Packages and Binaries:
gnuradio
GNU Radio provides signal processing blocks to implement software radios. It can be used with readily-available low-cost external RF hardware to create software-defined radios, or without hardware in a simulation-like environment. It is widely used in hobbyist, academic and commercial environments to support both wireless communications research and real-world radio systems.
GNU Radio applications are primarily written using the Python programming language, while the supplied performance-critical signal processing path is implemented in C++ using processor floating-point extensions, where available. Thus, the developer is able to implement real-time, high-throughput radio systems in a simple-to-use, rapid-application-development environment.
While not primarily a simulation tool, GNU Radio does support development of signal processing algorithms using pre-recorded or generated data, avoiding the need for actual RF hardware.
This package contains the gnuradio-companion, a graphical tool for creating signal flow graphs and generating flow-graph source code. Also included are a variety of tools and utility programs.
Installed size: 21.67 MB
How to install: sudo apt install gnuradio
Dependencies:
- gnome-terminal | x-terminal-emulator
- libboost-program-options1.83.0
- libc6
- libfmt9
- libgcc-s1
- libgmp10
- libgnuradio-analog3.10.9
- libgnuradio-audio3.10.9
- libgnuradio-blocks3.10.9
- libgnuradio-channels3.10.9
- libgnuradio-digital3.10.9
- libgnuradio-dtv3.10.9
- libgnuradio-fec3.10.9
- libgnuradio-fft3.10.9
- libgnuradio-filter3.10.9
- libgnuradio-iio3.10.9
- libgnuradio-network3.10.9
- libgnuradio-pdu3.10.9
- libgnuradio-pmt3.10.9
- libgnuradio-qtgui3.10.9
- libgnuradio-runtime3.10.9
- libgnuradio-soapy3.10.9
- libgnuradio-trellis3.10.9
- libgnuradio-uhd3.10.9
- libgnuradio-video-sdl3.10.9
- libgnuradio-vocoder3.10.9
- libgnuradio-wavelet3.10.9
- libgnuradio-zeromq3.10.9
- libjs-mathjax
- libqt5core5a
- libqt5widgets5
- libsoapysdr0.8
- libspdlog1.12-fmt9
- libstdc++6
- libuhd4.6.0
- libvolk-bin
- libvolk3.1
- python3
- python3
- python3-click
- python3-click-plugins
- python3-gi
- python3-gi-cairo
- python3-jsonschema
- python3-lxml
- python3-mako
- python3-numpy
- python3-numpy-abi9
- python3-opengl
- python3-packaging
- python3-pygccxml
- python3-pyqt5
- python3-pyqtgraph
- python3-schema
- python3-thrift
- python3-yaml
- python3-zmq
dial_tone
Dial tone example
root@kali:~# man dial_tone
DIAL_TONE(1) User Commands DIAL_TONE(1)
NAME
dial_tone - dial tone example
DESCRIPTION
GnuRadio Dial Tone example
OPTIONS
None
Play a Dial Tone on the sound card output device.
SEE ALSO
The c++ gnuradio example programs are in /usr/bin. There are also many
Python and GnuRadio Companion examples in /usr/share/gnuradio/exam-
ples/...
tags_demo(1) uhd_rx_cfile(1) uhd_rx_nogui(1) uhd_siggen(1)
uhd_siggen_gui(1)
DIAL_TONE 3.10.9.2 2024-01-17 DIAL_TONE(1)
display_qt
A Gnu Radio Example gr-qtgui
root@kali:~# man display_qt
DISPLAY_QT(1) User Commands DISPLAY_QT(1)
NAME
display_qt - a Gnu Radio Example gr-qtgui
DESCRIPTION
Display a GUI using QT of a sine wave in noise.
Example program instantiates a GNU Radio flow graph using a sine wave
source, a noise source, and gr-qtgui blocks. This new (in version
3.7.10) example shows how to build a C++ only QT based application.
SEE ALSO
http://gnuradio.squarespace.com/examples/tag/qt
display_qt 3.10.9.2 2024-01-17 DISPLAY_QT(1)
gnuradio-companion
GNU Radio Companion (GRC) is a graphical tool for creating GNU Radio signal flowgraphs.
root@kali:~# gnuradio-companion -h
usage: gnuradio-companion [-h] [--log {debug,info,warning,error,critical}]
[flow_graphs ...]
GNU Radio Companion 3.10.9.2 This program is part of GNU Radio GRC comes with
ABSOLUTELY NO WARRANTY. This is free software, and you are welcome to
redistribute it.
