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WSJT-X
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Working on sound I/O, devsetup window, etc. Much still to do! 

git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/branches/jtms3@2482 ab8295b8-cf94-4d9e-aec4-7959e3be5d79
This commit is contained in:
Joe Taylor 2012-07-04 14:40:11 +00:00
parent 6703d4850d
commit 0a3c96fab0
5 changed files with 86 additions and 9 deletions
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9
devsetup.cpp
View File

@ -79,6 +79,11 @@ void DevSetup::initDlg()
QString t(p2);
ui.comboBoxSndIn->addItem(t);
}
}
k=0;
for(id=0; id<numDevices; id++ ) {
pdi=Pa_GetDeviceInfo(id);
nchout=pdi->maxOutputChannels;
if(nchout>=2) {
m_outDevList[k]=id;
@ -115,8 +120,6 @@ void DevSetup::initDlg()
ui.comboBoxSndOut->setCurrentIndex(m_nDevOut);
m_paInDevice=m_inDevList[m_nDevIn];
m_paOutDevice=m_outDevList[m_nDevOut];
qDebug() << "A" << m_nDevIn << m_paInDevice << m_nDevOut << m_paOutDevice;
}
@ -144,7 +147,5 @@ void DevSetup::accept()
m_nDevOut=ui.comboBoxSndOut->currentIndex();
m_paOutDevice=m_outDevList[m_nDevOut];
QDialog::accept();
qDebug() << "B" << m_nDevIn << m_paInDevice << m_nDevOut << m_paOutDevice;
}

4
devsetup.ui
View File

@ -17,7 +17,7 @@
<item>
<widget class="QTabWidget" name="ioTabWidget">
<property name="currentIndex">
<number>1</number>
<number>0</number>
</property>
<widget class="QWidget" name="tab">
<attribute name="title">
@ -392,7 +392,7 @@
<attribute name="title">
<string>I/O Devices</string>
</attribute>
<widget class="QWidget" name="">
<widget class="QWidget" name="layoutWidget">
<property name="geometry">
<rect>
<x>1</x>

2
jtms3.pro
View File

@ -6,7 +6,7 @@
QT += core gui network
CONFIG += qwt thread
CONFIG += console
#CONFIG += console
TARGET = jtms3
VERSION = 0.1

75
jtms3.txt Normal file
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@ -0,0 +1,75 @@
JTMS v3.0: Possible New Mode for Meteor Scatter
-----------------------------------------------
1. Transmitting
Type 1 messages are 72 user-information bits, source encoded as in
JT65. Convolutional FEC (K=32, r=1/2) increases the number of bits to
(72+31)*2 = 206. Nine bits are sent twice, extending the array to 215
bits. These are interleaved by bit-reversal of index values. Then 43
sync bits are inserted, spread evenly so as to fall at positions 1, 7,
13, ... 253. Frame size is 258 bits: 215 information-carrying bits
and 43 sync bits. Frame duration is 129 ms.
[Optional: Type 2 messages convey 4 user information bits (report,
R+report, RRR, 73) encoded with a (15,4,8) block code, plus a 12-bit
CRC for each callsign encoded with the Golay (23,12) code. This
makes for 15 + 2*23 = 61 information-carrying bits. One dummy bit is
added, and the 62 bits are interspersed with 31 sync bits, making a
frams of 93 bits and frame time 46.5 ms.]
2. Modulation is BPSK at 2000 baud. For sample rate 48000 Hz, this
means nsps = 48000/2000 = 24 samples per symbol. The baseband
waveform is built as follows:
a. Replicate each bit nsps times into array y(npts=30*48000),
substituting -1 for 0. Repeat the whole message enough times
to fill npts, then pad with zeros to length 2*npts.
b. Compute real-to-complex FFT of y(2*nsym*nsps). Roll off the complex
spectrum at f=1000 Hz. Translate the half-band 0-1000 upward to
1500-2500 Hz, and insert conjugate values at 1500 down to 500 Hz.
c. The inverse (complex-to-real) FFT yields the Tx audio waveform.
3. Receiving
a. Compute real-to-complex windowed FFTs, N=12288 (t=256 ms),
stepped by 128 ms (say). Zap birdies, remove frequency
components outside the range 300 - 2700 Hz, and convert to an
analytic time-domain signal.
b. Square the complex signal, cx2=cx*cx, and compute N=12288 FFT of
cx2 (resolution = 3.9 Hz). Look for carrier at 3000 + 2*DF Hz
+/- 2*Tol.
c. If carrier is found, measure frequency f and phase phi. Multiply
cx by exp(-twopi*i*f*t - phi) to recover the real baseband signal
x() to within a sign ambiguity.
d. Apply matched filter for the Tx pulse shape to x(). (This is just
a rectangular BPF, 500 - 25-- Hz ?)
e. Establish PSK symbol sync (offset i0, 0 to nsps-1 samples) by finding
maximum of Sum(sum*sum) over groups of nsps consecutive samples.
f. Read off the soft symbols, sym(1:512), and compute CCF with 3
versions of the 43-bit sync vector (rotated by 0, 14, 29 out of
its 43 positions) and three of the 31-bit sync vector (rotated by
0, 10, 20 of 31).
g. If the best CCF abs(peak) exceeds a specified threshold, the sign
of peak resolves the sign ambiguity.
h. For Type 1 messages: Gather the proper set of 215
information-carrying soft symbols. Form averages using the 9
extra symbols, reducing the number to 206, and remove
interleaving to re-order the symbols. Then run the fano232
decoder. If decoding fails, add soft symbols into an
accumulation array and (if nsum is 2 or more) try decoding the
average.
i. For Type 2 messages: Gather the proper set of 62 soft symbols.
Decode Nrpt using an exhaustive search over all possibilities.
For the CRCs, also do exhaustive searches -- and make sure that
the expected values are best (or fall in the top few, anyway).

5
mainwindow.cpp
View File

@ -197,7 +197,8 @@ MainWindow::MainWindow(QWidget *parent) :
soundInThread.start(QThread::HighestPriority);
// Assign output device and start output thread
soundOutThread.setOutputDevice(m_paOutDevice);
// soundOutThread.setOutputDevice(m_paOutDevice);
soundOutThread.setOutputDevice(13); //###???###
// soundOutThread.start(QThread::HighPriority);
m_monitoring=true; // Start with Monitoring ON
@ -534,6 +535,7 @@ void MainWindow::on_actionDeviceSetup_triggered() //Setup Dialog
m_myCall=dlg.m_myCall;
m_myGrid=dlg.m_myGrid;
m_idInt=dlg.m_idInt;
m_pttPort=dlg.m_pttPort;
m_saveDir=dlg.m_saveDir;
m_dxccPfx=dlg.m_dxccPfx;
g_pWideGraph->setFcal(m_fCal);
@ -1219,7 +1221,6 @@ void MainWindow::guiUpdate()
*/
genjtms3_(message,msgsent,iwave,&nwave,len1,len1);
msgsent[22]=0;
qDebug() << msgsent << nwave;
if(m_restart) {
QFile f("jtms3_tx.log");