1
0
mirror of https://github.com/gnss-sdr/gnss-sdr synced 2024-12-04 15:30:01 +00:00
gnss-sdr/utils/rinex2assist
2024-10-04 11:55:09 +02:00
..
CMakeLists.txt Remove build and data folders, move tests and utils to the base of the source tree 2024-10-04 11:55:09 +02:00
main.cc Remove build and data folders, move tests and utils to the base of the source tree 2024-10-04 11:55:09 +02:00
README.md Remove build and data folders, move tests and utils to the base of the source tree 2024-10-04 11:55:09 +02:00

Rinex2assist

This program reads data from RINEX navigation files and generates XML files that can be read by GNSS-SDR as Assisted GNSS data.

Building

This program is built along with GNSS-SDR if the options ENABLE_UNIT_TESTING_EXTRA or ENABLE_SYSTEM_TESTING_EXTRA are set to ON when calling CMake:

$ cmake -DENABLE_SYSTEM_TESTING_EXTRA=ON ..
$ make
$ sudo make install

The last step is optional. Without it, you will get the executable at ../install/rinex2assist.

The building requires two extra dependencies: the Boost Iostreams library and the program uncompress:

  • The Boost Iostreams library can be installed through a package:
    • In Debian / Ubuntu: sudo apt-get install libboost-iostreams-dev
    • In Fedora / CentOS: sudo yum install boost-iostreams
    • In OpenSUSE: sudo zypper install libboost_iostreams-devel
    • In Arch Linux: included in boost-libs package.
    • In macOS: included in Macports / Homebrew boost package.
  • The program uncompress is available by default in most UNIX and GNU/Linux systems.
    • In Fedora / CentOS: sudo yum install ncompress
    • In OpenSUSE: sudo zypper install ncompress

Usage

The usage is as follows:

$ rinex2assist /path/to/RINEX_nav_file

The argument is mandatory (the name of the RINEX navigation file). The name gps_ephemeris.xml is given to the output if GPS NAV data is fould. If the RINEX file contains Galileo data, the corresponding gal_ephemeris.xml file will be generated. The program is also able to extract parameters of the UTC and the Ionospheric models from the RINEX header, if available. They will be called gps_utc_model.xml, gps_iono.xml, gal_utc_model.xml and gal_iono.xml.

There are some servers available for downloading recent RINEX navigation files. For instance:

Just make sure to pick up a recent file from a station near you.

The program accepts either versions 2.xx or 3.xx for the RINEX navigation data file, as well as compressed files (ending in .gz or .Z).

Examples:

$ rinex2assist EBRE00ESP_R_20183290400_01H_GN.rnx.gz
Generated file: gps_ephemeris.xml
Generated file: gps_utc_model.xml
Generated file: gps_iono.xml

and

$ rinex2assist EBRE00ESP_R_20183290000_01H_EN.rnx.gz
Generated file: gal_ephemeris.xml
Generated file: gal_utc_model.xml
Generated file: gal_iono.xml

An example of GNSS-SDR configuration using ephemeris, UTC and ionospheric model parameters for GPS L1 and Galileo signals is shown below:

GNSS-SDR.AGNSS_XML_enabled=true
GNSS-SDR.AGNSS_ref_location=41.39,2.31
GNSS-SDR.AGNSS_gps_ephemeris_xml=gps_ephemeris.xml
GNSS-SDR.AGNSS_gps_iono_xml=gps_iono.xml
GNSS-SDR.AGNSS_gps_utc_model_xml=gps_utc_model.xml
GNSS-SDR.AGNSS_gal_ephemeris_xml=gal_ephemeris.xml
GNSS-SDR.AGNSS_gal_iono_xml=gal_iono.xml
GNSS-SDR.AGNSS_gal_utc_model_xml=gal_utc_model.xml

More info about the usage of AGNSS data here.