We've been working to get Radio Astronomy working reliably in Gnuradio. A number of
folks have made some excellent contributions to this area.
Kevin Bandura and I have been working with the Green Bank Observatory to develop
horns for observation of the spiral arm structure of the Milky Way. The
guides are at http://opensourceradiotelescopes.org
The latest Gnuradio spectroscopy and event detection graphs are in the West Virginia University
contributions to GitHub; i.e.
git clone http://github.com/WVURAIL/gr-radio_astro
Follow the instructions to install the graph and build the code.
The documentation on the graphs are at:
There are some configuration files tuned with Radio Astronomy, but the event detection
code (written in C++) should have a wide applicability for detection of glitches in your
time series of samples. Attached is an image of radio transient detected in February 2019,
that has the characteristics consistent with a cosmic ray flash, that is part of our science
target.
The radio astronomy graphs have been used with Airspy, Airspy-mini, the various RTLSDR dongles, PlutoSdr and LimeSdr
hardware.
Someone in Gnuradio pointed out that a lot of our code was concerned more with post process of recorded data
than truly part of gnu radio. Now, all the post-processing code, and some documentation is obtained with
git clone http://www.github.com/glangsto/analyze
Finally, we'd like some help with one aspect of event detection.
Right now we're limited to about 6MHz bandwidth (12 MHz samples) with the existing hardware/software.
We'd like to use the Analog Devices PlutoSdr internal computer to sample at a higher data rate (50 MHz or so), but
only detect rare transients at a rate of once or twice a minute.
We'd like to update the Pluto firmware to perform this task, while simultaneously allowing Gnuradio to
run on the host pc/single board.
The code is already complete, but not ported to the PlutoSdr. Anyone interested in collaborating
on this project?
Thanks
Glen Langston
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