positional arguments:
flow_graphs
options:
-h, --help show this help message and exit
--log {debug,info,warning,error,critical}
gnuradio-config-info
Show details on installed GNU radio
root@kali:~# gnuradio-config-info -h
Program options: gnuradio-config-info [options]:
-h [ --help ] print help message
--print-all print all information
--prefix print GNU Radio installation prefix
--sysconfdir print GNU Radio system configuration directory
--prefsdir print GNU Radio preferences directory
--userprefsdir print GNU Radio user preferences directory
--prefs print GNU Radio preferences
--builddate print GNU Radio build date (RFC2822 format)
--enabled-components print GNU Radio build time enabled components
--cc print GNU Radio C compiler version
--cxx print GNU Radio C++ compiler version
--cflags print GNU Radio CFLAGS
-v [ --version ] print GNU Radio version
--pybind print pybind11 version used in this build
gr-ctrlport-monitor
Gnuradio control port gui
root@kali:~# gr-ctrlport-monitor -h
usage: gr-ctrlport-monitor [-h] [host] port
GNU Radio Control Port Monitor
positional arguments:
host host name or IP
port port
options:
-h, --help show this help message and exit
gr-perf-monitorx
Gnuradio control port gui
root@kali:~# gr-perf-monitorx -h
usage: gr-perf-monitorx [-h] [host] port
GNU Radio Performance Monitor
positional arguments:
host host name or IP
port port
options:
-h, --help show this help message and exit
gr_filter_design
GUI for creating filters for GNU Radio
root@kali:~# gr_filter_design -h
Usage: gr_filter_design: [options] (input_filename)
Options:
-h, --help show this help message and exit
gr_modtool
The swiss army knife of module editing
root@kali:~# gr_modtool --help
Usage: gr_modtool [OPTIONS] COMMAND [ARGS]...
A tool for editing GNU Radio out-of-tree modules.
Options:
--help Show this message and exit.
Commands:
add Adds a block to the out-of-tree module.
bind Generate Python bindings for GR block
disable Disable selected block in module.
info Return information about a given module
makeyaml Generate YAML files for GRC block bindings.
newmod Create new empty module, use add to add blocks.
rename Rename a block inside a module.
rm Remove a block from a module.
update Update the grc bindings for a block
Manipulate with GNU Radio modules source code tree. Call it without options
to run specified command interactively
gr_plot
Display time series of samples from a file
root@kali:~# gr_plot -h
usage: gr_plot [-h]
[-d {complex64,float32,uint32,int32,uint16,int16,uint8,int8}]
[-B BLOCK] [-s START] [-R SAMPLE_RATE]
FILE [FILE ...]
Takes a GNU Radio binary file and displays the samples versus time. You can
set the block size to specify how many points to read in at a time and the
start position in the file. By default, the system assumes a sample rate of 1,
so in time, each sample is plotted versus the sample number. To set a true
time axis, set the sample rate (-R or --sample-rate) to the sample rate used
when capturing the samples.
positional arguments:
FILE Input file with samples
options:
-h, --help show this help message and exit
-d {complex64,float32,uint32,int32,uint16,int16,uint8,int8}, --data-type {complex64,float32,uint32,int32,uint16,int16,uint8,int8}
Specify the data type [default='complex64']
-B BLOCK, --block BLOCK
Specify the block size [default=1000]
-s START, --start START
Specify where to start in the file [default=0]
-R SAMPLE_RATE, --sample-rate SAMPLE_RATE
Set the sampler rate of the data [default=1.0]
gr_plot_const
Constellation plot of I&Q data using GNU Radio
root@kali:~# gr_plot_const -h
usage: gr_plot_const [-h] [-B BLOCK] [-s START] [-R SAMPLE_RATE] FILE
Takes a GNU Radio complex binary file and displays the I&Q data versus time
and the constellation plot (I vs. Q). You can set the block size to specify
how many points to read in at a time and the start position in the file. By
default, the system assumes a sample rate of 1, so in time, each sample is
plotted versus the sample number. To set a true time axis, set the sample rate
(-R or --sample-rate) to the sample rate used when capturing the samples.
positional arguments:
FILE Input file with complex samples
options:
-h, --help show this help message and exit
-B BLOCK, --block BLOCK
Specify the block size [default=1000]
-s START, --start START
Specify where to start in the file [default=0]
-R SAMPLE_RATE, --sample-rate SAMPLE_RATE
Set the sampler rate of the data [default=1.0]
gr_plot_fft
Frequency domain GNU Radio plotting
root@kali:~# gr_plot_fft -h
usage: gr_plot_fft [-h]
[-d {complex64,float32,uint32,int32,uint16,int16,uint8,int8}]
[-B BLOCK] [-s START] [-R SAMPLE_RATE]
FILE
Takes a GNU Radio complex binary file and displays the I&Q data versus time as
well as the frequency domain (FFT) plot. The y-axis values are plotted
assuming volts as the amplitude of the I&Q streams and converted into dBm in
the frequency domain (the 1/N power adjustment out of the FFT is performed
internally). The script plots a certain block of data at a time, specified on
the command line as -B or --block. This value defaults to 1000. The start
position in the file can be set by specifying -s or --start and defaults to 0
(the start of the file). By default, the system assumes a sample rate of 1, so
in time, each sample is plotted versus the sample number. To set a true time
and frequency axis, set the sample rate (-R or --sample-rate) to the sample
rate used when capturing the samples.
positional arguments:
FILE Input file with samples
options:
-h, --help show this help message and exit
-d {complex64,float32,uint32,int32,uint16,int16,uint8,int8}, --data-type {complex64,float32,uint32,int32,uint16,int16,uint8,int8}
Specify the data type [default='complex64']
-B BLOCK, --block BLOCK
Specify the block size [default=1000]
-s START, --start START
Specify where to start in the file [default=0]
-R SAMPLE_RATE, --sample-rate SAMPLE_RATE
Set the sampler rate of the data [default=1.0]
gr_plot_iq
Plot complex binary I&Q data versus time using GNU Radio
root@kali:~# gr_plot_iq -h
usage: gr_plot_iq [-h] [-B BLOCK] [-s START] [-R SAMPLE_RATE] FILE
Takes a GNU Radio complex binary file and displays the I&Q data versus time.
