About a year ago, when I started playing with ADS-B over 1090ES, I noticed that small airplanes heavily favour UAT in 978 MHz, because it's cheaper. For the purposes of independent on-board traffic, thus, it would be important to tap directly into UAT. If I mingle with airliners and their 1090ES, it's in controlled airspace anyway (yes, I know that most collisions happen in controlled airspace, but I'm grasping at excuses to play with UAT here, okay).
UAT poses a large challenge for RTL-SDR because of its relatively high data rate: 1.041667 mbit/s. RTL 2832U can only sample at 3.2 MS/s, and is only stable at 2.8 MS/s. Theoretically it should be enough, but everything I saw out there only works with 8 samples per bit, for weak signals. So, for initial experiments, I thought to try a trick: self-clocking. I set the sample rate to 2083334, and then do no clock recovery whatsoever. It hits where it hits, and if sample points lay well onto bits, the packet is recovered, otherwise it's lost.
I threw together some code, ran it, and it didn't work. Only received white noise. Oh, well. I moved the repo into a dusty corner of Github and forgot about it.
Fast forward a year, a gentleman by the name Oliver Jowett noticed a big problem: the phase was computed incorrectly. I fixed that up and suddenly saw some bits recovered (as it happened, zeroes and ones were swapped, which Oliver had to correct again).
After that, things started to move forward. Having bits recovered allowed to measure reception, and I found that the antenna that I built for the 978 MHz band was much worse than the stock antenna for TV. Imagine my surprise and disappoinment: all that soldering for nothing. I don't know where I screwed up, but some suggest that the computer and dongle produce RF noise that screws with antenna, and a length of coax helps with that despite the losses incurred by the coax (/u/christ0ph liked that in parti-cular).
This is bad.
This is good. Or better at least.
From now on, it's the error recovery. Unfortunately, I have no clue what this means:
The FEC parity generation shall be based on a systematic RS 256-ary code with 8-bit code word symbols. FEC parity generation for each of the six blocks shall be a RS (92,72) code.
Quoted from Annex 10, Volume III, 188.8.131.52.1.
P.S. Observing Oliver's key involvement, the cynical may conclude that the whole premise of Open Source is that you write drek that does not work, upload it to Github, and someone fixes it up for you, free of charge. ESR wrote a whole book about it ("with enough eyes all bugs are shallow")!