mirror of
https://github.com/saitohirga/WSJT-X.git
synced 2024-11-23 20:58:55 -05:00
Split the asciidoc source for WSJT-X User's Guide into many
smaller files, by section and sub-section. Also extensive editing up through section 7. Sections 6.2, 8, and beyond definitely need work. Other polishing is also desirable, and maybe also some additions and/or changes. git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/branches/wsjtx@3656 ab8295b8-cf94-4d9e-aec4-7959e3be5d79
This commit is contained in:
parent
5bb262246d
commit
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131
doc/build-doc.sh
131
doc/build-doc.sh
@ -1,48 +1,115 @@
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#!/usr/bin/env bash
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#
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# Part of the wsjtx-doc project
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# Builds all *.txt files found in $(PWD)/source
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# Title : build-doc.sh
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# Description : WSJT-X Documentation build script
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# Author : KI7MT
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# Email : ki7mt@yahoo.com
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# Date : JAN-21-2014
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# Version : 0.2
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# Usage : ./build-doc.sh [ option ]
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# Notes : requires asciidoc, source-highlight
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#==============================================================================
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# exit on any error
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# exit on error
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set -e
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# set script path's
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#add some color
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red='\033[01;31m'
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green='\033[01;32m'
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yellow='\033[01;33m'
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cyan='\033[01;36m'
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no_col='\033[01;37m'
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# misc var's
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base_dir=$(pwd)
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src_dir="$base_dir/source"
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style_dir="$base_dir/style"
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log_dir="$base_dir/logs"
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c_asciidoc="asciidoc -b xhtml11 -a max-width=1024px"
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script_name=$(basename $0)
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doc_version="1.2.2"
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# style sheet selection
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main_style=asciidoc.css
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toc2_style=toc2.css
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# This is temporary. Final version will loop through a directory of files
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c_asciidoc="asciidoc -b xhtml11 -a max-width=1024px"
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# build functions
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function build_no_toc() { # no toc
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echo -e ${yellow}'Building Without TOC'${no_col}
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$c_asciidoc -o wsjtx-main.html $src_dir/wsjtx-main.txt
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echo -e ${green}'. Finished wsjtx-main.html'${no_col}
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}
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function build_toc1() { # top toc
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echo -e ${yellow}'Building with Top TOC'${no_col}
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$c_asciidoc -a toc -o wsjtx-main-toc1.html $src_dir/wsjtx-main.txt
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echo -e ${green}'. Finished wsjtx-main-toc1.html'${no_col}
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}
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function build_toc2() { # left toc
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echo -e ${yellow}'Building with Left TOC'${no_col}
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$c_asciidoc -a toc2 -o wsjtx-main-toc2.html $src_dir/wsjtx-main.txt
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echo -e ${green}'. Finished wsjtx-main-toc2.html'${no_col}
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}
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# start the main script
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clear
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echo Building Main Page HTML
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echo .. Main Page Without TOC
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$c_asciidoc -o wsjtx-main.html ${src_dir}/wsjtx-main.txt
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echo .. Done
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# Hard coded version info to build outside of source tree.
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echo -e ${yellow}"*** Building WSJT-X User Guide for:" ${cyan}$doc_version${no_col}${yellow}" ***\n" ${no_col}
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echo .. Main Page With TOC
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$c_asciidoc -a toc -o wsjtx-main-toc.html ${src_dir}/wsjtx-main.txt
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echo .. Done
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# without TOC
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if [[ $1 = "" ]]
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then
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build_no_toc
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echo .. Main Page With TOC2
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$c_asciidoc -a toc2 -o wsjtx-main-toc2.html ${src_dir}/wsjtx-main.txt
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echo .. Done
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# top TOC
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elif [[ $1 = "toc1" ]]
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then
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build_toc1
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echo Building Rig Configuration Sheets
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echo Building Yaesu
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$c_asciidoc -o yaesu.html ${src_dir}/yaesu.txt
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echo .. Done
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# left TOC
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elif [[ $1 = "toc2" ]]
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then
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build_toc2
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echo Building regtemplate
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$c_asciidoc -o rigtemplate.html ${src_dir}/rigtemplate.txt
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echo Done
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echo
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echo All HTML docs have been saved to "$base_dir"
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# all toc versions
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elif [[ $1 = "all" ]]
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then
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echo -e ${yellow}'Building all TOC versions'${no_col}
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echo
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build_no_toc
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echo
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build_toc1
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echo
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build_toc2
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|
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# if something other than "", toc1, toc2 or all is entered as $1 display usage
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# message and exit. this should be re-written to redirect the user to select
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# 1 of 4 proper options v.s. exiting.
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else
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clear
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echo -e ${red}" * INPUT ERROR *\n"${no_col}
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echo 'Script Usage: build-doc.sh [ option ]'
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echo
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echo 'For with No TOC: ' ./$script_name
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echo 'For with Top TOC: './$script_name 'toc1'
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echo 'For with Left TOC: './$script_name 'toc2'
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echo 'For All Versions: ' ./$script_name 'all'
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echo
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echo Please re-enter using the examples above.
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echo
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exit 1
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fi
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# build the rig template page
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echo
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echo -e ${yellow}'Building Rig Template'${no_col}
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$c_asciidoc -o rigtemplate.html $src_dir/rigtemplate.txt
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echo -e ${green}'. Finished'${no_col}
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# build the rig sheets
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# this section will should be modified to loop through rig template(s) either by
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# name or directory ./rig/rig_* could be used.
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echo
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echo -e ${yellow}'Building Rig Configuration Sheets'${no_col}
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$c_asciidoc -o yaesu.html $src_dir/yaesu.txt
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echo -e ${green}'. Finished'${no_col}
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echo
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echo -e ${yellow}'All HTML files have been saved to:'${no_col}${cyan} "$base_dir" ${no_col}
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echo
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exit 0
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|
17
doc/source/acknowledgements.txt
Normal file
17
doc/source/acknowledgements.txt
Normal file
@ -0,0 +1,17 @@
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// Status=review
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- Many users of WSJT, too numerous to mention here individually, have
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contributed suggestions and advice that have greatly aided the
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development of {wsjtx} and its sister programs. Since 2005 the
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overall project (including WSJT, MAP65, WSPR, {wsjtx}, and WSPR-X) has
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been “open source”, all code being licensed under the GNU Public
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License (GPL).
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- For {wsjtx} in particular, I wish to acknowledge contributions from:
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*AC6SL, AE4JY, DJ0OT, G4KLA, G4WJS, K3WYC, KA6MAL, KA9Q, KK1D, PY2SDR,
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VK3ACF, VK4BDJ, and W4TV*.
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- Each has helped to bring the program’s design, code, and
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documentation to its present state. Most of the color palettes for the
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{wsjtx} waterfall were shamelessly copied from the excellent, well
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documented, open-source program fldigi, by W1HKJ and friends.
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|
39
doc/source/app-a-functional-procedures.txt
Normal file
39
doc/source/app-a-functional-procedures.txt
Normal file
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// Status=review
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.Algorithms and Source Code
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- For those wishing to study the program’s algorithms and source code,
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perhaps with an eye toward future improvements, the blocks are labeled
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here with the names of functional procedures in the code:
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.Block Steps
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[width="80%",cols="<2,60",options="header",valign="middle"]
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|========
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|Block/Step|Functional Procedure
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|sync9:|Use sync symbols to find candidate JT9 signals in the specified frequency range. +
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Then, at the frequency of each plausible candidate
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|downsam9:|Mix, filter and down-sample to 16 complex samples/symbol
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|peakdt9:|Using sync symbols, time-align to start of JT9 symbol sequence
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|afc9:|Measure frequency offset and any possible drift
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|twkfreq:|Remove frequency offset and drift
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|symspec2:|Compute 8-bin spectra for 69 information-carrying symbols, using the +
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time- and frequency-aligned data transform to yield 206 single-bit soft symbols
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|interleave9:|Remove single-bit symbol interleaving imposed at the transmitter
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|decode9:|Retrieve a 72-bit user message using the sequential ``Fano'' algorithm +
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for convolutional codes
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|unpackmsg:|Unpack a human-readable message from the 72-bit compressed format
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|========
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:shannonfano: http://en.wikipedia.org/wiki/Shannon%E2%80%93Fano_coding[ Fano Algorithm]
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- With marginal or unrecognizable signals the sequential {shannonfano}
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can take exponentially long times to completion.
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- If the first step in the above sequence finds many seemingly worthy
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candidate signals, and if many of them turn out to be undecodable, the
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decoding loop could take a very long time.
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- For this reason the decode9 step is programmed to “time out” and
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report failure if it takes too long.
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- The choice Fast | Normal | Deepest on the Decode menu provides a
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three-step control of this timeout limit.
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14
doc/source/app-a-jt9-mode-table.txt
Normal file
14
doc/source/app-a-jt9-mode-table.txt
Normal file
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// Status=review
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.JT9-Modes
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[width="80%",cols="<2,^2,^2,^2,^2,^2,^2",options="header",valign="middle"]
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|========
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|Submode|nsps|Symbol Duration (s)|Tone Spacing (Hz)|Signal Bandwidth (Hz)|S/N Threshold* (dB)|QSO Time (min)
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|JT9-1|6912|0.58|1.736|15.6|-27|6
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|JT9-2|15360|1.28|0.781|7.0|-30|12
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|JT9-5|40960|3.41|0.293|2.6|-34|30
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|JT9-10|82944|6.91|0.145|1.3|-37|60
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|JT9-30|252000|21.00|0.048|0.4|-42|180
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|========
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NOTE: Noise power measured in 2500 Hz bandwidth.
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28
doc/source/app-a-rcv-decode.txt
Normal file
28
doc/source/app-a-rcv-decode.txt
Normal file
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// Status=review
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- {wsjtx} acquires 16-bit integer samples from the sound card at a
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12000 Hz rate. Spectra from overlapping data segments are computed
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for the waterfall display and saved at intervals of half the JT9
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symbol length.
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||||
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||||
- As shown in screen shots earlier in this Guide, a *JT9* signal
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appears in the Cumulative spectrum as a nearly rectangular shape about
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16 Hz wide. Although there is no clearly visible “sync tone” like the
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one in *JT65*, by convention the nominal frequency of a *JT9* signal
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is nevertheless taken to be that of the lowest tone at the left edge
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of the spectrum.