You can set the block size to specify how many points to read in at a time and
the start position in the file. By default, the system assumes a sample rate
of 1, so in time, each sample is plotted versus the sample number. To set a
true time axis, set the sample rate (-R or --sample-rate) to the sample rate
used when capturing the samples.
positional arguments:
FILE Input file with complex samples
options:
-h, --help show this help message and exit
-B BLOCK, --block BLOCK
Specify the block size [default=1000]
-s START, --start START
Specify where to start in the file [default=0]
-R SAMPLE_RATE, --sample-rate SAMPLE_RATE
Set the sampler rate of the data [default=1.0]
gr_plot_psd
GNU Radio power spectrum plotting
root@kali:~# gr_plot_psd -h
usage: gr_plot_psd [-h]
[-d {complex64,float32,int32,uint32,int16,uint16,int8,uint8}]
[-B BLOCK] [-s START] [-R SAMPLE_RATE]
[--psd-size PSD_SIZE] [--spec-size SPEC_SIZE] [-S]
FILE
Takes a GNU Radio binary file (with specified data type using --data-type) and
displays the I&Q data versus time as well as the power spectral density (PSD)
plot. The y-axis values are plotted assuming volts as the amplitude of the I&Q
streams and converted into dBm in the frequency domain (the 1/N power
adjustment out of the FFT is performed internally). The script plots a certain
block of data at a time, specified on the command line as -B or --block. The
start position in the file can be set by specifying -s or --start and defaults
to 0 (the start of the file). By default, the system assumes a sample rate of
1, so in time, each sample is plotted versus the sample number. To set a true
time and frequency axis, set the sample rate (-R or --sample-rate) to the
sample rate used when capturing the samples. Finally, the size of the FFT to
use for the PSD and spectrogram plots can be set independently with --psd-size
and --spec-size, respectively. The spectrogram plot does not display by
default and is turned on with -S or --enable-spec.
positional arguments:
FILE Input file with samples
options:
-h, --help show this help message and exit
-d {complex64,float32,int32,uint32,int16,uint16,int8,uint8}, --data-type {complex64,float32,int32,uint32,int16,uint16,int8,uint8}
Specify the data type [default='complex64']
-B BLOCK, --block BLOCK
Specify the block size [default=8192]
-s START, --start START
Specify where to start in the file [default=0]
-R SAMPLE_RATE, --sample-rate SAMPLE_RATE
Set the sampler rate of the data [default=1.0]
--psd-size PSD_SIZE Set the size of the PSD FFT [default=1024]
--spec-size SPEC_SIZE
Set the size of the spectrogram FFT [default=256]
-S, --enable-spec Turn on plotting the spectrogram [default=False]
gr_plot_qt
Plot data using Qt graphics and GNU Radio
root@kali:~# man gr_plot_qt
GR_PLOT_QT(1) User Commands GR_PLOT_QT(1)
NAME
gr_plot_qt - plot data using Qt graphics and GNU Radio
DESCRIPTION
Fancy plot display.
SEE ALSO
gr_plot_char(1) gr_plot_const(1) gr_plot_fft_c(1) gr_plot_fft_f(1)
gr_plot_float(1) gr_plot_int(1) gr_plot_iq(1) gr_plot_psd_c(1)
gr_plot_psd_f(1) gr_plot_qt(1) gr_plot_short(1)
gr_plot_qt 3.10.9.2 2024-01-17 GR_PLOT_QT(1)
gr_read_file_metadata
A Gnu Radio Utility
root@kali:~# gr_read_file_metadata -h
usage: gr_read_file_metadata [-h] [-D] FILE
Read in a GNU Radio file with meta data, extracts the header and prints it.
positional arguments:
FILE Input file
options:
-h, --help show this help message and exit
-D, --detached Used if header is detached.
grcc
Gnu Radio Companion Compiler
root@kali:~# grcc -h
usage: grcc [-h] [-o DIR] [-u] [-r] GRC_FILE [GRC_FILE ...]
Compile a GRC file (.grc) into a GNU Radio Python program and run it.
positional arguments:
GRC_FILE .grc file to compile
options:
-h, --help show this help message and exit
-o DIR, --output DIR Output directory for compiled program [default=.]
-u, --user-lib-dir Output to default hier_block library (overwrites -o)
-r, --run Run the program after compiling [default=False]
polar_channel_construction
Gnu Radio Polar Configurator
root@kali:~# polar_channel_construction -h
POLAR code channel constructor commandline tool
usage: polar_channel_construction [-h] [-c {BEC,AWGN}] [-b BLOCK_SIZE]
[-s DESIGN_SNR] [-k MU]
options:
-h, --help show this help message and exit
-c {BEC,AWGN}, --channel {BEC,AWGN}
specify channel, currently BEC or AWGN (default='BEC')
-b BLOCK_SIZE, --blocksize BLOCK_SIZE
specify block size of polar code (default=16)
-s DESIGN_SNR, --design-snr DESIGN_SNR
specify design SNR of polar code (default=0.0)
-k MU, --mu MU specify block size of polar code (default=2)
tags_demo
GNURadio and UHD tags example
root@kali:~# tags_demo --help
UHD Tags Demo Allowed options:
--help help message
--addr arg the device address in string format
--rate arg (=1000000) the sample rate in samples per second
--freq arg (=10000000) the center frequency in Hz
--burst arg (=0.10000000000000001) the duration of each burst in seconds
--idle arg (=0.050000000000000003) idle time between bursts in seconds
--length_tag arg the length tag key name
The tags sink demo block will print USRP source time stamps.
