This post discusses the results of hardware acquisition and some of the current issues I’ve come during tracking of the acquired GNSS signals.

My focus has been implementation of a real-time software GNSS receiver using an FPGA.

My equipment setup is such that I have a GNSS simulator generating GPS signals which are fed into the RF front end. The digital GPS signals are now input to the FPGA development board and this is where all the processing is done in real-time.

I spent quite some designing the flow of data signals from the simulator to the FPGA platform. Extensive work was done by me to setup the interfaces and the protocols.

I’ve managed to complete the implementation of the acquisition module and have been successfully able to acquire satellites in real-time!

I do have a persistent tracking issue however…

Issue: Tracking occurs only at regular intervals for a short duration

Below are some figures showing tracking results.

  • Figure 1: Represents the correlation strength of the IP accumulator (Inphase-Prompt). Expectations are to have a high correlation strength throughout the tracking duration. High correlation however occurs only at certain intervals.
Fig1

Figure 1

  • Figure 2: This plot compares all the accumulators (Combination of I & Q with Early, Prompt & Late). You immediately notice how all the peaks for all the accumulators occurs at the same time stamps.
Fig2

Figure 2

  • Figure 3: Becomes more obvious with this plot that ALL the accumulators have high values at similar time intervals
Fig3

Figure 3

  • Figure 4: This was an interesting plot! I basically zoomed in on the peaks to see what was going on. I noticed how the power would move from Late, Prompt to Early. Every single time. This was a noticeable trend at all the peaks.
Fig4

Figure 4

The final figure (4) told me that the PRN in the input GPS signal and the one generated on the board do not align during tracking EXCEPT at those peaks.

I went back to check my PRN generators and they work as expected. So if it is not the local PRN signals then what could it be…

That shifted my attention towards the input GPS signal itself. The sampling frequency I used was 20 MHz but perhaps it is not exactly that number? I say this because according to the set sampling frequency, there are 20,000 samples per millisecond. But clearly the PRN in the input signal is shifting (from Late to Early). So does this mean the sampling frequency (aka number of samples per milliseconds) is shifting too? I’m doubting everything at the moment but if you’ve picked up any leads from the figures please let me know as I struggle on to fix it…

Email: surabhisgp [at] gmail [dot] com