/gps-sdr-sim

Primary LanguageCMIT LicenseMIT

GPS-SDR-SIM

GPS-SDR-SIM generates GPS baseband signal data streams, which can be converted to RF using software-defined radio (SDR) platforms, such as bladeRF, HackRF, and USRP.

Windows build instructions

  1. Start Visual Studio.
  2. Create an empty project for a console application.
  3. On the Solution Explorer at right, add "gpssim.c" and "getopt.c" to the Souce Files folder.
  4. Select "Release" in Solution Configurations drop-down list.
  5. Open the Property Pages dialog box and expand the Configuration Properties.
  6. Expand the C/C++ node and select the Language property page.
  7. Enable the OpenMP Support (/openmp).
  8. Build the solution.

Building with GCC

$ gcc gpssim.c -lm -fopenmp -o gps-sdr-sim

Generating the GPS signal file

A user-defined trajectory can be defined in a CSV file, which contains the Earth-centered Earth-fixed (ECEF) user positions at 10Hz.

The user specifies the GPS satellite constellation through a GPS broadcast ephemeris file. The daily GPS broadcast ephemers file (brdc) is a merge of the indiviual site navigation files into one. The archive for the daily file is:

ftp://cddis.gsfc.nasa.gov/gnss/data/daily/

These files are then used to generate the simulated pseudorange and Doppler for the GPS satellites in view. This simulated range data is then used to generate the digitized I/Q samples for the GPS signal.

The bladeRF command line interface requires I/Q pairs stored as signed 16-bit integers, while the hackrf_transfere supports signed bytes.

Usage: gps-sdr-sim [options]
Options:
  -e <gps_nav>     RINEX navigation file for GPS ephemerides (required)
  -u <user_motion> User motion file (required)
  -o <output>      I/Q sampling data file (default: gpssim.bin)
  -s <frequency>   Sampling frequency [Hz] (default: 2600000)
  -b <iq_bits>     I/Q data format [8/16] (default: 8)

For example:

> gps-sdr-sim -e brdc3540.14n -u circle.csv -b 16

Transmitting the samples

The TX port of a particular SDR platform is connected to the GPS receiver under test through a DC block and a fixed 50-60dB attenuator.

The simulated GPS signal file, named "gpssim.bin", can be loaded into the bladeRF for playback as shown below:

set frequency 1575.42M
set samplerate 2.6M
set bandwidth 2.5M
set txvga1 -25
cal lms
cal dc tx
tx config file=gpssim.bin format=bin
tx start

For the HackRF:

> hackrf_transfer -t gpssim.bin -f 1575420000 -s 2600000 -a 1 -x 0

License

Copyright © 2015 Takuji Ebinuma
Distributed under the MIT License.