The tags source demo block will send bursts to the USRP sink.
Look at the USRP output on a scope to see the timed bursts.
uhd_fft
Display spectrum from UHD receiver
root@kali:~# uhd_fft -h
usage: uhd_fft [-h] [-a ARGS] [--spec SPEC] [-A ANTENNA] [-s SAMP_RATE]
[-g GAIN] [-p POWER] -f FREQ [--lo-offset LO_OFFSET]
[-c CHANNELS] [--lo-export LO_EXPORT] [--lo-source LO_SOURCE]
[--otw-format {sc16,sc12,sc8}] [--stream-args STREAM_ARGS] [-v]
[--show-async-msg] [--sync {default,pps,auto}]
[--clock-source CLOCK_SOURCE] [--time-source TIME_SOURCE]
[--fft-size FFT_SIZE] [--fft-average {off,low,medium,high}]
[--avg-alpha AVG_ALPHA] [--update-rate UPDATE_RATE]
[--phase-relations]
UHD FFT
options:
-h, --help show this help message and exit
USRP Arguments:
-a ARGS, --args ARGS UHD device address args
--spec SPEC Subdevice(s) of UHD device where appropriate. Use a
comma-separated list to set different boards to
different specs.
-A ANTENNA, --antenna ANTENNA
Select Rx antenna(s) where appropriate
-s SAMP_RATE, --samp-rate SAMP_RATE
Sample rate
-g GAIN, --gain GAIN Gain (default is midpoint)
-p POWER, --power POWER
(Reference) power level (in dBm). Not supported by all
devices (see UHD manual). Will fail if not supported.
Precludes --gain. Behaviour may differ between
applications.
-f FREQ, --freq FREQ Set carrier frequency to FREQ
--lo-offset LO_OFFSET
Set daughterboard LO offset to OFFSET [default=hw
default]
-c CHANNELS, --channels CHANNELS
Select Rx Channels
--lo-export LO_EXPORT
Set TwinRX LO export {None, True, False} for each
channel with a comma-separated list. None skips a
channel.
--lo-source LO_SOURCE
Set TwinRX LO source {None, internal, companion,
external} for each channel with a comma-separated
list. None skips this channel.
--otw-format {sc16,sc12,sc8}
Choose over-the-wire data format
--stream-args STREAM_ARGS
Set additional stream arguments
-v, --verbose Use verbose console output
--show-async-msg Show asynchronous message notifications from UHD
--sync {default,pps,auto}
Set to 'pps' to sync devices to PPS
--clock-source CLOCK_SOURCE
Set the clock source; typically 'internal', 'external'
or 'gpsdo'
--time-source TIME_SOURCE
Set the time source
UHD FFT Arguments:
--fft-size FFT_SIZE Set number of FFT bins
--fft-average {off,low,medium,high}
Set FFT averaging
--avg-alpha AVG_ALPHA
Specify FFT average alpha (overrides --fft-average)
--update-rate UPDATE_RATE
Set GUI widget update period in seconds
--phase-relations Plot relative phases between multiple channels
uhd_rx_cfile
Save UHD received data
root@kali:~# uhd_rx_cfile -h
Usage: uhd_rx_cfile: [options] output_filename
Options:
-h, --help show this help message and exit
-a ARGS, --args=ARGS UHD device address args , [default=]
--spec=SPEC Subdevice of UHD device where appropriate
-c CHANNELS, --channels=CHANNELS
Select receive channels
-A ANTENNA, --antenna=ANTENNA
Select Rx Antenna(s) where appropriate. Use a comma-
delimited list if different channels have different
antenna ports.
-r SAMP_RATE, --samp-rate=SAMP_RATE
Set sample rate (bandwidth) [default=1000000.0]
-f FREQ, --freq=FREQ Set frequency to FREQ
--lo-offset=LO_OFFSET
Set daughterboard LO offset to OFFSET [default=hw
default]
-g GAIN, --gain=GAIN Set gain in dB (default is midpoint)
--normalized-gain Specify gain as normalized value (in [0, 1])
-m, --metafile output metadata to file [default=False]
-s, --output-shorts Output interleaved shorts instead of complex floats
-N NSAMPLES, --nsamples=NSAMPLES
Number of samples to collect [default=+inf]
-v, --verbose verbose output
--wire-format=WIRE_FORMAT
Set wire format from USRP [default=sc16
--stream-args=STREAM_ARGS
Set additional stream arguments
--show-async-msg Show asynchronous message notifications from UHD
[default=False]
--sync=SYNC Set to 'pps' to sync devices to PPS instead of
internal.
