multimon-ng is the successor of multimon. It decodes the following digital transmission modes:
- POCSAG512 POCSAG1200 POCSAG2400
- FLEX FLEX_NEXT
- EAS
- UFSK1200 CLIPFSK FMSFSK AFSK1200 AFSK2400 AFSK2400_2 AFSK2400_3
- HAPN4800
- FSK9600
- DTMF
- ZVEI1 ZVEI2 ZVEI3 DZVEI PZVEI
- EEA EIA CCIR
- MORSE_CW
- DUMPCSV X10 SCOPE SDL_SCOPE
multimon-ng can be built using either qmake or CMake:
mkdir build
cd build
qmake ../multimon-ng.pro
make
sudo make install
mkdir build
cd build
cmake ..
make
sudo make install
The installation prefix can be set by passing a 'PREFIX' parameter to qmake. e.g:
qmake multimon-ng.pro PREFIX=/usr/local
Install MSYS2, then from the MinGW64 or MinGW32 shell:
mkdir build
cd build
cmake ..
make
Install MinGW cross-compiler, then use the provided toolchain files:
# For 64-bit Windows
mkdir build-mingw64
cd build-mingw64
cmake .. -DCMAKE_TOOLCHAIN_FILE=../cmake/toolchain-mingw64.cmake
make
# For 32-bit Windows
mkdir build-mingw32
cd build-mingw32
cmake .. -DCMAKE_TOOLCHAIN_FILE=../cmake/toolchain-mingw32.cmake
make
So far multimon-ng has been successfully built on:
- Arch Linux
- Debian
- Gentoo
- Kali Linux
- Ubuntu
- OS X
- Windows (Qt-MinGW build environment, Cygwin, and VisualStudio/MSVC)
- FreeBSD
Files can be easily converted into multimon-ng's native raw format using sox. e.g:
sox -R -t wav pocsag_short.wav -esigned-integer -b16 -r 22050 -t raw pocsag_short.raw
GNURadio can also generate the format using the file sink in input mode short.
You can also "pipe" raw samples into multimon-ng using something like:
sox -R -t wav pocsag_short.wav -esigned-integer -b16 -r 22050 -t raw - | ./multimon-ng -
Note
Note the trailing dash, means write/read to/from stdin
As a last example, here is how you can use it in combination with RTL-SDR:
rtl_fm -f 403600000 -s 22050 | multimon-ng -t raw -a FMSFSK -a AFSK1200 /dev/stdin
A more advanced sample that combines rtl_fm, flac, and tee to split the output from rtl_rm into separate streams. One stream to be passed to flac to record the audio and another stream to for example an application that does text parsing of mulimon-ng output
rtl_fm -s 22050 -f 123.456M -g -9.9 | tee >(flac -8 --endian=little --channels=1 --bps=16 --sample-rate=22050 --sign=signed - -o ~/recordings/rtlfm.$EPOCHSECONDS.flac -f) | multimon-ng -v 0 -a FLEX -a FLEX_NEXT -t raw /dev/stdin- You can pass
-ltortl_fmfor the squelch level, this will cut the noise floor so less data gets encoded by flac and will significantly reduce the file size but could result in loss of signal data. This value must be tuned! - Flac uses
-8here, if you run an a resource constraint device you may want to lower this value - The Flac
-oargument value contains$EPOCHSECONDSto make unique files when this gets restarted
To replay the recorded flac file to multimon-ng (requires sox):
flac -d --stdout ~/recordings/rtlf/rtlfm.1725033204.flac | multimon-ng -r -v 0 -a FLEX_NEXT -t flac -qmake multimon-ng.pro PREFIX=/usr/local
make
make install INSTALL_ROOT=/
After building, run the test suite:
./test/run_tests.sh
Note
Testing non-raw sample files (flac, wav) requires SoX to be installed.