kopia lustrzana https://github.com/projecthorus/horusdemodlib
136 wiersze
5.0 KiB
Bash
Executable File
136 wiersze
5.0 KiB
Bash
Executable File
#!/usr/bin/env bash
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#
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# Horus Binary *Triple* Decoder Script
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# Intended for situations with three payloads in the air, spaced ~10 kHz apart.
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# NOTE - Ensure your horus_demod build is from newer than ~5th April 2024, else this
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# will not work correctly!
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#
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# It also possible to extend this approach further to handle as many transmissions
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# as can be safely fitted into the receiver passband (+/- 24 kHz). Spacings of
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# 5 kHz between transmissions is possible with frequency stable transmitters (e.g. RS41s)
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# Don't try this with DFM17's, which drift a lot!
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#
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# Change directory to the horusdemodlib directory.
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# If running as a different user, you will need to change this line
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cd /home/pi/horusdemodlib/
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# The following settings are an example for a situation where there are three transmitters in the air,
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# on: 434.190 MHz, 434.200 MHz, and 434.210 MHz.
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# The *centre* frequency of the SDR Receiver, in Hz.
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# It's recommended that this not be tuned directly on top of one of the signals we want to receive,
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# as sometimes we can get a DC spike which can affect the demodulators.
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# In this example the receiver has been tuned in the middle of 2 of the signals, at 434.195 MHz.
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RXFREQ=434195000
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# Where to find the first signal - in this case at 434.190 MHz, so -5000 Hz below the centre.
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MFSK1_SIGNAL=-5000
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# Where to find the second signal - in this case at 434.200 MHz, so 5000 Hz above the centre.
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MFSK2_SIGNAL=5000
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# Where to find the third signal - in this case at 434.210 MHz, so 15000 Hz above the centre.
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MFSK3_SIGNAL=15000
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# Frequency estimator bandwidth. The wider the bandwidth, the more drift and frequency error the modem can tolerate,
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# but the higher the chance that the modem will lock on to a strong spurious signal.
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RXBANDWIDTH=8000
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# RTLSDR Device Selection
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# If you want to use a specific RTLSDR, you can change this setting to match the
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# device identifier of your SDR (use rtl_test to get a list)
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SDR_DEVICE=0
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# Receiver Gain. Set this to 0 to use automatic gain control, otherwise if running a
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# preamplifier, you may want to experiment with different gain settings to optimize
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# your receiver setup.
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# You can find what gain range is valid for your RTLSDR by running: rtl_test
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GAIN=0
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# Bias Tee Enable (1) or Disable (0)
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# NOTE: This uses the -T bias-tee option which is only available on recent versions
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# of rtl-sdr. Check if your version has this option by running rtl_fm --help and looking
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# for it in the option list.
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# If not, you may need to uninstall that version, and then compile from source: https://github.com/osmocom/rtl-sdr
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BIAS=0
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# Receiver PPM offset
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PPM=0
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# Check that the horus_demod decoder has been compiled.
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DECODER=./build/src/horus_demod
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if [ -f "$DECODER" ]; then
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echo "Found horus_demod."
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else
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echo "ERROR - $DECODER does not exist - have you compiled it yet?"
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exit 1
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fi
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# Check that bc is available on the system path.
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if echo "1+1" | bc > /dev/null; then
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echo "Found bc."
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else
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echo "ERROR - Cannot find bc - Did you install it?"
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exit 1
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fi
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# Use a local venv if it exists
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VENV_DIR=venv
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if [ -d "$VENV_DIR" ]; then
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echo "Entering venv."
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source $VENV_DIR/bin/activate
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fi
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# Calculate the frequency estimator limits for each decoder
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MFSK1_LOWER=$(echo "$MFSK1_SIGNAL - $RXBANDWIDTH/2" | bc)
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MFSK1_UPPER=$(echo "$MFSK1_SIGNAL + $RXBANDWIDTH/2" | bc)
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MFSK1_CENTRE=$(echo "$RXFREQ + $MFSK1_SIGNAL" | bc)
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MFSK2_LOWER=$(echo "$MFSK2_SIGNAL - $RXBANDWIDTH/2" | bc)
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MFSK2_UPPER=$(echo "$MFSK2_SIGNAL + $RXBANDWIDTH/2" | bc)
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MFSK2_CENTRE=$(echo "$RXFREQ + $MFSK2_SIGNAL" | bc)
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MFSK3_LOWER=$(echo "$MFSK3_SIGNAL - $RXBANDWIDTH/2" | bc)
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MFSK3_UPPER=$(echo "$MFSK3_SIGNAL + $RXBANDWIDTH/2" | bc)
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MFSK3_CENTRE=$(echo "$RXFREQ + $MFSK3_SIGNAL" | bc)
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echo "Using SDR Centre Frequency: $RXFREQ Hz."
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echo "Using MFSK1 estimation range: $MFSK1_LOWER - $MFSK1_UPPER Hz"
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echo "Using MFSK2 estimation range: $MFSK2_LOWER - $MFSK2_UPPER Hz"
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echo "Using MFSK3 estimation range: $MFSK3_LOWER - $MFSK3_UPPER Hz"
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BIAS_SETTING=""
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if [ "$BIAS" = "1" ]; then
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echo "Enabling Bias Tee."
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BIAS_SETTING=" -T"
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fi
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GAIN_SETTING=""
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if [ "$GAIN" = "0" ]; then
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echo "Using AGC."
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GAIN_SETTING=""
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else
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echo "Using Manual Gain"
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GAIN_SETTING=" -g $GAIN"
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fi
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STATS_SETTING=""
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if [ "$STATS_OUTPUT" = "1" ]; then
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echo "Enabling Modem Statistics."
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STATS_SETTING=" --stats=100"
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fi
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# Start the receive chain.
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# Note that we now pass in the SDR centre frequency ($RXFREQ) and 'target' signal frequency ($MFSK1_CENTRE)
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# to enable providing additional metadata to SondeHub
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rtl_fm -M raw -F9 -d $SDR_DEVICE -s 48000 -p $PPM $GAIN_SETTING$BIAS_SETTING -f $RXFREQ \
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| tee >($DECODER -q --stats=5 -g -m binary --fsk_lower=$MFSK1_LOWER --fsk_upper=$MFSK1_UPPER - - | python -m horusdemodlib.uploader --freq_hz $RXFREQ --freq_target_hz $MFSK1_CENTRE ) \
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| tee >($DECODER -q --stats=5 -g -m binary --fsk_lower=$MFSK3_LOWER --fsk_upper=$MFSK3_UPPER - - | python -m horusdemodlib.uploader --freq_hz $RXFREQ --freq_target_hz $MFSK3_CENTRE ) \
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>($DECODER -q --stats=5 -g -m binary --fsk_lower=$MFSK2_LOWER --fsk_upper=$MFSK2_UPPER - - | python -m horusdemodlib.uploader --freq_hz $RXFREQ ) > /dev/null |