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- At the end of a reception sequence, about 50 seconds into the UTC
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minute, received data samples are forwarded to the decoder. For
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operator convenience the decoder goes through its full procedure
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||||
twice:
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||||
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||||
* first over a narrow range around the selected Rx frequency
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||||
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||||
* Then in the full displayed frequency range (or in *JT9+JT65* mode, the
|
||||
displayed range above the blue *JT65 nnnn JT9* marker).
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||||
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||||
- Decoding of clean *JT9* signals in a white-noise background starts
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to fail around signal-to-noise ratio –25 dB and reached the 50% level
|
||||
at -26 dB
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||||
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||||
- Each decoding pass can be described as a sequence of discrete blocks.
|
7
doc/source/app-a-transmitting.txt
Normal file
7
doc/source/app-a-transmitting.txt
Normal file
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||||
// Status=review
|
||||
- Immediately before the start of a transmission {wsjtx} encodes a
|
||||
user’s message and computes the sequence of tones to be sent. The
|
||||
transmitted audio waveform is computed on-the-fly, with 16-bit integer
|
||||
samples at a 48000 Hz rate. The digital samples are converted to an
|
||||
analog waveform in the sound card or equivalent USB interface.
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||||
|
44
doc/source/app-a.txt
Normal file
44
doc/source/app-a.txt
Normal file
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||||
// Status=review
|
||||
//Needs work!
|
||||
.The JT9 Protocol and its Implementation
|
||||
|
||||
- *JT9* is a mode designed for making QSOs at HF, MF, and LF. The
|
||||
mode uses essentially the same 72-bit structured messages as *JT65*.
|
||||
|
||||
- Error control coding (ECC) uses a strong convolutional code with
|
||||
constraint length K=32, rate r=1/2, and a zero tail. WIth 72-bit
|
||||
user messages, this leads to an encoded message length of
|
||||
(72+31) × 2 = 206 bits.
|
||||
|
||||
- Modulation is 9-FSK: 8 tone frequencies for data, and one for
|
||||
synchronization. In a given transmission sixteen tone intervals
|
||||
(those numbered 1, 2, 5, 10, 16, 23, 33, 35, 51, 52, 55, 60, 66, 73,
|
||||
83, and 85 in the sequence) are devoted to synchronization. Thus, a
|
||||
transmission requires a total of (206 / 3) + 16 = 85 (rounded up) tone
|
||||
intervals.
|
||||
|
||||
- Symbol lengths are chosen so that nsps, the number of samples
|
||||
per symbol (at 12000 samples per second) is a number with no prime
|
||||
factor greater than 7. This choice makes for efficient FFTs. Tone
|
||||
spacing of the 9-FSK modulation is:
|
||||
|
||||
-----
|
||||
df = 1 / tsym = 12000 / nsps, equal to the keying rate
|
||||
-----
|
||||
|
||||
- Symbol durations are approximately (TRperiod - 8) / 85, where
|
||||
TRperiod is the T/R sequence length in seconds.
|
||||
|
||||
|
||||
- The total occupied bandwidth is 9 × df. The generated signal has
|
||||
continuous phase and constant amplitude, so there are no key
|
||||
clicks. For experimental purposes, submodes of *JT9* were defined with
|
||||
transmission lengths greater than one minute.
|
||||
|
||||
- Parameters of all submodes are summarized in the following table,
|
||||
along with approximate decoding thresholds measured by simulation on
|
||||
an additive white Gaussian noise (AWGN) channel. Numbers following
|
||||
*``JT9-''* in the submode names specify the T/R sequence length in
|
||||
minutes. When not otherwise specified in this Guide, *JT9* implies
|
||||
submode *JT9-1*, the only submode implemented in current versions of
|
||||
{wsjtx}.
|
47
doc/source/app-b-installed-files.txt
Normal file
47
doc/source/app-b-installed-files.txt
Normal file
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||||
// Status=review
|
||||
.Files Present After Installation
|
||||
|
||||
[width="60%",cols="2,60",options="header",valign="middle"]
|
||||
|========
|
||||
|File Name|Description
|
||||
|afmhot.dat|Data for AFMHot palette
|
||||
|blue.dat|Data for Blue palette
|
||||
|CALL3.TXT|Callsign database
|
||||
|hamlib-alinco.dll|Hamlib, Alinco libraries
|
||||
|hamlib-amsat.dll|Hamlib, Asmat libraries
|
||||
|kamlib-dummy.dll|Hamlib, Dummy Kam libraries
|
||||
|hamlib-flexradio.dll|Hamlib, Flex Radio libraries
|
||||
|hamlib-icom.dll|Hamkib, Icom libraries
|
||||
|hamlib-jrc.dll|Hamlib, JRC libraries
|
||||
|hamlib-kachina.dll|Hamlib, Kachina libraries
|
||||
|hamlib-kenwood.dll|Hamlib, Kenwood libraries
|
||||
|hamlib-kit.dll|Hamlib, Kit libraries
|
||||
|hamlib-tapr.dll|Hamlib, Tapr libraries
|
||||
|hamlib-tentec.dll|Hamlib, TenTec libraries
|
||||
|hamlib-winradio.dll|Hamlib, WinRadio libraries
|
||||
|hamlib-yaesu.dll|Hamlib, Yaesu libraries
|
||||
|HRDInterface001.dll|Ham Radio Deluxe interface library
|
||||
|jt9.exe|Executable for JT9 decoder
|
||||
|jt9code.exe|Test program to illustrate JT9 encoding
|
||||
|kvasd.dat|Data for Koetter-Vardy decoder
|
||||
|kvasd.exe|Executable Koetter-Vardy decoder
|
||||
|libfftw3f-3.dll|Optimized FFT library
|
||||
|libgcc_s_dw2-1.dll|gcc runtime
|
||||
|libhamlib-2.dll|Hamlib, Base library
|
||||
|libstdc\+\+-6.dll|Standard C function library
|
||||
|libusb0.dll|USB interface functions
|
||||
|mingwm10.dll|MinGW library
|
||||
|mouse_commands.txt|Special mouse commands
|
||||
|palir-02.dll|Linrad functions
|
||||
|PSKReporter.dll|Library for PSK reporter
|
||||
|QtCore4.dll|QtCore libraries
|
||||
|QtGui4.dll|QtGui4 libraries
|
||||
|QtNetwork4.dll|QtNetwork4 libraries
|
||||
|save|Directory for saved .wav files
|
||||
|shortcuts.txt|Keyboard shortcuts
|
||||
|unins000.dat|Uninstall Data File
|
||||
|unins000.exe|Executable for uninstalling {wsjtx}
|
||||
|wsjt.ico|WSJT icon
|
||||
|wsjtx.exe|Executable for {wsjtx}
|
||||
|========
|
||||
|
18
doc/source/app-b-runtime-files.txt
Normal file
18
doc/source/app-b-runtime-files.txt
Normal file
@ -0,0 +1,18 @@
|
||||
// Status=review
|
||||
.After First Run
|
||||
|
||||
- You might be curious about additional files that appear in the WSJTX
|
||||
installation directory after using the program for a while. These
|
||||
include:
|
||||
|
||||
.Files Created After Running WSJT-X The First Time
|
||||
[width="60%",cols="2,60",options="header",valign="middle"]
|
||||
|========
|
||||
|File Name|Description
|
||||
|ALL.TXT|Log of all received and transmitted messages
|
||||
|decoded.txt|Decoded text from the most recent Rx interval
|
||||
|timer.out|Diagnostic information for decoder optimization
|
||||
|wsjtx.ini|Saved configuration parameters
|
||||
|wsjtx_log.adi|ADIF log
|
||||
|wsjtx_status.txt|Information sent to companion program JT-Alert
|
||||
|========
|
35
doc/source/app-c.txt
Normal file
35
doc/source/app-c.txt
Normal file
@ -0,0 +1,35 @@
|
||||
// Status=review
|
||||
.Rig Specific Configuration
|
||||
|
||||
- Some rigs work with DTR, RTS, Polling, CaT, PTT while others do
|
||||
not. The number of possible combinations is virtually endless.
|
||||
|
||||
- The intent of this Appendix is to provide configuration information
|
||||
for specific rigs model, e.g. Icom 756 Pro-III, Yaesu FT-1000MP,
|
||||
Flex-5000, etc. in order to make Installation & Configuration
|
||||
easier. This is a work-in-progress. Some rigs may never be covered,
|
||||
but we should try to cover many as possible.
|
||||
|
||||
- The table below will link brands (Yaesu, Icom, Kenwood, etc) to
|
||||
specific models within each brand. If a model is not available, please
|
||||
consider drafting a configuration file (a simple text file), using the
|
||||
template provided, and submit it to the development team for inclusion
|
||||
to future documentation releases.
|
||||
|
||||
:yaesu: link:yaesu.html[Yaesu]
|
||||
:rigtemplate: link:rigtemplate.html[Template]
|
||||
|
||||
|
||||
NOTE: If your manufacturer is not listed, it means we do not have
|
||||
configuration files for any of the models for that particular
|
||||
manufacturer. Please consider using the Rig Template and submit to
|
||||
the development team at: {devemail}
|
||||
|
||||
.Select Manufacturer
|
||||
[align="center",valign="middle",halign="center"]
|
||||
|========
|
||||
|ADAT|AOR|Alinco|Drake|Electro Craft
|
||||
|Kenwood|Icom|SoftRock|Ten-Tec|{YAESU}
|
||||
|{rigtemplate}||||
|
||||
|========
|
||||
|
6
doc/source/configuration-band-settings.txt
Normal file
6
doc/source/configuration-band-settings.txt
Normal file
@ -0,0 +1,6 @@
|
||||
// Status=review
|
||||
|
||||
The Band Settings tab allows you to set the default frequency and a
|
||||
brief description of your antenna for each amateur band. The antenna
|
||||
information will be included with reception reports, if they have been
|
||||
enabled.
|
20
doc/source/configuration-main-window.txt
Normal file
20
doc/source/configuration-main-window.txt
Normal file
@ -0,0 +1,20 @@
|
||||
// Status=review
|
||||
To set the proper level of audio drive from {wsjtx} to your radio:
|
||||
|
||||
* Click the Tune button on the main screen.{wsjtx} should set the
|
||||
radio into transmit mode and generate a steady audio tone at the
|
||||
amplitude that will be used for a generated JT9 signal.
