![]() See here for usage.Ī converter of Surface observation METAR reports in simple CSV format into IODA-ready netCDF4 file.Ĭurrently, the CSV-formatted file should contain a header line such as the following: Ncep_classes.py - Convert (prep-)BUFR with embedded BUFR table to IODA format. Observations available from (VIIRS-JPSS1/NOAA-20), (VIIRS-SNPP), and (MODIS-Aqua). Viirs_modis_oc2ioda.py - L2 satellite ocean color observations from NOAA Coastwatch for VIIRS instruments on board JPSS1/NOAA-20 and SNPP satellites, and from NASA GSFC for MODIS instrument on board Aqua satellite. Smap_sss2ioda.py - SMAP satellite sea surface salinity observations. Rads_adt2ioda.py - absolute dynamic topography observations from NOAA/NESDIS. Used in the NCEP HGODAS project (these are likely to be removed at some point) Hybrid-GODAS - preprocessed, suberobbed, and QCd observations of altimetry, insitu T/S, and SST. GODAE insitu temperature and salinity ocean profiles from the Fleet Numerical Meteorology and Oceanography Center(FNMOC). Gmao_obs2ioda.py - NASA/GMAO ocean observations Thinning of data available with -thin AMOUNT argument. Parallel processing of files available with -threads THREADS argument. Gds2_sst2ioda.py - Generic SST/skin-SST converter for use with any GHRSST GD2.0 L2 or 元 data file. Optional thinning available with -thin AMOUNT argument. Usage: -i INPUT_FILE(S) -o OUTPUT_FILE -d YYYYMMDDHHĮmc_ice2ioda.py - Ice concentration observations from EMC. The marine converters all take the following format, with some converters taking additional optional arguments as noted: This is called by ctest but can also be used by a user rather than proc_gsi_ncdiag.pyįor developers, or for those who need to change the names of input/output variables in the scripts, see the README in.A script to convert just a single input GSI diag file into one Obs file and one GeoVaLs file.usage: test_gsidiag.py -i /path/to/inputfile.nc -o /path/to/outdir/ -t conv|rad|aod|oz.Output file for additional processing or analysis. Finds observations for conventional data at the same locations and combines them from multiple files into one.usage: combine_conv.py -i /path/to/file1.nc /path/to/filen.nc -o /path/to/outputfile.nc.NPROCS controls how many files can be subsetted at once to speed up the process.Subsets all of the files in the input directory to an output of only 100 (m) or 1 (s) location.usage: subset_files.py -m/-s -n NPROCS /path/to/directory.Where NPROCS is the number of parallel processes that will run at one time (should be equal to the number of usage: python proc_gsi_ncdiag.py -n NPROCS -o /path/to/obsout -g /path/to/geovalsout /path/to/diagfiles.This script uses Python multiprocessing to run multiple instances in separate processes to convert the files in.The following executable scripts are to be used by the user: To run GSI and produce the necessary files, see the feature/files_for_jedi IODA observation files and GeoVaLs for UFO. Everything you need is included, from external antennas to lightning arrestors and coaxial cables, for effortless outdoor deployment.These scripts use classes defined in the gsincdiag Python library to convert output from GSI netCDF diag files into The RG-AP630(IODA) outdoor AP offers you a complete installation package. APs can be easily adjusted from -60° to 60° horizontally and from -60° to 90° vertically to suit various scenarios.Īll-in-one package for hassle-free deployment The SFP Base-X port assumes the data transmission workload for optimal network deployment.Īn adjustable mounting kit is available by default for painless deployment optimization. The RG-AP630(IODA) offers a 10/100/1000Base-T Ethernet uplink port that prevents the LAN port from being the bottleneck of wireless access, and a combined 1000M SFP port that adapts to the wired network structure in different user scenarios. Integrated directional and omnidirectional antennas of RG-AP630(IODA)Įl enlace ascendente Gigabit más flexible del sector The APs also support internal and external antenna switching to flexibly adapt to any deployment scenario. Outstanding environmental adaptability (IP67, -40-55☌)Īntena inteligente integrada del AP630 (IODA)Įquipped with an integrated antenna, the RG-AP630(IODA) can achieve real-time antenna beam switching based on the location of access devices, ensuring an optimal wireless experience.Integrated omnidirectional antenna (external antenna optional) and lightning arrester. ![]() Highlights of the RG-AP630 Outdoor AP series:
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