WSJT-X/doc/source/tx-rx.adoc
Joe Taylor d274a49b4f Another round of documentation updates.
git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/branches/wsjtx@3669 ab8295b8-cf94-4d9e-aec4-7959e3be5d79
2014-01-29 20:50:18 +00:00

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// Status=review
.Transmitting
Immediately before the start of a transmission _WSJT-X_ encodes a
user's message and computes the sequence of tones to be sent. The
transmitted audio waveform is then computed on-the-fly, using 16-bit
integer samples at a 48000 Hz rate. Digital samples are converted to
an analog waveform in the sound card or equivalent D/A interface.
.Receiving
_WSJT-X_ acquires 16-bit integer samples from the sound card at a 48000
Hz rate and immediately downsamples the stream to 12000 Hz. Spectra
from overlapping segments are computed for the waterfall display and
saved at intervals of 0.188 s, half the JT9 symbol length.
At the end of a reception sequence, about 50 seconds into the UTC
minute, received data samples are forwarded to the decoder. For
operator convenience the decoder goes through its full procedure
twice: first at the selected Rx frequency, and then over the full
displayed frequency range. Each decoding pass can be described as a
sequence of discrete blocks. These functional blocks are different
for the JT65 and JT9 modes.
.Decoding
The basic decoding algorithm for JT65 mode was described in the
{jt65protocol} paper. The following list summarizes the corresponding
algorithm for JT9 mode, with blocks labeled with the names of
functional procedures in the code.
[horizontal]
+sync9+:: Use sync symbols to find candidate JT9 signals
in the specified frequency range
Then, at the frequency of each plausible candidate:
[horizontal]
+downsam9+:: Mix, filter and downsample to 16 complex
samples/symbol
+peakdt9+:: Using sync symbols, time-align to start of JT9 symbol
sequence
+afc9+:: Measure frequency offset and any possible drift
+twkfreq+:: Remove frequency offset and drift
+symspec2+:: Compute 8-bin spectra for 69 information-carrying
symbols, using the time- and frequency-aligned data;
transform to yield 206 single-bit soft symbols
+interleave9+:: Remove single-bit symbol interleaving imposed at the
transmitter
+decode9+:: Retrieve a 72-bit user message using the sequential
Fano algorithm for convolutional codes
+unpackmsg+:: Unpack a human-readable message from the 72-bit
compressed format
Decoding of clean JT9 signals in a white-noise background starts to
fail below signal-to-noise ratio -25 dB and reaches 50% copy at -26
dB.
With marginal or unrecognizable signals the sequential decoding
algorithm can take exponentially long times. If the +sync9+ step in
the above sequence finds many seemingly worthy candidate signals, and
if many of them turn out to be undecodable the decoding loop can take
an inconveniently long time. For this reason the step labeled
+decode9+ is programmed to ``time out'' and report failure if it is
taking too long. The choices *Fast | Normal | Deepest* on the Decode
menu provide the user with a three-step adjustment of this timeout
limit.