NC_GLOBAL { String comment "File created using pycdf0.6-3 and numpy numpy"; String project_url "http://nccoos.unc.edu"; String creation_date "2008-09-06 23:55:08"; String references "http://nccoos.unc.edu"; String format_category_code "fixed-profiler"; String modification_date "2008-09-06 23:55:08"; String title "Wind profile data at Duke Forest, Chapel Hill, NC"; String institution_dods_url "http://nccoos.unc.edu"; String source "fixed-profiler (acoustic doppler) observation"; String start_date "2007-06-30 04:00:00"; String process_level "level1"; String institution_code "nccoos"; String end_date "2007-07-10 19:15:00"; String metadata_url "http://nccoos.unc.edu"; String package_code "sodar"; String institution "Unversity of North Carolina at Chapel Hill (UNC-CH)"; String platform_code "dukeforest"; String institution_url "http://nccoos.unc.edu"; Float64 _FillValue -99999; String release_date "2008-09-06 23:55:08"; String Conventions "CF-1.0; SEACOOS-CDL-v2.0"; String project "North Carolina Coastal Ocean Observing System (NCCOOS)"; String contact "cbc (cbc@unc.edu)"; String history "raw2proc using proc_remtech_rawdata_pa0"; } time { String axis "T"; String long_name "Time"; String short_name "time"; String standard_name "time"; String units "seconds since 1970-1-1 00:00:00 -0"; } lat { String axis "Y"; String long_name "Latitude"; String reference "geographic coordinates"; String short_name "lat"; String standard_name "latitude"; String units "degrees_north"; Float64 valid_range -90, 90; } lon { String axis "Y"; String long_name "Longtitude"; String reference "geographic coordinates"; String short_name "lon"; String standard_name "longtitude"; String units "degrees_east"; Float64 valid_range -180, 180; } z { String axis "Z"; String long_name "Height"; String positive "up"; String reference "zero at sea-surface"; String short_name "z"; String standard_name "height"; String units "m"; } u { String long_name "East/West Component of Wind"; String short_name "u"; String standard_name "eastward_wind"; String units "cm s-1"; } v { String long_name "North/South Component of Wind"; String short_name "v"; String standard_name "northward_wind"; String units "cm s-1"; } w { String long_name "Vertical Component of Wind"; String short_name "w"; String standard_name "upward_wind"; String units "cm s-1"; } echo { String long_name "Echo Stength"; String short_name "echo"; String standard_name "echo_strenth"; } block { String long_name "Block Number"; String short_name "block"; String standard_name "block_number"; } val1 { String long_name "Number of Beam Validations 1"; String short_name "val1"; String standard_name "validations_1"; } val2 { String long_name "Number of Beam Validations 2"; String short_name "val2"; String standard_name "validations_2"; } val3 { String long_name "Number of Beam Validations 3"; String short_name "val3"; String standard_name "validations_3"; } val4 { String long_name "Number of Beam Validations 4"; String short_name "val4"; String standard_name "validations_4"; } spu1 { String long_name "Normalized Probability of False Signal 1"; String short_name "spu1"; String standard_name "probability_1"; } spu2 { String long_name "Normalized Probability of False Signal 1"; String short_name "spu2"; String standard_name "probability_2"; } spu3 { String long_name "Normalized Probability of False Signal 3"; String short_name "spu3"; String standard_name "probability_3"; } spu4 { String long_name "Normalized Probability of False Signal 4"; String short_name "spu4"; String standard_name "probability_4"; } nois1 { String long_name "Environmental Noise 1"; String short_name "nois1"; String standard_name "ambient_1"; String units "dB"; } nois2 { String long_name "Environmental Noise 2"; String short_name "nois2"; String standard_name "ambient_2"; String units "dB"; } nois3 { String long_name "Environmental Noise 3"; String short_name "nois3"; String standard_name "ambient_3"; String units "dB"; } nois4 { String long_name "Environmental Noise 4"; String short_name "nois4"; String standard_name "ambient_4"; String units "dB"; } femax { String long_name "Maximum Ground Clutter"; String short_name "femax"; String standard_name "max_clutter"; } softw { String long_name "Software Version"; String short_name "softw"; String standard_name "software"; } fe11 { String long_name "Number of Frequencies Emitted 11"; String short_name "fe11"; String standard_name "frequencies_11"; } fe12 { String long_name "Number of Frequencies Emitted 12"; String short_name "fe12"; String standard_name "frequencies_12"; } fe21 { String long_name "Number of Frequencies Emitted 21"; String short_name "fe21"; String standard_name "frequencies_21"; } fe22 { String long_name "Number of Frequencies Emitted 22"; String short_name "fe22"; String standard_name "frequencies_22"; } snr1 { String long_name "Average Signal To Noise Ratio 1"; String short_name "snr1"; String standard_name "signal_to_noise_1"; String units "dB"; } snr2 { String long_name "Average Signal To Noise Ratio 2"; String short_name "snr2"; String standard_name "signal_to_noise_2"; String units "dB"; } snr3 { String long_name "Average Signal To Noise Ratio 3"; String short_name "snr3"; String standard_name "signal_to_noise_3"; String units "dB"; } snr4 { String long_name "Average Signal To Noise Ratio 4"; String short_name "snr4"; String standard_name "signal_to_noise_4"; String units "dB"; } ntime { } nlat { } nlon { } nz { } }