|
||||
|
||||
* Listen to the generated audio tone using your radio’s Monitor
|
||||
facility. The tone should be perfectly smooth, with no clicks or
|
||||
glitches.
|
||||
|
||||
* Open the computer’s audio mixer controls for output (“playback”)
|
||||
devices and adjust the volume slider downward from 100% until the RF
|
||||
output from your transmitter falls by around ten percent. This will
|
||||
be a good level for audio drive.
|
||||
|
||||
* Alternatively, you can make the same adjustment using the digital
|
||||
slider labeled *Pwr* at the right edge of the main window.
|
||||
|
||||
* Toggle the Tune button once more to stop your test transmission.
|
68
doc/source/configuration-station.txt
Normal file
68
doc/source/configuration-station.txt
Normal file
@ -0,0 +1,68 @@
|
||||
// Status=review
|
||||
Start {wsjtx} and Select Configuration from its Setup menu. Enter
|
||||
the following information:
|
||||
|
||||
- *Call Sign*: <Your Call Sign>
|
||||
- *Grid*: <Your Maidenhead Locator>
|
||||
- *PTT method*: choose from RTS, DTR, CAT, VOX, or None.
|
||||
- *PTT port*: if you will use RTS or DTR, choose a serial port,
|
||||
- *PSK Reporter*: check to enable sending reception reports to the
|
||||
{pskreporter} mapping facility.
|
||||
- *CW ID*: Check to send your callsign in CW after sending 73.
|
||||
- *CW Interval*: set the time interval for sending your CW identification.
|
||||
Default is 0 (never).
|
||||
|
||||
{wsjtx} does not implement full transceiver control, but it provides a
|
||||
way to ensure that {wsjtx} can read and set the radio’s dial
|
||||
frequency. If you want this capability:
|
||||
|
||||
- Check the box Enable CAT
|
||||
- Select your radio type from a drop-down list
|
||||
- Select a CAT port (not the same port selected for PTT control)
|
||||
- Set port parameters for your radio
|
||||
- If you use {dxlcommander} by DX Lab or {hrd} to control your
|
||||
transceiver, you can configure {wsjtx} to communicate with the radio
|
||||
through that program. Entries for these programs appear at the end of
|
||||
the drop-down list of supported radios.
|
||||
|
||||
[[X11]]
|
||||
image::images/r3563-config-screen-80.png[align="center",alt="Configuration Screen"]
|
||||
|
||||
For now you should leave *Split Tx* unchecked. If you are using CAT
|
||||
control, most radios will allow you to set *PTT method* = CAT. Some
|
||||
radios support two types of PTT assertion via CAT control: one takes
|
||||
audio input from the Mic connector, the other from a rear-panel Data
|
||||
connector. The simplest CAT configuration sets *Polling interval* = 0
|
||||
(no polling the radio for dial frequency). {wsjtx} will then be able
|
||||
to set the radio’s frequency, but the program will be unaware of
|
||||
subsequent changes made using the radio’s panel controls.
|
||||
|
||||
TIP: If you need an additional item in the list of devices for the
|
||||
CAT port, edit the configuration file wsjtx.ini and add your
|
||||
requirement as CATdriver=yourdriver (for example,
|
||||
CATdriver=/dev/ttyUSBserial ) in the group of entries marked
|
||||
[Common].
|
||||
|
||||
With most radios you can set *Polling interval* to a small number (say
|
||||
1 – 3 s) and the program will follow any frequency changes made at the
|
||||
radio. Note that you may not be able simultaneously to control your
|
||||
radio from {wsjtx} and from another program. Some experimentation may
|
||||
be required, and you may need to refer to the documentation for your
|
||||
rig-control software and your radio. It is best to have the radio and
|
||||
any interface equipment turned on and connected before starting
|
||||
{wsjtx}, and to exit the program before turning your equipment off.
|
||||
|
||||
- Click the *Test CAT Control* and Test PTT buttons to see that you
|
||||
have established the desired control of station functions. _ Select
|
||||
the devices you will use for Audio input and output.
|
||||
- Click OK to dismiss the Configuration window.
|
||||
|
||||
- {wsjtx} expects your sound card to do its raw sampling at 48000 Hz.
|
||||
To ensure that this will be so when running under recent versions of
|
||||
Windows, open the system's Sound control panel and select in turn the
|
||||
“Recording” and “Playback” options. Click on Properties, then
|
||||
Advanced, and select “16 bit, 48000 Hz (DVD Quality).”
|
||||
|
||||
CAUTION: If you are using a sound card that is also the default device
|
||||
for Windows sounds, be sure to turn off all such sounds so they are
|
||||
not transmitted over the air.
|
7
doc/source/configuration-txmacros.txt
Normal file
7
doc/source/configuration-txmacros.txt
Normal file
@ -0,0 +1,7 @@
|
||||
// Status=review
|
||||
TX Macros are an aid for sending commonly used free-text messages.
|
||||
To enable a pull-down selection, add your custom messages to the entry
|
||||
fields provided. Remember that the maximum free-text message length
|
||||
is 13 characters. You access your macros by selecting Tx message #5
|
||||
(or the Free MSG Radio Button) on the main window, then right-click to
|
||||
select the message to be sent.
|
30
doc/source/controls-functions-center.txt
Normal file
30
doc/source/controls-functions-center.txt
Normal file
@ -0,0 +1,30 @@
|
||||
// Status=review
|
||||
At the center of the main window are a number of controls you will
|
||||
use when making QSOs:
|
||||
|
||||
//.Misc Controls Center
|
||||
image::images/misc-controls-center.png[align="left",alt="Misc Controls Center"]
|
||||
|
||||
* Select *Tx even* to transmit in even-numbered UTC minutes. Uncheck
|
||||
this box to transmit in the odd intervals. This selection is made
|
||||
automatically when you double-click on a decoded text line as
|
||||
described in the Basic Operating Tutorial, Sections 5.1 thru 5.8.
|
||||
|
||||
* Your audio Tx and Rx frequencies are displayed and can be adjusted
|
||||
with spinner controls. These settings are usually handled
|
||||
automatically by the double-click procedure.
|
||||
|
||||
* The on-the-air frequency of your lowest JT9 or JT65 tone is the sum
|
||||
of dial and audio frequencies. You can force Tx frequency to the
|
||||
current Rx frequency by clicking the *Tx=Rx* button, and vice-versa
|
||||
for *Rx=Tx*. Check the box *Lock Tx=Rx* to make the frequencies
|
||||
always track one another.
|
||||
|
||||
* The *Report* control lets you change a signal report that has been
|
||||
inserted automatically. Most reports will fall in the range –26 to
|
||||
\+10 dB. Remember that JT65 reports cannot be greater than -1 dB.
|
||||
|
||||
IMPORTANT: When signals are close to or above 0 dB, you and your QSO
|
||||
partner should probably reduce power. JT65 and JT9 are supposed to be
|
||||
weak signal modes!
|
||||
|
36
doc/source/controls-functions-kb-shortcuts.txt
Normal file
36
doc/source/controls-functions-kb-shortcuts.txt
Normal file
@ -0,0 +1,36 @@
|
||||
// Status=review
|
||||
The following keyboard shortcuts give quick access to some
|
||||
frequently used program functions.
|
||||
|
||||
//.Keyboard Shortcuts
|
||||
[width="70%",cols="2,30",options="header",align="center"]
|
||||
|=====
|
||||
|Key|Action Performed
|
||||
|F1|Display online User's Guide in browser
|
||||
|Ctrl+F1|About WSJT-X
|
||||
|F2|Open the Setup >> Configuration window
|
||||
|F3|Display keyboard shortcuts
|
||||
|F4|Clear Dx Call and Dx Grid entries
|
||||
|Alt+F4|Exit program
|
||||
|F5|Display special mouse commands
|
||||
|F6|Open next file in directory
|
||||
|Shift+F6|Decode all remaining files in directory
|
||||
|F11|Move Rx frequency down 1 Hz
|
||||
|Ctrl+F11|Move Rx and Tx frequencies down 1 Hz
|
||||
|F12|Move Rx frequency up 1 Hz
|
||||
|Ctrl+F12|Move Rx and Tx frequencies up 1 Hz
|
||||
|Alt+1-6|Set next transmission to this number on Tab 1
|
||||
|Alt+D|Decode again at Rx frequency
|
||||
|Shift+D|Full decode (both windows)
|
||||
|Alt+E|Erase
|
||||
|Ctrl+F|Edit the free text message box
|
||||
|Alt+G|Generate standard messages
|
||||
|Alt+H|Halt Tx
|
||||
|Ctrl+L|Lookup callsign in database, generate standard messages
|
||||
|Alt M|Monitor
|
||||
|Alt+N|Enable Tx
|
||||
|Alt+Q|Log QSO
|
||||
|Alt+S|Stop monitoring
|
||||
|Alt+T|Tune
|
||||
|Alt+V|Save the most recently completed `*.wav'' file
|
||||
|=====
|
25
doc/source/controls-functions-left.txt
Normal file
25
doc/source/controls-functions-left.txt
Normal file
@ -0,0 +1,25 @@
|
||||
// Status=review
|
||||
|
||||
Controls related to: *date*, *time*, *frequency*, *Rx Audio Level*,
|
||||
and the *Station Being Worked* are found at lower left of the main
|
||||
window:
|
||||
|
||||
//.Misc Controls Left
|
||||
image::images/misc-main-ui.png[align="center",alt="Mist Menu Items"]
|
||||
|
||||
* The drop-down *Band* selector at upper left lets you select the
|
||||
operating band and sets dial frequency to a default value taken from
|
||||
the *Default Frequencies* tab on the *Setup | Configuration* screen.
|
||||
|
||||
* If you are using CAT control, a small colored square appears in
|
||||
green if the CAT control is two-way between {wsjtx} and your radio, or
|
||||
orange if the control is only from program to radio. You can request
|
||||
a one-time interrogation of the radio’s dial frequency by clicking on
|
||||
the orange square. The square becomes red if you have requested CAT
|
||||
control but communication with the radio has been lost. If the
|
||||
*Dx Grid* is known, the great-circle azimuth and distance are given.
|
||||
|
||||
* The program can keep a database of call-signs and locators for
|
||||
future reference. Click *Add* to insert the present call and locator in
|
||||
the database; click *Lookup* to retrieve the locator for a previously
|
||||
stored call.