uhd_rx_nogui
GNU Radio receiver
root@kali:~# uhd_rx_nogui -h
usage: uhd_rx_nogui [-h] [-a ARGS] [--spec SPEC] [-A ANTENNA] [-f Hz] [-c Hz]
[-g dB] [-m TYPE] [-o RATE] [-r dB] [-p FREQ]
[-O AUDIO_OUTPUT] [--show-async-msg]
options:
-h, --help show this help message and exit
-a ARGS, --args ARGS UHD device address args
--spec SPEC Subdevice of UHD device where appropriate
-A ANTENNA, --antenna ANTENNA
select Rx Antenna where appropriate
-f Hz, --frequency Hz
set receive frequency to Hz
-c Hz, --calibration Hz
set frequency offset to Hz
-g dB, --gain dB set RF gain [default is midpoint]
-m TYPE, --modulation TYPE
set modulation type (AM,FM,WFM)
-o RATE, --output-rate RATE
set audio output rate to RATE
-r dB, --rf-squelch dB
set RF squelch to dB [default=-50.0]
-p FREQ, --ctcss FREQ
set CTCSS squelch to FREQ
-O AUDIO_OUTPUT, --audio-output AUDIO_OUTPUT
pcm device name. E.g., hw:0,0 or surround51 or
/dev/dsp
--show-async-msg Show asynchronous message notifications from UHD
uhd_siggen
Signal Generator using UHD hardware
root@kali:~# uhd_siggen -h
usage: uhd_siggen [-h] [-a ARGS] [--spec SPEC] [-A ANTENNA] [-s SAMP_RATE]
[-g GAIN] [-p POWER] -f FREQ [--lo-offset LO_OFFSET]
[-c CHANNELS] [--lo-export LO_EXPORT]
[--lo-source LO_SOURCE] [--otw-format {sc16,sc12,sc8}]
[--stream-args STREAM_ARGS] [-v] [--show-async-msg]
[--sync {default,pps,auto}] [--clock-source CLOCK_SOURCE]
[--time-source TIME_SOURCE] [-m AMPL] [-x WAVEFORM_FREQ]
[-y WAVEFORM2_FREQ] [--sine] [--const] [--offset OFFSET]
[--gaussian] [--uniform] [--2tone] [--sweep]
USRP Signal Generator.
options:
-h, --help show this help message and exit
USRP Arguments:
-a ARGS, --args ARGS UHD device address args
--spec SPEC Subdevice(s) of UHD device where appropriate. Use a
comma-separated list to set different boards to
different specs.
-A ANTENNA, --antenna ANTENNA
Select Tx antenna(s) where appropriate
-s SAMP_RATE, --samp-rate SAMP_RATE
Sample rate
-g GAIN, --gain GAIN Gain (default is midpoint)
-p POWER, --power POWER
(Reference) power level (in dBm). Not supported by all
devices (see UHD manual). Will fail if not supported.
Precludes --gain. Behaviour may differ between
applications.
-f FREQ, --freq FREQ Set carrier frequency to FREQ
--lo-offset LO_OFFSET
Set daughterboard LO offset to OFFSET [default=hw
default]
-c CHANNELS, --channels CHANNELS
Select Tx Channels
--lo-export LO_EXPORT
Set TwinRX LO export {None, True, False} for each
channel with a comma-separated list. None skips a
channel.
--lo-source LO_SOURCE
Set TwinRX LO source {None, internal, companion,
external} for each channel with a comma-separated
list. None skips this channel.
--otw-format {sc16,sc12,sc8}
Choose over-the-wire data format
--stream-args STREAM_ARGS
Set additional stream arguments
-v, --verbose Use verbose console output
--show-async-msg Show asynchronous message notifications from UHD
--sync {default,pps,auto}
Set to 'pps' to sync devices to PPS
--clock-source CLOCK_SOURCE
Set the clock source; typically 'internal', 'external'
or 'gpsdo'
--time-source TIME_SOURCE
Set the time source
Siggen Arguments:
-m AMPL, --amplitude AMPL
Set output amplitude to AMPL (0.0-1.0). Note that if
--power is given, UHD will attempt to match the output
power regardless of the amplitude.
-x WAVEFORM_FREQ, --waveform-freq WAVEFORM_FREQ
Set baseband waveform frequency to FREQ
-y WAVEFORM2_FREQ, --waveform2-freq WAVEFORM2_FREQ
Set 2nd waveform frequency to FREQ
--sine Generate a carrier modulated by a complex sine wave
--const Generate a constant carrier
--offset OFFSET Set waveform phase offset to OFFSET
--gaussian Generate Gaussian random output
--uniform Generate Uniform random output
--2tone Generate Two Tone signal for IMD testing
--sweep Generate a swept sine wave
uhd_siggen_gui
GNU Radio signal generator using UHD hardware
root@kali:~# uhd_siggen_gui -h
usage: uhd_siggen_gui [-h] [-a ARGS] [--spec SPEC] [-A ANTENNA] [-s SAMP_RATE]
[-g GAIN] [-p POWER] -f FREQ [--lo-offset LO_OFFSET]
[-c CHANNELS] [--lo-export LO_EXPORT]
[--lo-source LO_SOURCE] [--otw-format {sc16,sc12,sc8}]
[--stream-args STREAM_ARGS] [-v] [--show-async-msg]
[--sync {default,pps,auto}]
[--clock-source CLOCK_SOURCE]
[--time-source TIME_SOURCE] [-m AMPL] [-x WAVEFORM_FREQ]
[-y WAVEFORM2_FREQ] [--sine] [--const] [--offset OFFSET]
[--gaussian] [--uniform] [--2tone] [--sweep] [-q]
USRP Signal Generator.
options:
-h, --help show this help message and exit
USRP Arguments:
-a ARGS, --args ARGS UHD device address args
--spec SPEC Subdevice(s) of UHD device where appropriate. Use a
comma-separated list to set different boards to
different specs.
