33 lines
1.5 KiB
Markdown
33 lines
1.5 KiB
Markdown
# FT8 library
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A C++ implementation of FT8 protocol, mostly intended for experimental use on microcontrollers. At the moment only encoding is implemented.
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The encoding process is relatively light on resources, and an Arduino should be perfectly capable of running this code.
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The intent of this library is to foster experimentation with e.g. automated beacons. FT8 already supports free-text messages and the upcoming new version will support raw telemetry data (71 bits).
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Work is in progress (possibly taking forever) to explore decoding options. On a fast 32-bit microcontroller decoding might be possible, perhaps with some tradeoffs.
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# What works
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So far only encoding is implemented. It should support the basic set of FT8 messages:
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* CQ <call> <grid>, e.g. CQ CA0LL GG77
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* CQ <xy> <call> <grid>, e.g. CQ JA CA0LL GG77
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* <call> <call> <report>, e.g. CA0LL OT7ER R-07
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* <call> <call> 73/RRR/RR73, e.g. OT7ER CA0LL 73
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# What doesn't
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* Encoding free-text messages
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* Encoding contest mode messages
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* Encoding compound callsigns with country prefixes and mode suffixes
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* Decoding
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# References and credits
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Thanks to Robert Morris, AB1HL, whose Python code (https://github.com/rtmrtmrtmrtm/weakmon) inspired this and helped to test various parts of the code.
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This would not of course be possible without the original WSJT-X code, which is mostly written in Fortran (http://physics.princeton.edu/pulsar/K1JT/wsjtx.html). I believe that is the only 'documentation' of the FT8 protocol available, and the source code was used as such in this project.
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Karlis Goba,
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YL3JG
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