|
44
doc/source/controls-functions-main-window.txt
Normal file
44
doc/source/controls-functions-main-window.txt
Normal file
@ -0,0 +1,44 @@
|
||||
// Status=review
|
||||
The following buttons appear just under the decoded text windows on
|
||||
the main screen:
|
||||
|
||||
//.Main UI Controls
|
||||
image::images/main-ui-controls.png[align="left",alt="Main UI Controls"]
|
||||
|
||||
* *Log QSO* pops up a confirmation screen pre-filled with known
|
||||
information about a QSO you have nearly completed. You can edit or
|
||||
add to this information before clicking OK to log the QSO. If you
|
||||
select ``Prompt me to log QSO'' on the Setup menu, the program will
|
||||
pop up the confirmation screen automatically when you send a ``73'' or
|
||||
free-text message.
|
||||
|
||||
//.Log QSO Window
|
||||
image::images/log-qso.png[align="center",alt="Log QSO"]
|
||||
|
||||
* *Stop* will stop normal data acquisition in case you want to open
|
||||
and explore previously recorded audio files.
|
||||
|
||||
* *Monitor* restarts normal receive operation. This button is
|
||||
highlighted in green when the program is receiving.
|
||||
|
||||
* *Decode* tells the program to repeat the decoding procedure at the
|
||||
Rx frequency (green marker on waterfall), using the most recently
|
||||
completed sequence of Rx data.
|
||||
|
||||
* *Erase* clears the right (Rx frequency) window. Double-clicking
|
||||
Erase clears both text windows.
|
||||
|
||||
* *Tune* may be used to switch into Tx mode and generate an
|
||||
unmodulated carrier at the specified Tx frequency (red marker on
|
||||
waterfall). This process may be seful for adjusting an antenna tuner,
|
||||
for example, toggle the button a second time to terminate the Tune
|
||||
process.
|
||||
|
||||
* *Enable Tx* puts the program into automatic Rx/Tx sequencing mode
|
||||
and highlights the button in red. A transmission will start at the
|
||||
beginning of the selected (odd or even) sequence, or immediately if
|
||||
appropriate.
|
||||
|
||||
* *Halt Tx* terminates a transmission in progress and disables
|
||||
automatic Rx/Tx sequencing.
|
||||
|
38
doc/source/controls-functions-menus.txt
Normal file
38
doc/source/controls-functions-menus.txt
Normal file
@ -0,0 +1,38 @@
|
||||
// Status=review
|
||||
|
||||
Program menus offer many options for configuration and operation.
|
||||
You should explore them and test the resulting program actions.
|
||||
|
||||
[[X771]]
|
||||
==== File menu
|
||||
//.File Menu
|
||||
image::images/file-menu.png[align="left",alt="File Menu"]
|
||||
[[X772]]
|
||||
==== Setup Menu
|
||||
//.Setup Menu
|
||||
image::images/setup-menu.png[align="left",alt="Setup Menu"]
|
||||
|
||||
[[X773]]
|
||||
==== View Menu
|
||||
//.View Menu
|
||||
image::images/view-menu.png[align="left",alt="View Menu"]
|
||||
|
||||
[[X774]]
|
||||
==== Mode Menu
|
||||
//.Mode Menu
|
||||
image::images/mode-menu.png[align="left",alt="Mode Menu"]
|
||||
|
||||
[[X775]]
|
||||
==== Decode Menu
|
||||
//.Decode Menu
|
||||
image::images/decode-menu.png[align="left",alt="Decode Menu"]
|
||||
|
||||
[[X776]]
|
||||
==== Save Menu
|
||||
//.Save Menu
|
||||
image::images/save-menu.png[align="left",alt="Save Menu"]
|
||||
|
||||
[[X777]]
|
||||
==== Help Menu
|
||||
//.Help Menu
|
||||
image::images/help-menu.png[align="left",alt="Help Menu"]
|
45
doc/source/controls-functions-messages.txt
Normal file
45
doc/source/controls-functions-messages.txt
Normal file
@ -0,0 +1,45 @@
|
||||
// Status=review
|
||||
Two configurations of controls are provided for generating and
|
||||
selecting Tx messages.
|
||||
|
||||
Traditional controls (carried over from program WSJT) appear on *Tab
|
||||
1* and provide six fields for message entry. Pre-formatted messages
|
||||
for the standard minimal QSO are generated when you click *Generate
|
||||
Std Msgs* or when you double-click on an appropriate line of decoded
|
||||
text.
|
||||
|
||||
//.Traditional Message Menu
|
||||
image::images/traditional-msg-box.png[align="center",alt="Traditional Message Menu"]
|
||||
|
||||
* Select the next message to be transmitted (at the start of your next
|
||||
Tx sequence) by clicking on the circle under *Next*.
|
||||
|
||||
* To change to a specified Tx message immediately, click on a
|
||||
rectangular button (e.g., Tx 3) under the *Now* label. Changing Tx
|
||||
messages after a transmission has started reduces the chance of a
|
||||
correct decode, but in the first 10 s of a Tx period it will probably
|
||||
succeed.
|
||||
|
||||
* Right-clicking on the entry field for message #5 pops up a list of
|
||||
free-text messages entered on the *Setup | Configuration | Tx Macros*
|
||||
dialog window. You can select any of these pre-stored messages with
|
||||
the left mouse button.
|
||||
|
||||
*Tab 2* of the Message Control Panel looks like this:
|
||||
|
||||
//.New Message Menu
|
||||
image::images/new-msg-box.png[align="center",alt="New Message Menu"]
|
||||
|
||||
With this setup you will normally follow a top-to-bottom sequence of
|
||||
transmissions from the left column if you are calling CQ, or the right
|
||||
column if you are answering a CQ. Clicking a button puts the
|
||||
appropriate message in the *Gen Msg* box. If you are already
|
||||
transmitting, it changes the Tx message immediately. You can enter
|
||||
anything (up to 13 characters) in the *Free Msg* box. Right-clicking on
|
||||
this entry field pops up your previously defined list of *Tx Macros*.
|
||||
|
||||
IMPORTANT: WIth either of the message-control tabs, the actual message
|
||||
being transmitted always appears highlighted in yellow in the first
|
||||
box of the status bar, at bottom left of the main screen.
|
||||
|
||||
|
22
doc/source/controls-functions-special-mouse-cmds.txt
Normal file
22
doc/source/controls-functions-special-mouse-cmds.txt
Normal file
@ -0,0 +1,22 @@
|
||||
// Status=review
|
||||
The following special mouse commands are available:
|
||||
|
||||
//.Special Mouse Commands
|
||||
[width="80%",cols="13,50",options="header",align="center"]
|
||||
|=====
|
||||
|Mouse-Click on|Action Performed
|
||||
|Waterfall|*Click*: set Rx frequency +
|
||||
*Double-click*: set Rx frequency and decode there +
|
||||
*Ctrl-click*: set Rx and Tx frequencies +
|
||||
*Ctrl-double-click*: set Rx and Tx frequencies and decode there
|
||||
|Decoded text|*Double-click*: copy second callsign to Dx Call,
|
||||
locator to Dx Grid; change Rx and Tx frequencies to decoded
|
||||
signal's frequency; generate standard messages. If first
|
||||
callsign is your own, change Tx frequency only it Ctrl is
|
||||
held down when double-clicking.
|
||||
|*Erase* Button|*Click*: erase QSO window +
|
||||
*Double-click*: erase QSO and Band Activity windows
|
||||
|*Tx5* or +
|
||||
*Free Msg* box|*Right-click*: display the Tx macros +
|
||||
*Left-click*: select one of the Tx macros
|
||||
|=====
|
12
doc/source/controls-functions-status-bar.txt
Normal file
12
doc/source/controls-functions-status-bar.txt
Normal file
@ -0,0 +1,12 @@
|
||||
// Status=review
|
||||
|
||||
A Status Bar at the bottom edge of the main window provides
|
||||
information about operating conditions.
|
||||
|
||||
//.Status Bar
|
||||
image::images/status-bar-a.png[align="left",alt="New Message Menu"]
|
||||
|
||||
Reading from left to right, these labels provide information about the
|
||||
current operating state (Receiving, Transmitting, Tune, or an opened
|
||||
file name), operating mode, and content of the most recent transmitted
|
||||
message.
|
32
doc/source/controls-functions-wide-graph.txt
Normal file
32
doc/source/controls-functions-wide-graph.txt
Normal file
@ -0,0 +1,32 @@
|
||||
// Status=review
|
||||
The following controls appear at the bottom of the Wide Graph window:
|
||||
|
||||
image::images/wide-graph-controls.png[align="left",alt="Wide Graph Controls"]
|
||||
|
||||
* *FFT Bins/Pixel* controls the displayed frequency resolution. Set
|
||||
to 1 for the highest possible resolution, or to higher values to
|
||||
compress the spectral display. Normal operation with a convenient
|
||||
window size works well at 2 to 8 bins per pixel.
|
||||
|
||||
* *N Avg* is the number of successive FFTs to be averaged before
|
||||
updating the spectral display. Values around 5 are suitable for
|
||||
normal JT9 and JT65 operation.
|
||||
|
||||
* *Gain* and *Zero* control the scaling and reference level for
|
||||
waterfall colors. Values around 0 for both parameters are usually
|
||||
about right, depending on the input signal level and your own
|
||||
preferences.
|
||||
|
||||
* *JT65 nnnn JT9* sets the dividing point for wide-band decoding of
|
||||
JT65 and JT9 signals in JT9+JT65 mode. The decoder looks for JT65
|
||||
signals below nnnn Hz and JT9 signals above that frequency.
|
||||
|
||||
* *Current / Cumulative* controls the graphical display in the bottom
|
||||
one-third of the Wide Graph window. ** Current is the average
|
||||
spectrum over the most recent N Avg FFT calculations. ** Cumulative
|
||||
is the average spectrum since the start of the current Rx sequence.
|
||||
|
||||
* With the exception of *JT65 nnnn JT9*, controls on the Wide Graph
|
||||
window affect only the graphical displays — they have no effect
|
||||
on the decoding process.
