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Add a link to G3WDG doc on using QRA64 for microwave EME.
git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/branches/wsjtx@8060 ab8295b8-cf94-4d9e-aec4-7959e3be5d79
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@ -104,6 +104,7 @@ d). Edit lines as needed. Keeping them in alphabetic order help see dupes.
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:nh6z: http://www.nh6z.net/Amatuer_Radio_Station_NH6Z/Other_Peoples_Software.html[here]
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:omnirig: http://www.dxatlas.com/OmniRig/Files/OmniRig.zip[Download]
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:osx: http://physics.princeton.edu/pulsar/K1JT/wsjtx-{VERSION}-Darwin.dmg[wsjtx-{VERSION}-Darwin.dmg]
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:QRA64_EME: http://physics.princeton.edu/pulsar/K1JT/QRA64_EME.pdf[QRA64 for microwave EME]
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:svn: http://subversion.apache.org/packages.html#windows[Subversion]
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:win32: http://physics.princeton.edu/pulsar/K1JT/wsjtx-{VERSION}-win32.exe[wsjtx-{VERSION}-win32.exe]
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:wsjt_svn: http://sourceforge.net/p/wsjt/wsjt/HEAD/tree/[WSJT Source Repository]
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@ -149,13 +149,12 @@ separation is 110250/4096 = 26.92 Hz multiplied by n for JT65A, with n
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[[QRA64_PROTOCOL]]
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==== QRA64
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QRA64 is an experimental mode intended for EME and other extreme
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weak-signal applications. Its internal code was designed by IV3NWV.
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The protocol uses a (63,12) **Q**-ary **R**epeat **A**ccumulate code
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that is inherently better than the Reed Solomon (63,12) code used in
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JT65, yielding a 1.3 dB advantage. A new synchronizing scheme is based
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on three 7 x 7 Costas arrays. This change yields another 1.9 dB
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advantage.
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QRA64 is intended for EME and other extreme weak-signal applications.
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Its internal code was designed by IV3NWV. The protocol uses a (63,12)
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**Q**-ary **R**epeat **A**ccumulate code that is inherently better
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than the Reed Solomon (63,12) code used in JT65, yielding a 1.3 dB
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advantage. A new synchronizing scheme is based on three 7 x 7 Costas
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arrays. This change yields another 1.9 dB advantage.
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In most respects the current implementation of QRA64 is operationally
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similar to JT65. QRA64 does not use two-tone shorthand messages, and
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@ -158,15 +158,14 @@ image::JT65B.png[align="center",alt="JT65B"]
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=== QRA64
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QRA64 is an experimental mode in Version 1.8 of _WSJT-X_. The mode is
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designed especially for EME on VHF and higher bands; its operation is
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generally similar to JT4 and JT65. The following screen shot shows an
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example of a QRA64C transmission from DL7YC recorded at G3WDG over the
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EME path at 24 GHz. Doppler spread on the path was 78 Hz, so although
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the signal is reasonably strong its tones are broadened enough to make
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them hard to see on the waterfall. The triangular red marker below
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the frequency scale shows that the decoder has achieved
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synchronization with a signal at approximately 967 Hz.
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QRA64 is designed for EME on VHF and higher bands; its
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operation is generally similar to JT4 and JT65. The following screen
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shot shows an example of a QRA64C transmission from DL7YC recorded at
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G3WDG over the EME path at 24 GHz. Doppler spread on the path was 78
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Hz, so although the signal is reasonably strong its tones are
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broadened enough to make them hard to see on the waterfall. The
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triangular red marker below the frequency scale shows that the decoder
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has achieved synchronization with a signal at approximately 967 Hz.
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image::QRA64.png[align="center",alt="QRA64"]
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@ -192,11 +191,12 @@ initially, as the QRA64 tones are often not visible on the waterfall.
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The box labeled *Tx6* switches the Tx6 message from 1000Hz to 1250Hz
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to indicate to the other station that you are ready to receive messages.
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TIP: QRA64 is different from JT65 in that the decoder attempts to find
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and decode only a single signal in the receiver passband. If many
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signals are present you may be able to decode them by double-clicking
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on the lowest tone of each one in the waterfall.
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on the lowest tone of each one in the waterfall.
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TIP: G3WDG has prepared a more detailed tutorial on using {QRA64_EME}.
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=== ISCAT
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