-A ANTENNA, --antenna ANTENNA
Select Tx antenna(s) where appropriate
-s SAMP_RATE, --samp-rate SAMP_RATE
Sample rate
-g GAIN, --gain GAIN Gain (default is midpoint)
-p POWER, --power POWER
(Reference) power level (in dBm). Not supported by all
devices (see UHD manual). Will fail if not supported.
Precludes --gain. Behaviour may differ between
applications.
-f FREQ, --freq FREQ Set carrier frequency to FREQ
--lo-offset LO_OFFSET
Set daughterboard LO offset to OFFSET [default=hw
default]
-c CHANNELS, --channels CHANNELS
Select Tx Channels
--lo-export LO_EXPORT
Set TwinRX LO export {None, True, False} for each
channel with a comma-separated list. None skips a
channel.
--lo-source LO_SOURCE
Set TwinRX LO source {None, internal, companion,
external} for each channel with a comma-separated
list. None skips this channel.
--otw-format {sc16,sc12,sc8}
Choose over-the-wire data format
--stream-args STREAM_ARGS
Set additional stream arguments
-v, --verbose Use verbose console output
--show-async-msg Show asynchronous message notifications from UHD
--sync {default,pps,auto}
Set to 'pps' to sync devices to PPS
--clock-source CLOCK_SOURCE
Set the clock source; typically 'internal', 'external'
or 'gpsdo'
--time-source TIME_SOURCE
Set the time source
Siggen Arguments:
-m AMPL, --amplitude AMPL
Set output amplitude to AMPL (0.0-1.0). Note that if
--power is given, UHD will attempt to match the output
power regardless of the amplitude.
-x WAVEFORM_FREQ, --waveform-freq WAVEFORM_FREQ
Set baseband waveform frequency to FREQ
-y WAVEFORM2_FREQ, --waveform2-freq WAVEFORM2_FREQ
Set 2nd waveform frequency to FREQ
--sine Generate a carrier modulated by a complex sine wave
--const Generate a constant carrier
--offset OFFSET Set waveform phase offset to OFFSET
--gaussian Generate Gaussian random output
--uniform Generate Uniform random output
--2tone Generate Two Tone signal for IMD testing
--sweep Generate a swept sine wave
GUI Arguments:
-q, --show-freq-sink Show QT Frequency Widget
gnuradio-dev
Header files for the GNU Radio software defined radio system. Since GNU Radio is a framework for development of SDR applications, you are likely to need this installed.
Part of the main gnuradio build.
Installed size: 2.57 MB
How to install: sudo apt install gnuradio-dev
Dependencies:
- gnuradio
- libboost-date-time1.83-dev
- libboost-filesystem1.83-dev
- libboost-program-options1.83-dev
- libboost-regex1.83-dev
- libboost-system1.83-dev
- libboost-test1.83-dev
- libboost-thread1.83-dev
- libcppunit-dev
- libfftw3-dev
- libgmp-dev
- libgsm1-dev
- libspdlog-dev
- libthrift-dev
- libvolk-dev
- pybind11-dev
- python3-dev
gnuradio-doc
Documentation for the GNU Radio software defined radio system in html and PDF form.
HTML docs start file:///usr/share/doc/gnuradio-doc/html/index.html
PDF docs in file:///usr/share/doc/gnuradio-doc/refman.pdf.gz
Part of the main gnuradio build.
Installed size: 300.74 MB
How to install: sudo apt install gnuradio-doc
Dependencies:
- libjs-mathjax
libgnuradio-analog3.10.9
Library for handling analog signal processing functions. These functions are also in gnuradio-core. Part of the main gnuradio build.
Installed size: 664 KB
How to install: sudo apt install libgnuradio-analog3.10.9
Dependencies:
- libc6
- libfmt9
- libgcc-s1
- libgnuradio-blocks3.10.9
- libgnuradio-fft3.10.9
- libgnuradio-pmt3.10.9
- libgnuradio-runtime3.10.9
- libspdlog1.12-fmt9
- libstdc++6
- libvolk3.1
libgnuradio-audio3.10.9
This is the gr-audio library, used to connect to audio sources (mic-in) and sinks (speaker-out) ports on a computer. The underlying hardware driver is system and OS dependent and this module should automatically discover the correct one to use. Part of the main gnuradio build.
Installed size: 588 KB
How to install: sudo apt install libgnuradio-audio3.10.9
Dependencies:
- libasound2
- libboost-thread1.83.0
- libc6
- libfmt9
- libgcc-s1
- libgnuradio-pmt3.10.9
- libgnuradio-runtime3.10.9
- libjack-jackd2-0 | libjack-0.125
- libportaudio2
- libspdlog1.12-fmt9
- libstdc++6
libgnuradio-blocks3.10.9
Some non-signal processing blocks. These functions are also in gnuradio-core. Part of the main gnuradio build.
Installed size: 3.10 MB
How to install: sudo apt install libgnuradio-blocks3.10.9
Dependencies:
- libboost-thread1.83.0
- libc6
- libfmt9
- libgcc-s1
- libgnuradio-pmt3.10.9
- libgnuradio-runtime3.10.9
- libsndfile1
- libspdlog1.12-fmt9
- libstdc++6
- libvolk3.1
libgnuradio-channels3.10.9
Some channel oriented processing blocks. These functions are also in gnuradio-core. Part of the main gnuradio build.