|
||||
|
5
doc/source/controls-functions.txt
Normal file
5
doc/source/controls-functions.txt
Normal file
@ -0,0 +1,5 @@
|
||||
// Status=review
|
||||
|
||||
This section describes the various menus, screens, controls, and
|
||||
functions for both the Main Window and Wide Graph. Small differences
|
||||
may exist between displayed images and that of the application.
|
51
doc/source/example1-decoding-controls.txt
Normal file
51
doc/source/example1-decoding-controls.txt
Normal file
@ -0,0 +1,51 @@
|
||||
// Status=review
|
||||
- To gain some feeling for the controls you will use when making QSOs, try
|
||||
clicking with the mouse on the decoded text lines and on the waterfall spectral
|
||||
display. You should be able to confirm the following behavior:
|
||||
|
||||
- Double-click on either of the decoded lines highlighted in green. This action
|
||||
should produce the following:
|
||||
|
||||
** Copies call-sign and locater of a station calling CQ to the “DX Call”
|
||||
and “DX grid” entry fields.
|
||||
|
||||
** Generates suitable messages for a minimal QSO and checks or clears the Tx
|
||||
even box so that you will transmit in the proper (odd or even) minutes.
|
||||
|
||||
** Rx and Tx frequency markers will be moved to the CQ-ing station’s frequency,
|
||||
and the Gen Msg (“generated message”) radio button at bottom right of the main
|
||||
window will be selected.
|
||||
|
||||
** If you had checked “Double-click on call sets Tx Enable” on the Setup menu,
|
||||
Enable Tx would also be activated, and you would start to transmit automatically,
|
||||
at the appropriate time.
|
||||
|
||||
- Double-click on the decoded line with the message “K1JT N5KDV EM41”,
|
||||
highlighted in [red]*RED*.
|
||||
|
||||
- Results will be similar to (a), except the Tx frequency ([red]*RED* marker) is
|
||||
not moved. Such messages are usually in response to your own CQ, or from a
|
||||
tail-ender, and you probably want your Tx frequency to stay where it was.
|
||||
|
||||
- By holding down the Ctrl key when double-clicking on the decoded line
|
||||
(or checking Lock Tx=Rx) you can cause both Tx and Rx frequencies to be moved.
|
||||
|
||||
- Double-click on the message from KF4RWA in either window. He is
|
||||
sending “73” to K1JT, signifying that the QSO is over. Most likely you
|
||||
want to send 73 to him, so the message “KF4RWA K1JT 73” is automatically
|
||||
generated and selected for your next transmission. (Alternatively, you might
|
||||
choose to send a free text message or to call CQ again.)
|
||||
|
||||
- Clicking on the waterfall moves the Rx frequency ([green]*GREEN* marker) to the
|
||||
selected frequency.
|
||||
|
||||
- Ctrl-click on waterfall moves both Rx and Tx frequencies.
|
||||
|
||||
- Double-click on the waterfall moves the Rx frequency and causes a
|
||||
narrow-band decode there at the new QSO frequency. Decoded text appears in the
|
||||
right window only. Ctrl-double-click moves both Rx and Tx frequencies and
|
||||
decodes at the new frequency.
|
||||
|
||||
- Clicking Erase clears the right window. Double-click on Erase to clear both
|
||||
text windows.
|
||||
|
25
doc/source/example1-decoding-overview.txt
Normal file
25
doc/source/example1-decoding-overview.txt
Normal file
@ -0,0 +1,25 @@
|
||||
// Status=review
|
||||
- Notice the [green]*GREEN* and [red]*RED* markers on the waterfall
|
||||
frequency scale. Decoding takes place at the end of a receive
|
||||
sequence and is organized in two stages. The first decodes take place
|
||||
at the selected Rx frequency, indicated by the green marker. Results
|
||||
appear in both the left (“Band Activity”) and right (“Rx Frequency”)
|
||||
text windows on the main screen. The decoder then finds and decodes
|
||||
all signals in the selected mode(s) and the displayed frequency range.
|
||||
The red marker indicates your Tx frequency.
|
||||
|
||||
.Signal Presence
|
||||
|
||||
NOTE: At least eight JT9 signals are present in the example file; all
|
||||
but one of them are decodable. When this file was recorded KF4RWA was
|
||||
finishing a QSO with K1JT. Since the green marker was placed at his
|
||||
audio frequency, 1224 Hz, his message “K1JT KF4RWA 73” appears in both
|
||||
decoded text windows. The “Band Activity” window shows this message
|
||||
as well as all the other decodes at nearby frequencies. The CQ lines
|
||||
are highlighted in [green]*GREEN*, and lines containing “My Call”, in
|
||||
this case K1JT, are highlighted in [red]*RED*.
|
||||
|
||||
- For this step and the next, you may want to pretend you are K1JT by
|
||||
entering that call temporarily as “My Call” on the <<X11,Configuration
|
||||
Screen>>. Your results should then be identical to those shown in the
|
||||
<<X12,figure above>>.
|
35
doc/source/example2-check-decodes.txt
Normal file
35
doc/source/example2-check-decodes.txt
Normal file
@ -0,0 +1,35 @@
|
||||
// Status=review
|
||||
- Double-click on the waterfall near 815 Hz: a signal originating
|
||||
from W7VP will be decoded and appear in the Rx Frequency Box:
|
||||
|
||||
.W7VP Decode
|
||||
[width="70%",cols="3,^3,^3,^4,^4,30",options="header"]
|
||||
|=================================
|
||||
|UTC|db|dt|Freq|Mode|Message
|
||||
|2343|-7|0.3|815|#|KK4DSD W7VP -16
|
||||
|=================================
|
||||
|
||||
- Double-click on the waterfall at 3196 Hz and the program will decode a JT9
|
||||
message from IZ0MIT:
|
||||
|
||||
.IZ0MIT Decode
|
||||
[width="70%",cols="3,^3,^3,^4,^4,30",options="header"]
|
||||
|=====================================
|
||||
|UTC|db|dt|Freq|Mode|Message
|
||||
|2343|-7|0.3|3196|@|WB8QPG IZ0MIT -11
|
||||
|=====================================
|
||||
|
||||
NOTE: Notice that when a signal is decoded in this way the Tx mode
|
||||
automatically switches to that of the decoded signal. The Rx and Tx
|
||||
frequency markers on the waterfall scale resize themselves
|
||||
accordingly.
|
||||
|
||||
- Scroll back in the Band Activity window (if necessary) and
|
||||
double-click on the message CQ DL7ACA JO40. The program will set Tx
|
||||
mode to JT65 and Tx and Rx frequencies to that of DL7ACA, 975 Hz. If
|
||||
you had checked *Double-click on call sets Tx Enable* on the Setup menu,
|
||||
the program would set up to start a QSO with DL7ACA.
|
||||
|
||||
- Double-click on the decoded JT65 message CQ TA4A KM37. The program
|
||||
will set Tx mode to JT9 and the Rx and Tx frequencies to 3567 Hz.
|
||||
You’re now configured properly for a JT9 QSO with TA4A.
|
5
doc/source/example2-main-window.txt
Normal file
5
doc/source/example2-main-window.txt
Normal file
@ -0,0 +1,5 @@
|
||||
// Status=review
|
||||
- Select JT9+JT65 on the Mode menu
|
||||
- Toggle the Tx mode button to read Tx JT65, and set the Tx and Rx frequencies
|
||||
to 1718 Hz.
|
||||
- Double-click on Erase to clear both text windows
|
20
doc/source/example2-wave-1742.txt
Normal file
20
doc/source/example2-wave-1742.txt
Normal file
@ -0,0 +1,20 @@
|
||||
// Status=review
|
||||
.Navigate and Open Wave File:
|
||||
|
||||
*****
|
||||
|
||||
Select File | Open and navigate to ...\save\samples\130418_1742.wav.
|
||||
|
||||
*****
|
||||
|
||||
- You can immediately see that these data were recorded with a much
|
||||
narrower Rx bandwidth, roughly 200 to 2600 Hz. If you have no Rx
|
||||
filter wider than about 2.7 kHz, you will be using data similar to
|
||||
this sample. For best viewing of such data adjust Bins/Pixel and the
|
||||
width of the Wide Graph so that only the active part of the spectrum
|
||||
shows, say 0 to 2600 Hz. (Re-open the example file after any change
|
||||
of Bins/Pixel or Wide Graph width, to refresh the waterfall.) The
|
||||
signals in this file are all JT9 signals. To decode them in JT9+JT65
|
||||
mode you’ll need to move the JT65 nnnn JT9 delimiter down to 1000 Hz
|
||||
or less.
|
||||
|
29
doc/source/example2-wave-2343.txt
Normal file
29
doc/source/example2-wave-2343.txt
Normal file
@ -0,0 +1,29 @@
|
||||
// Status=review
|
||||
.Navigate and Open Wave File:
|
||||
|
||||
*****
|
||||
|
||||
Select File | Open and navigate to ...\save\samples\130610_2343.wav.
|
||||
|
||||
*****
|
||||
|
||||
* The waterfall and main window should look like the figure below.
|
||||
This sample file contains 17 decodable signals — nine in JT65 mode
|
||||
(flagged with the character # in the decoded text windows), and eight
|
||||
in JT9 mode (flagged with @). Since the Tx mode was set to Tx JT65,
|
||||
signals in that mode were decoded first. If you had selected Tx JT9,
|
||||
JT9 signals would have been decoded first.
|
||||
|
||||
.130610_2343.wav Decode
|
||||
[[X544]]
|
||||
image::images/130610_2343-wav-80.png[align="left",alt="Wide Graph Decode 130610_2343"]
|
||||
|
||||
NOTE: Notice the [blue]*BLUE* marker on the waterfall scale, by
|
||||
default set at 2500 Hz. Its position is set by the spinner control
|
||||
JT65 nnnn JT9, where nnnn is a frequency in Hz. In JT9+JT65 mode the
|
||||
program will decode JT65 signals below this frequency and JT9 signals
|
||||
above it.
|
||||
|
||||
- Confirm that mouse-click behavior is similar to that described in
|
||||
the single-mode instructions at <<X13,Decoding Controls>>. The program
|
||||
automatically determines the mode of each JT9 or JT65 signal.
|
8
doc/source/example2-wide-graph-settings.txt
Normal file
8
doc/source/example2-wide-graph-settings.txt
Normal file
@ -0,0 +1,8 @@
|
||||
// Status=review
|
||||
- Bins/Pixel = 7
|
||||
- Zero = -3
|
||||
|
||||
[NOTE]
|
||||
If necessary, adjust the width of the Wide Graph Window so that the upper
|
||||
frequency limit is 4000 Hz.
