860395a997
Update the obsolete flowgraphs and update the existing with the new decoding architecture blocks. Client should not have big problems with the new decoders as we utilizing the multiformat frame sink that takes care of it. This is just a work around for testing as we move forward for fully socket-based communication with the client |
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.. | ||
CMakeLists.txt | ||
README.md | ||
amsat_fox_duv_decoder.grc | ||
meteor_decoder.grc | ||
noaa_apt_decoder.grc | ||
reaktor_hello_world_fsk9600_decoder.grc | ||
satnogs_amsat_fox_duv_decoder.py | ||
satnogs_meteor_decoder.py | ||
satnogs_noaa_apt_decoder.py | ||
satnogs_reaktor_hello_world_fsk9600_decoder.py |
README.md
SatNOGS NOAA APT Decoder
--antenna
: Specify the RX antenna of SDR device
--bb-gain
: Specify the baseband (BB )gain of the SDR device
--dev-args
: Set device specific arguments
--doppler-correction-per-sec
: Doppler corrections per second
--file-path
: File path of the output audio file
--if-gain
: Specify the intermediate frequency (IF) gain of the SDR device
--image-file-path
: File path of the output image file(s)
--lo-offset
: Local oscillator offset
--ppm
: Set PPM
--rf-gain
: Specify the radio frequency (RF) gain of the SDR device
--rigctl-port
: Specify the listening port of the rigctl daemon (rigctld)
--rx-freq
: Set the target frequency of the satellite
--rx-sdr-device
: Specify the RX SDR device. Possible values: ['usrpb200','usrp2','rtlsdr','airspy','hackrf']
--waterfall-file-path
: File path of the output waterfall data file
--split-images
: Split the two images contained in the received image. Use 1 for Yes, 0 for No
--sync
: Synchronize image to the APT training sequence. Use 1 for Yes, 0 for No
--flip-images
: Rotate images 180 degrees. Use 1 for Yes, 0 for No