Installed size: 476 KB
How to install: sudo apt install libgnuradio-channels3.10.9
Dependencies:
- libc6
- libgcc-s1
- libgnuradio-analog3.10.9
- libgnuradio-blocks3.10.9
- libgnuradio-filter3.10.9
- libgnuradio-pmt3.10.9
- libgnuradio-runtime3.10.9
- libstdc++6
- libvolk3.1
libgnuradio-digital3.10.9
All the functions for doing digital modulation and demodulation, including bpsk, qpsk, gmsk and ofdm signals. Part of the main gnuradio build.
Installed size: 1.75 MB
How to install: sudo apt install libgnuradio-digital3.10.9
Dependencies:
- libc6
- libfmt9
- libgcc-s1
- libgnuradio-analog3.10.9
- libgnuradio-blocks3.10.9
- libgnuradio-filter3.10.9
- libgnuradio-pmt3.10.9
- libgnuradio-runtime3.10.9
- libspdlog1.12-fmt9
- libstdc++6
- libvolk3.1
libgnuradio-dtv3.10.9
ATSC support, gr-atsc ported to a new framework, as well as DVB-S2, DVB-T, DVB-T2 digital video broadcast standards. Part of the main gnuradio build.
Installed size: 1.41 MB
How to install: sudo apt install libgnuradio-dtv3.10.9
Dependencies:
- libc6
- libfmt9
- libgcc-s1
- libgnuradio-fec3.10.9
- libgnuradio-fft3.10.9
- libgnuradio-filter3.10.9
- libgnuradio-pmt3.10.9
- libgnuradio-runtime3.10.9
- libspdlog1.12-fmt9
- libstdc++6
- libvolk3.1
libgnuradio-fec3.10.9
Handle forward error correction processing in gnuradio. Implements the GNU Radio FEC API, supporting encoders and decoders for no-op dummmy, repetition, and convolutional classes. Part of the main gnuradio build.
Installed size: 969 KB
How to install: sudo apt install libgnuradio-fec3.10.9
Dependencies:
- libc6
- libfmt9
- libgcc-s1
- libgnuradio-blocks3.10.9
- libgnuradio-pmt3.10.9
- libgnuradio-runtime3.10.9
- libgsl27
- libspdlog1.12-fmt9
- libstdc++6
- libvolk3.1
libgnuradio-fft3.10.9
Library for Fourier transform techniques used in gnuradio. Uses single precision FFT from libfftw3-single3. Part of the main gnuradio build.
Installed size: 324 KB
How to install: sudo apt install libgnuradio-fft3.10.9
Dependencies:
- libc6
- libfftw3-single3
- libfmt9
- libgcc-s1
- libgnuradio-pmt3.10.9
- libgnuradio-runtime3.10.9
- libspdlog1.12-fmt9
- libstdc++6
- libvolk3.1
libgnuradio-filter3.10.9
Library of filter blocks used in gnuradio. Implements FIR, IIR and FFT filters, as well as Polyphase filterbank and PFB arbitrary resampler methods. Part of the main gnuradio build.
Installed size: 1.03 MB
How to install: sudo apt install libgnuradio-filter3.10.9
Dependencies:
- libc6
- libfmt9
- libgcc-s1
- libgnuradio-fft3.10.9
- libgnuradio-pmt3.10.9
- libgnuradio-runtime3.10.9
- libspdlog1.12-fmt9
- libstdc++6
- libvolk3.1
libgnuradio-iio3.10.9
Libiio is a library that has been conceived to ease the development of applications interfacing Industrial Input/Output (IIO) devices through the IIO subsystem of the Linux kernel.
The IIO blocks for GnuRadio can be used to create flowgraphs that interface IIO devices through libiio.
Part of the main gnuradio build.
Installed size: 576 KB
How to install: sudo apt install libgnuradio-iio3.10.9
Dependencies:
- libad9361-0
- libboost-thread1.83.0
- libc6
- libfmt9
- libgcc-s1
- libgnuradio-pmt3.10.9
- libgnuradio-runtime3.10.9
- libiio0
- libspdlog1.12-fmt9
- libstdc++6
- libvolk3.1
libgnuradio-network3.10.9
Library of blocks that implement UDP and TCP source and sink blocks supporting both IPv4 and IPv6. Part of the main gnuradio build.
Installed size: 660 KB
How to install: sudo apt install libgnuradio-network3.10.9
Dependencies:
- libboost-thread1.83.0
- libc6
- libfmt9
- libgcc-s1
- libgnuradio-pmt3.10.9
- libgnuradio-runtime3.10.9
- libspdlog1.12-fmt9
- libstdc++6
libgnuradio-pdu3.10.9
Protocol Data Units library provides signal processing blocks that operate on Protocol Data Unit format messages. Many such blocks are analogs of streaming API functionality. Part of the main gnuradio build.
Installed size: 672 KB
How to install: sudo apt install libgnuradio-pdu3.10.9
Dependencies:
- libc6
- libfmt9
- libgcc-s1
- libgnuradio-pmt3.10.9
- libgnuradio-runtime3.10.9
- libspdlog1.12-fmt9
- libstdc++6
libgnuradio-pmt3.10.9
Polymorphic Types are opaque data types that are designed as generic containers of data that can be safely passed around between blocks and threads in GNU Radio. Part of the main gnuradio build.