|
||||
|
12
doc/source/font-sizes.txt
Normal file
12
doc/source/font-sizes.txt
Normal file
@ -0,0 +1,12 @@
|
||||
// Status=review
|
||||
- User control of font sizes can be effected by using a text editor
|
||||
(Windows Notepad or similar) to create a one-line file named fonts.txt
|
||||
in the wsjtx directory. A single line of text should contain four
|
||||
numbers separated by spaces. The first two control the font size (in
|
||||
points) and weight (on a 0 – 100 scale) of most GUI labels. The last
|
||||
two numbers control size and weight of text in the Band Activity and
|
||||
Rx Frequency windows.
|
||||
|
||||
- The default is ``8 50 10 50''. If you need larger fonts and bold
|
||||
text in the decode windows, try ``10 50 12 100'' (without the quotes).
|
||||
|
25
doc/source/install-from-source.txt
Normal file
25
doc/source/install-from-source.txt
Normal file
@ -0,0 +1,25 @@
|
||||
// Status=review
|
||||
// Note to developers. The URL http://developer.berlios.de/projects/wsjt/. is
|
||||
// to a very old src version of WSJT 5.7 or so. WSJTX is not listed at all.
|
||||
// Also, all the Qt4 stuff is now obsolete, and needs to be updated.
|
||||
|
||||
{wsjtx} is an open-source program released under the GNU General
|
||||
Public License. Source code is available from the public repository
|
||||
at {devsvn}. To compile the program you will need to install the
|
||||
following packages:
|
||||
|
||||
- Subversion
|
||||
- Qt 5.x
|
||||
- g++
|
||||
- gfortran or g95
|
||||
- fftw3
|
||||
- hamlib
|
||||
- MinGW (Windows only)
|
||||
|
||||
The full source code for {wsjtx} can be downloaded with the command:
|
||||
|
||||
[source,bash]
|
||||
-----
|
||||
$ svn co svn://svn.berlios.de/wsjt/branches/wsjtx
|
||||
-----
|
||||
// Need further compiling Instructions
|
6
doc/source/install-mac.txt
Normal file
6
doc/source/install-mac.txt
Normal file
@ -0,0 +1,6 @@
|
||||
// Status=review
|
||||
|
||||
- Read installation instructions {osx-instructions}.
|
||||
- Download the required installation package
|
||||
* {osx-108}
|
||||
* {osx-109}
|
24
doc/source/install-ubuntu.txt
Normal file
24
doc/source/install-ubuntu.txt
Normal file
@ -0,0 +1,24 @@
|
||||
// Status=review
|
||||
- Installation packages for Ubuntu 12.04, 12.10, 13.04, 13.10 are
|
||||
available at {launchpadurl}
|
||||
|
||||
- If you have not before obtained packages from the Personal Package
|
||||
Archive (PPA) at the above link, execute the following instruction at
|
||||
the command prompt:
|
||||
|
||||
[source,bash]
|
||||
-----
|
||||
$ sudo add-apt-repository ppa:jnogatch/wsjtx
|
||||
-----
|
||||
Accept the PPA Key, then:
|
||||
|
||||
[source,bash]
|
||||
-----
|
||||
$ sudo apt-get update
|
||||
$ sudo apt-get install wsjtx
|
||||
-----
|
||||
|
||||
- Download the soft-decision Reed Solomon decoder {kvasd} and put it
|
||||
in the same directory as the executable binaries wsjtx and
|
||||
jt9. Normally (fter you have run the script /usr/bin/wsjtx at least
|
||||
once) this directory will be $HOME/.wsjtx.
|
15
doc/source/install-windows.txt
Normal file
15
doc/source/install-windows.txt
Normal file
@ -0,0 +1,15 @@
|
||||
// Status=review
|
||||
- Execute the downloaded file and follow its installation
|
||||
instructions.
|
||||
|
||||
- Install {wsjtx} into its own directory rather than the conventional
|
||||
C:\Program Files\WSJTX. The suggested default directory is C:\WSJTX.
|
||||
|
||||
- All files relating to {wsjtx} will be stored in your chosen
|
||||
installation directory and its subdirectories. You can uninstall
|
||||
{wsjtx} by removing the installation directory and its contents.
|
||||
|
||||
- The built-in Windows facility for time synchronization is usually
|
||||
not adequate. We recommend Meinberg NTP: see {ntpsetup} for
|
||||
downloading and installation instructions.
|
||||
|
38
doc/source/introduction.txt
Normal file
38
doc/source/introduction.txt
Normal file
@ -0,0 +1,38 @@
|
||||
// Status=review
|
||||
{wsjtx} is a computer program designed to facilitate basic amateur
|
||||
radio communication using very weak signals. The first four letters
|
||||
in the program name stand for “Weak Signal communication by K1JT”, and
|
||||
the “-X” suffix indicates that {wsjtx} started as an extended (and
|
||||
experimental) branch of program WSJT.
|
||||
|
||||
{wsjtx} offers two protocols or “modes,” JT9 and JT65. Both are
|
||||
designed for making reliable, confirmed QSOs under extreme weak-signal
|
||||
conditions. They use nearly identical message structure and source
|
||||
encoding. JT65 was designed for EME (“moon-bounce”) on the VHF/UHF
|
||||
bands and has also proved very effective for worldwide QRP
|
||||
communication at HF. JT9 is optimized for the LF, MF, and HF bands.
|
||||
It is about 2 dB more sensitive than JT65 while using less than 10% of
|
||||
the bandwidth. Both modes use one-minute timed sequences of
|
||||
alternating transmission and reception, so a minimal QSO takes four to
|
||||
six minutes — two or three transmissions by each station, one sending
|
||||
in odd UTC minutes and the other even. World-wide QSOs are possible
|
||||
with power levels of a few watts and compromise antennas.
|
||||
|
||||
Starting with version 1.1, {wsjtx} can display a bandpass as large as
|
||||
5 kHz and provide dual-mode reception of both JT65 and JT9 signals.
|
||||
If your receiver can be configured with at least 4 kHz bandwidth in
|
||||
USB mode, you can set your dial frequency to one of the standard JT65
|
||||
frequencies — for example, 14.076 MHz for 20 meters — and have the
|
||||
full JT65 and JT9 sub-bands displayed simultaneously on the waterfall.
|
||||
You can make QSOs in both modes using nothing more than mouse clicks.
|
||||
|
||||
Plans for future program development call for {wsjtx} and WSJT to
|
||||
merge together: {wsjtx} will gradually acquire the additional modes
|
||||
JT4, FSK441, and ISCAT that are now supported in WSJT. The entire
|
||||
WSJT-related effort is an open-source project. If you have
|
||||
programming or documentation skills or would like to contribute to the
|
||||
project in other ways, please make your interests known to the
|
||||
development team. The project’s source-code repository can be found
|
||||
at {devsvn}, and communication among the developers takes place on the
|
||||
email reflector {devmail}.
|
||||
|
41
doc/source/jt65-jt9-differences.txt
Normal file
41
doc/source/jt65-jt9-differences.txt
Normal file
@ -0,0 +1,41 @@
|
||||
// Status=review
|
||||
//This section needs work!
|
||||
- *JT65* is a mature mode described in the literature some years
|
||||
ago. Details of the *JT9* protocol are presented in <<X16,Appendix A>>
|
||||
of this Guide.
|
||||
|
||||
- To users already familiar with *JT65*, the most striking difference
|
||||
between the two modes is the much smaller occupied bandwidth of JT9:
|
||||
15.6 Hz, compared with 177.6 Hz for *JT65A*. Transmissions in the two
|
||||
modes are essentially the same length, and both modes use exactly 72
|
||||
bits to carry message information. At the user level the two modes
|
||||
support the same message structures.
|
||||
|
||||
- *JT65* signal reports are constrained to the range –1 to –30 dB —
|
||||
more than adequate for EME purposes, but not enough dynamic range for
|
||||
ideal use at HF and below.
|
||||
|
||||
- S/N values displayed by the *JT65* decoder are clamped at –1 dB,
|
||||
because that’s all the original protocol can handle; the S/N scale in
|
||||
present *JT65* decoders becomes increasingly nonlinear above –10 dB.
|
||||
|
||||
- By comparison, *JT9* allows for signal reports in the range –50 to
|
||||
\+49 dB. It manages this by co-opting a small amount of message space
|
||||
otherwise used for grid locator's within 1 degree of the south
|
||||
pole. The S/N scale of the present *JT9* decoder is reasonably linear,
|
||||
although it’s not intended as a precision measurement tool. With clean
|
||||
signals in a clean nose background, *JT65* achieves nearly 100%
|
||||
probability of correct decoding down to S/N = –22 dB and 50% at –24
|
||||
dB. *JT9* is about 2 dB better, achieving 50% decoding at about –26
|
||||
dB. Both modes produce extremely low false-decode rates.
|
||||
|
||||
- Early experience suggests that under most HF propagation conditions
|
||||
the two modes have comparable reliability, with perhaps a slight edge
|
||||
to *JT9*. The tone spacing of *JT9* is about two-thirds that of
|
||||
*JT65*, so in some disturbed ionospheric conditions in the higher
|
||||
portion of the HF spectrum, *JT65* may do better. *JT9* is an order of
|
||||
magnitude better in spectral efficiency. On a busy HF band, we often
|
||||
find the 2-kHz-wide *JT65* sub-band filled wall-to-wall with signals.
|
||||
Ten times as many JT9 signals could fit into the same space, without
|
||||
overlap.
|
||||
|
109
doc/source/make-qso.txt
Normal file
109
doc/source/make-qso.txt
Normal file
@ -0,0 +1,109 @@
|
||||
// Status=review
|
||||
=== Standard Exchange
|
||||
By longstanding tradition, a minimal valid QSO requires the exchange
|
||||
of callsigns, a signal report or some other information, and
|
||||
acknowledgments. {wsjtx} is designed to facilitate making such
|
||||
minimal QSOs using short, formatted messages. The process works best
|
||||
if you use these formats and follow standard operating practices. The
|
||||
recommended basic QSO goes something like this:
|
||||
|
||||
[width="90%",cols="3,^3,^3,^4,10",options="header"]
|
||||
|=======================================
|
||||
|UTC|To|From|Grid/Rpt|Comment
|
||||
|0001|CQ|K1ABC|FN42|~ K1ABC calls CQ
|
||||
|0002|K1ABC|G0XYZ|IO91|~ G0XYZ answers
|
||||
|0003|G0XYZ|K1ABC|–19|~ K1ABC sends report
|
||||
|0004|K1ABC|G0XYZ|R–22|~ G0XYZ sends acknowledgment and report
|
||||
|0005|G0XYZ|K1ABC|RRR|~ K1ABC sends acknowledgment
|
||||
|0006|K1ABC|G0XYZ|73|~ G0XYZ sends 73
|
||||
|=======================================
|
||||
|
||||
*Standard messages* consist of two callsigns (or CQ, QRZ, or DE and
|
||||
one callsign) followed by the transmitting station’s grid locator, a
|
||||
signal report, acknowledgement R plus a signal report, or the final
|
||||
acknowledgements “RRR” or “73”. Messages are compressed and encoded
|
||||
in a highly efficient and reliable way.
|
||||
|
||||
*Signal reports* are specified as signal-to-noise ratio (S/N) in dB,
|
||||
using a standard reference noise bandwidth 2500 Hz. JT65 reports must
|
||||
lie in the range –30 to –1 dB, while JT9 supports the extended range
|
||||
–50 to +49 dB. Thus, in example message #0003, K1ABC is telling G0XYZ
|
||||
that his signal is 19 dB below the noise power in bandwidth 2500 Hz.
|
||||
In message #0004, G0XYZ acknowledges receipt of that report and
|
||||
responds with a –22 dB signal report.
|
||||
|
||||
TIP: For operators with very good hearing, signals become audible
|
||||
around S/N = –15 dB and visible on the waterfall to –26 dB. The JT65
|
||||
decoder begins to fail around –24 dB, JT9 around –26 dB.
|
||||
|
||||
*Free Text Messages*: Users often add some friendly chit-chat as a
|
||||
final transmission, in place of the formatted ``73'' message.
|
||||
Free-format messages such as ``TNX JOE 73 GL'' or `5W VERT 73 GL'' are
|
||||
supported, up to a maximum of 13 characters (including spaces). It
|
||||
should be obvious that JT9 and JT65 are not suitable for extensive
|
||||
conversations or rag-chewing.
|
||||
|
||||
=== Compound Callsigns
|
||||
//This section needs work! Must describe and give examples for both
|
||||
//JT65v1 and JT65v2 formats.
|
||||
Compound call-signs such as PJ4/K1ABC or G0XYZ/P are handled in a slightly
|
||||
different way. The following formats are all valid:
|
||||
|
||||
.Valid Messages with Compound Callsigns
|
||||
|
||||
[width="40%",cols="2,2,2",options="header"]
|
||||
|=====================
|
||||
|Action|Callsign|Grid
|
||||
|CQ|pfx/callsign|grid
|
||||
|QRZ|pfx/callsign|grid
|
||||
|DE|pfx/callsign|grid
|
||||
|CQ|callsign/sfx|grid
|
||||
|QRZ|callsign/sfx|grid
|
||||
|DE|callsign/sfx|grid
|
||||
|=====================
|
||||
|
||||
- ``pfx'' is a 1-4 character prefix
|
||||
- ``callsign'' is a standard callsign
|
||||
- ``sfx'' is a 1-3 character suffix
|
||||
- ``grid'' is a 4-character Maidenhead locator
|
||||
|
||||
- A signal report of the form “±nn” or “R±nn”, or the acknowledgment
|
||||
or sign-off messages “RRR” or “73”. {wsjtx} generates messages in
|
||||
these forms automatically, as required.
|
||||
|
||||
- A QSO between two stations using compound call-signs might look like this:
|
||||
|
||||
CQ KP4/K1ABC FK68
|
||||
DE G0XYZ/P IO91
|
||||
G0XYZ K1ABC –19
|
||||
K1ABC G0XYZ R–22
|
||||
G0XYZ K1ABC RRR
|
||||
DE G0XYZ/P 73
|
||||
|
||||
////
|
||||
.Compound Exch Example
|
||||
[width="40%",cols="2,2,2",options="header"]
|
||||
|=====================
|
||||
|Action|Callsign|Grid
|
||||
|CQ|KP4/K1ABC|FK68
|
||||
|DE|G0XYZ/P|IO91
|
||||
|G0XYZ|K1ABC|–19
|
||||
|K1ABC|G0XYZ|R–22
|
||||
|G0XYZ|K1ABC|RRR
|
||||
|DE|G0XYZ/P|73
|
||||
|=====================
|
||||
////
|
||||
=== Pre-QSO Checklist
|
||||
|
||||
Before attempting your first QSO with JT9 or JT65, be sure to go
|
||||
through the <<X15,Basic Tutorial>> above and the following checklist:
|
||||
|
||||
- Your callsign and grid locator set to correct values
|
||||
- PTT and CAT control (if used) properly configured and tested
|
||||
- Computer clock properly synchronized with UTC to within ±1 s
|
||||
- Radio set to USB (upper sideband) mode
|
||||
- Radio's Split mode selected or not, consistent with your choice on
|
||||
*Station* tab of *Configuration* window.
|
||||
|
||||
- Remember that JT9 and J65 generally do not require high power. Under
|
||||
most propagation conditions, [red]*QRP is the rule!*
|
@ -1,3 +1,4 @@
|
||||
// Status=review
|
||||
= Rig Template
|
||||
:Author: Greg Beam, KI7MT
|
||||
:Date: September 22, 2013, Copyleft © 2013
|
||||
|
10
doc/source/system-requirments.txt
Normal file
10
doc/source/system-requirments.txt
Normal file
@ -0,0 +1,10 @@
|
||||
// Status=review
|
||||
- SSB transceiver and antenna
|
||||
- Computer running Windows (XP or later), Linux, or OS X
|
||||
- 1.5 GHz or faster CPU and 100 MB of available memory
|
||||
- Monitor with at least 1024 x 780 resolution (more is better)
|
||||
- Computer-to-radio interface using a serial port for T/R switching, or CAT
|
||||
control, or VOX.
|
||||
- Audio input and output devices supported by your operating system
|
||||
- Audio or equivalent USB connections between transceiver and computer
|
||||
- A means for synchronizing your computer clock to UTC to within ±1 s.
|
36
doc/source/transceiver-setup.txt
Normal file
36
doc/source/transceiver-setup.txt
Normal file
@ -0,0 +1,36 @@
|
||||
// Status=review
|
||||
.Receiver Noise Level
|
||||
- Click the Monitor button to return to normal receive operation.
|
||||
- Set your transceiver to USB (or USB Data) mode.
|
||||
- Use the receiver gain control(s) and/or the Windows mixer controls
|
||||
to set the background noise level to around 30 dB or mid-scale. If
|
||||
necessary you can also use the slider next to the scale, but note that
|
||||
the overall dynamic range will be best with this slider not too far
|
||||
from its mid-point.
|
||||
|
||||
.Bandwidth and Frequency Setting
|
||||
|
||||
Taking full advantage of the wide-band, dual-mode capability of
|
||||
{wsjtx} requires a receiver bandwidth of at least 4 kHz. For example,
|
||||
on a Kenwood TS-2000 I set *Low Cut* to 200 and *High Cut* to 5000
|
||||
Hz. Note that most SSB transceivers have a fixed Tx filter that will
|
||||
not pass audio frequencies higher than about 2700 Hz. {wsjtx} takes
|
||||
care of this by using Split mode, receiving with *VFO A* and
|
||||
transmitting with *VFO B*. The Tx dial frequency (*VFO B*) is offset
|
||||
in 500 Hz steps, and the generated audio frequency is adjusted so that
|
||||
it always falls in the range 1500 – 2000 Hz. With *CAT* and *Split Tx*
|
||||
enabled on the configuration screen and your transceiver set to
|
||||
*Tx Split* mode, frequency control will be handled automatically.
|
||||
|
||||
If your transceiver has only a standard SSB filter you won’t be able
|
||||
to use more than about 2.7 kHz bandwidth. You can still have all of
|
||||
the JT9 sub-band and part of the JT65 sub-band available, however. On
|
||||
20m, say, set dial frequency (*VFO A*) to 14.0774 and the *JT9 nnnn JT65*
|
||||
dividing line at 1600 Hz. JT9 signals in their conventional sub-band
|
||||
will then appear at 1600 – 2600 Hz, while JT65 signals will be below
|
||||
1000 Hz. Of course, you might prefer to concentrate on one mode at a
|
||||
time, setting your dial frequency to (say) 14.076 for JT65 and 14.078
|
||||
for JT9. Present conventions have the nominal JT9 dial frequency 2
|
||||
kHz higher than the JT65 dial frequency, and the check-box labeled +2
|
||||
kHz, just below the band selector, makes the appropriate settings
|
||||
easy.
|
89
doc/source/tutorial-example1.txt
Normal file
89
doc/source/tutorial-example1.txt
Normal file
@ -0,0 +1,89 @@
|
||||
// Status=review
|
||||
.Open a Wave File:
|
||||
|
||||
- Select File | Open and navigate to ...\save\samples\130418_1742.wav
|
||||
under your program installation directory.
|
||||
|
||||
When the file opens you should see something similar to the to the
|
||||
following screen shot:
|
||||
|
||||
[[X12]]
|
||||
image::images/r3556-main-ui-80.png[align="center",alt="Main UI and Wide Graph"]
|
||||
|
||||
.Decoding Overview
|
||||
|
||||
Notice the [green]*GREEN* and [red]*RED* markers on the waterfall
|
||||
frequency scale. Decoding takes place at the end of a receive
|
||||
sequence and is organized in two stages. The first decodes take place
|
||||
at the selected Rx frequency, indicated by the green marker. Results
|
||||
appear in both the left (“Band Activity”) and right (“Rx Frequency”)
|
||||
text windows on the main screen. The decoder then finds and decodes
|
||||
all signals in the selected mode(s) and the displayed frequency
|
||||
range. The red marker indicates your Tx frequency.