Installed size: 420 KB
How to install: sudo apt install libgnuradio-pmt3.10.9
Dependencies:
- libc6
- libgcc-s1
- libstdc++6
- libvolk3.1
libgnuradio-qtgui3.10.9
QT-based graphical sinks for gnuradio applications. Implements opengl, raster and native plotting methods, and supports a QT Style Sheet (QSS) file to adjust the look. Part of the main gnuradio build.
Installed size: 1.87 MB
How to install: sudo apt install libgnuradio-qtgui3.10.9
Dependencies:
- libc6
- libfmt9
- libgcc-s1
- libgnuradio-fft3.10.9
- libgnuradio-filter3.10.9
- libgnuradio-pmt3.10.9
- libgnuradio-runtime3.10.9
- libqt5core5a
- libqt5gui5 | libqt5gui5-gles
- libqt5widgets5
- libqwt-qt5-6
- libspdlog1.12-fmt9
- libstdc++6
- libvolk3.1
libgnuradio-runtime3.10.9
Top level component library. Defines core blocks. Handles settings for logging, performance counters, and control port. Part of the main gnuradio build.
Installed size: 2.10 MB
How to install: sudo apt install libgnuradio-runtime3.10.9
Dependencies:
- libboost-program-options1.83.0
- libboost-thread1.83.0
- libc6
- libfmt9
- libgcc-s1
- libgmp10
- libgnuradio-pmt3.10.9
- libspdlog1.12-fmt9
- libstdc++6
- libthrift-0.19.0
- libunwind8
- libvolk3.1
libgnuradio-soapy3.10.9
Soapy hardware drivers using the SoapySDR driver framework. Part of the main gnuradio build.
Installed size: 460 KB
How to install: sudo apt install libgnuradio-soapy3.10.9
Dependencies:
- libc6
- libfmt9
- libgcc-s1
- libgmp10
- libgnuradio-pmt3.10.9
- libgnuradio-runtime3.10.9
- libsoapysdr0.8
- libspdlog1.12-fmt9
- libstdc++6
libgnuradio-trellis3.10.9
Library for trellis coding modulation, including the Viterbi Algorithm, Concatenated Coding and Turbo Decoding based upon finite state machine (FSM) class. Part of the main gnuradio build.
Installed size: 1.00 MB
How to install: sudo apt install libgnuradio-trellis3.10.9
Dependencies:
- libc6
- libfmt9
- libgcc-s1
- libgnuradio-pmt3.10.9
- libgnuradio-runtime3.10.9
- libspdlog1.12-fmt9
- libstdc++6
libgnuradio-uhd3.10.9
The gnuradio interface to the UHD library to connect to and send and receive data between to the Ettus Research, LLC product line - including the USRP family of software radio peripheral devices. Part of the main gnuradio build.
Installed size: 784 KB
How to install: sudo apt install libgnuradio-uhd3.10.9
Dependencies:
- libboost-thread1.83.0
- libc6
- libfmt9
- libgcc-s1
- libgnuradio-pmt3.10.9
- libgnuradio-runtime3.10.9
- libspdlog1.12-fmt9
- libstdc++6
- libuhd4.6.0
- libvolk3.1
libgnuradio-video-sdl3.10.9
Library for handling SDL (Simple DirectMedia Layer) video data. Implements input and output blocks. Part of the main gnuradio build.
Installed size: 240 KB
How to install: sudo apt install libgnuradio-video-sdl3.10.9
Dependencies:
- libc6
- libfmt9
- libgcc-s1
- libgnuradio-pmt3.10.9
- libgnuradio-runtime3.10.9
- libsdl1.2debian
- libspdlog1.12-fmt9
- libstdc++6
libgnuradio-vocoder3.10.9
Library of vocoder blocks, including ulaw, alaw, gsm and codec2. Debian uses external libraries for gsm and codec2.
Part of the main gnuradio build.
Installed size: 320 KB
How to install: sudo apt install libgnuradio-vocoder3.10.9
Dependencies:
- libc6
- libcodec2-1.2
- libfmt9
- libgcc-s1
- libgnuradio-pmt3.10.9
- libgnuradio-runtime3.10.9
- libgsm1
- libspdlog1.12-fmt9
- libstdc++6
libgnuradio-wavelet3.10.9
Library of Daubechies wavelet function blocks. wvps computes the Wavelet Power Spectrum from a set of wavelet coefficients.
Part of the main gnuradio build.
Installed size: 108 KB
How to install: sudo apt install libgnuradio-wavelet3.10.9
Dependencies:
- libc6
- libgcc-s1
- libgnuradio-pmt3.10.9
- libgnuradio-runtime3.10.9
- libgsl27
- libstdc++6
libgnuradio-zeromq3.10.9
0MQ messaging library support. Provide network socket endpoints for gnuradio data and message streams. PUB/SUB, PUSH/PULL, REP/REQ models supported.
Part of the main gnuradio build.
Installed size: 424 KB
How to install: sudo apt install libgnuradio-zeromq3.10.9
Dependencies:
- libc6
- libfmt9
- libgcc-s1
- libgnuradio-pmt3.10.9
- libgnuradio-runtime3.10.9
- libspdlog1.12-fmt9
- libstdc++6
- libzmq5
Updated on: 2024-Feb-16