|
||||
|
||||
At least eight JT9 signals are present in the example file; all
|
||||
but one of them are decodable. When this file was recorded KF4RWA was
|
||||
finishing a QSO with K1JT. Since the green marker was placed at his
|
||||
audio frequency, 1224 Hz, his message “K1JT KF4RWA 73” appears in both
|
||||
decoded text windows. The “Band Activity” window shows this message
|
||||
as well as all the other decodes at nearby frequencies. The CQ lines
|
||||
are highlighted in [green]*GREEN*, and lines containing “My Call”, in
|
||||
this case K1JT, are highlighted in [red]*RED*.
|
||||
|
||||
TIP: For this step and the next, you may want to pretend you are K1JT by
|
||||
entering that call temporarily as “My Call” on the <<X11,Configuration
|
||||
Screen>>. Your results should then be identical to those shown in the
|
||||
<<X12,screen shot>> above.
|
||||
|
||||
[[X13]]
|
||||
.Decoding Controls
|
||||
To gain some feeling for the controls you will use when making QSOs, try
|
||||
clicking with the mouse on the decoded text lines and on the waterfall spectral
|
||||
display. You should be able to confirm the following behavior:
|
||||
|
||||
- Double-click on either of the decoded lines highlighted in green. This action
|
||||
should produce the following:
|
||||
|
||||
** Copies call-sign and locater of a station calling CQ to the “DX Call”
|
||||
and “DX grid” entry fields.
|
||||
|
||||
** Generates suitable messages for a minimal QSO and checks or clears the Tx
|
||||
even box so that you will transmit in the proper (odd or even) minutes.
|
||||
|
||||
** Rx and Tx frequency markers will be moved to the CQ-ing station’s frequency,
|
||||
and the Gen Msg (“generated message”) radio button at bottom right of the main
|
||||
window will be selected.
|
||||
|
||||
** If you had checked “Double-click on call sets Tx Enable” on the Setup menu,
|
||||
Enable Tx would also be activated, and you would start to transmit automatically,
|
||||
at the appropriate time.
|
||||
|
||||
- Double-click on the decoded line with the message “K1JT N5KDV EM41”,
|
||||
highlighted in [red]*RED*. Results will be similar to those in the
|
||||
previous step, except the Tx frequency ([red]*RED* marker) is not
|
||||
moved. Such messages are usually in response to your own CQ, or from
|
||||
a tail-ender, and you probably want your Tx frequency to stay where it
|
||||
was.
|
||||
|
||||
- By holding down the Ctrl key when double-clicking on the decoded line
|
||||
you can cause both Tx and Rx frequencies to be moved. This behavior
|
||||
can also be forced by checking Lock Tx=Rx.
|
||||
|
||||
- Double-click on the message from KF4RWA in either window. He is
|
||||
sending “73” to K1JT, signifying that the QSO is over. Most likely you
|
||||
want to send 73 to him, so the message “KF4RWA K1JT 73” is automatically
|
||||
generated and selected for your next transmission. (Alternatively, you might
|
||||
choose to send a free text message or to call CQ again.)
|
||||
|
||||
- Clicking on the waterfall moves the Rx frequency ([green]*GREEN* marker) to the
|
||||
selected frequency.
|
||||
|
||||
- Ctrl-click on waterfall moves both Rx and Tx frequencies.
|
||||
|
||||
- Double-click on the waterfall moves the Rx frequency and causes a
|
||||
narrow-band decode there at the new QSO frequency. Decoded text appears in the
|
||||
right window only. Ctrl-double-click moves both Rx and Tx frequencies and
|
||||
decodes at the new frequency.
|
||||
|
||||
- Clicking Erase clears the right window. Double-click on Erase to clear both
|
||||
text windows.
|
96
doc/source/tutorial-example2.txt
Normal file
96
doc/source/tutorial-example2.txt
Normal file
@ -0,0 +1,96 @@
|
||||
// Status=review
|
||||
.Wide Graph Settings:
|
||||
- Bins/Pixel = 7
|
||||
- Zero = -3
|
||||
- If necessary, adjust the width of the Wide Graph Window so that its upper
|
||||
frequency limit is 4000 Hz.
|
||||
|
||||
.Main Window:
|
||||
- Select JT9+JT65 on the Mode menu
|
||||
- Toggle the Tx mode button to read Tx JT65, and set the Tx and Rx
|
||||
frequencies to 1718 Hz.
|
||||
- Double-click on Erase to clear both text windows
|
||||
|
||||
.Open a Wave File:
|
||||
- Select File | Open and navigate to ...\save\samples\130610_2343.wav.
|
||||
|
||||
The waterfall should look like the figure below.
|
||||
|
||||
//.130610_2343.wav Decode
|
||||
[[X14]]
|
||||
image::images/130610_2343-wav-80.png[align="left",alt="Wide Graph Decode 130610_2343"]
|
||||
|
||||
This sample file contains 17 decodable signals — nine in JT65 mode
|
||||
(flagged with the character # in the decoded text windows), and eight
|
||||
in JT9 mode (flagged with @). Since the Tx mode was set to Tx JT65,
|
||||
signals in that mode were decoded first. If you had selected Tx JT9,
|
||||
JT9 signals would have been decoded first.
|
||||
|
||||
TIP: Notice the [blue]*BLUE* marker on the waterfall scale, by
|
||||
default set at 2500 Hz. Its position is set by the spinner control
|
||||
JT65 nnnn JT9, where nnnn is a frequency in Hz. In JT9+JT65 mode the
|
||||
program will decode JT65 signals below this frequency and JT9 signals
|
||||
above it.
|
||||
|
||||
- Confirm that mouse-click behavior is similar to that described
|
||||
<<X13,earlier>>. The program automatically determines the mode of each
|
||||
JT9 or JT65 signal.
|
||||
|
||||
- Double-click on the waterfall near 815 Hz: a JT65 message
|
||||
originating from W7VP will be decoded and appear in the Rx Frequency
|
||||
Box:
|
||||
|
||||
[width="70%",cols="3,^3,^3,^4,^4,30",options="header"]
|
||||
|=================================
|
||||
|UTC|db|dt|Freq|Mode|Message
|
||||
|2343|-7|0.3|815|#|KK4DSD W7VP -16
|
||||
|=================================
|
||||
|
||||
- Double-click on the waterfall at 3196 Hz and the program will decode a JT9
|
||||
message from IZ0MIT:
|
||||
|
||||
[width="70%",cols="3,^3,^3,^4,^4,30",options="header"]
|
||||
|=====================================
|
||||
|UTC|db|dt|Freq|Mode|Message
|
||||
|2343|-7|0.3|3196|@|WB8QPG IZ0MIT -11
|
||||
|=====================================
|
||||
|
||||
TIP: Notice that when a signal is decoded in this way, the Tx mode
|
||||
automatically switches to that of the decoded signal and the Rx and Tx
|
||||
frequency markers on the waterfall scale resize themselves
|
||||
accordingly.
|
||||
|
||||
- Scroll back in the Band Activity window and double-click on the
|
||||
message CQ DL7ACA JO40. The program will set Tx mode to JT65 and Tx
|
||||
and Rx frequencies to that of DL7ACA, 975 Hz. If you had checked
|
||||
*Double-click on call sets Tx Enable* on the Setup menu, the program
|
||||
would configure itself to start a QSO with DL7ACA.
|
||||
|
||||
- Double-click on the decoded JT65 message CQ TA4A KM37. The program
|
||||
will set Tx mode to JT9 and the Rx and Tx frequencies to 3567 Hz. The
|
||||
program is now configured properly for a JT9 QSO with TA4A.
|
||||
|
||||
IMPORTANT: Don’t forget to re-enter your own call-sign as “My Call”.
|
||||
|
||||
.Reopen the First Sample File:
|
||||
- Select File | Open and navigate to ...\save\samples\130418_1742.wav.
|
||||
|
||||
These data were recorded with a much narrower Rx bandwidth, roughly
|
||||
200 to 2600 Hz. If you have no Rx filter wider than about 2.7 kHz, you
|
||||
will be using data like this. For best viewing of such data adjust
|
||||
Bins/Pixel and the width of the Wide Graph so that only the active
|
||||
part of the spectrum shows, say 0 to 2600 Hz. Re-open the example
|
||||
file after any change of Bins/Pixel or Wide Graph width, to refresh
|
||||
the waterfall.
|
||||
|
||||
The signals in this file are all JT9 signals. To decode them in
|
||||
JT9+JT65 mode you’ll need to move the JT65 nnnn JT9 delimiter down to
|
||||
1000 Hz or less.
|
||||
|
||||
.Start, Zero, and Gain
|
||||
Now is a good time to experiment with the *Start*, *Zero*, and
|
||||
*Gain* parameters. *Start* sets the starting frequency at the left
|
||||
side of the waterfall scale. *Zero* sets the baseline level for
|
||||
colors, and *Gain* sets the sensitivity for color changes. For the
|
||||
receiver setup of this file good values are *Zero*=0, *Gain*=0.
|
||||
Re-open the wave file after each change, to see the new results.
|
5
doc/source/tutorial-main-window.txt
Normal file
5
doc/source/tutorial-main-window.txt
Normal file
@ -0,0 +1,5 @@
|
||||
// Status=review
|
||||
- Click the *Stop* button on the main window to halt any data acquisition.
|
||||
- Select JT9 from the *Mode* menu and Deepest from the *Decode* menu.
|
||||
- Set the audio Tx and Rx frequencies to 1224 Hz.
|
||||
//Maybe show small screen shots here?
|
10
doc/source/tutorial-wide-graph-settings.txt
Normal file
10
doc/source/tutorial-wide-graph-settings.txt
Normal file
@ -0,0 +1,10 @@
|
||||
// Status=review
|
||||
* Bins/Pixel = 4
|
||||
* N Avg = 5
|
||||
* Gain = 0,
|
||||
* Zero = –10
|
||||
* Flatten = checked
|
||||
* Cumulative for data display.
|
||||
* Select Tab 2 (below the Erase button on the main window) to
|
||||
choose the alternative set of controls for generating and selecting
|
||||
Tx messages.
|
File diff suppressed because it is too large
Load Diff
@ -1,3 +1,4 @@
|
||||
// Status=review
|
||||
// This is a comment line, anything with // is ignored at process time.
|
||||
= Yaesu Configuration Guide
|
||||
:Author: Greg Beam, KI7MT
|
||||
|
Loading…
Reference in New Issue
Block a user