def __transmitSignalWithFrameSynchronization(expectedDataPosition=32 * __SYMBOL_LENGTH_IN_BITS, snr=None, offset=0, freqErr=0, phaseErr=0): modulator = Modulator(__CARRIER_FREQ, __SYMBOL_LENGTH_IN_BITS, __FI, __SAMPLING_RATE, __NUM_OF_PERIODS_IN_SYMBOL) demodulator = Demodulator(__CARRIER_FREQ, __SYMBOL_LENGTH_IN_BITS, __FI, __SAMPLING_RATE, __NUM_OF_PERIODS_IN_SYMBOL) channel = RadioChannel() frameSync = FrameSynchronization(modulator.modulate(__HEADER), __SYMBOL_LENGTH_IN_BITS) signal = modulator.modulate(__FRAME) transmittedSignal = channel.transmit(signal, snr=snr, signalOffset=offset, freqErr=freqErr, phaseErr=phaseErr) dataPosition = frameSync.synchronizeFrame(transmittedSignal) assert (dataPosition == expectedDataPosition + offset) demodulatedBits = demodulator.demodulate(transmittedSignal[dataPosition:]) return demodulatedBits
def __transmitSignalWithFrameSynchronization(expectedDataPosition=32 * __SYMBOL_LENGTH_IN_BITS, snr=None, offset=0, freqErr=0, phaseErr=0): modulator = Modulator(__CARRIER_FREQ, __SYMBOL_LENGTH_IN_BITS, __FI, __SAMPLING_RATE) demodulator = Demodulator(__CARRIER_FREQ, __SYMBOL_LENGTH_IN_BITS, __FI, __SAMPLING_RATE) channel = RadioChannel(__SAMPLING_RATE) frameSync = FrameSynchronization(modulator.modulate(__START_HEADER), modulator.modulate(__END_HEADER), __SYMBOL_LENGTH_IN_BITS, __SAMPLING_RATE) modulatedSignal = modulator.modulate(__FRAME) transmittedSignal = channel.transmit(modulatedSignal, snr=snr, signalOffset=offset, freqErr=freqErr, phaseErr=phaseErr) dataPosition = frameSync.synchronizeStartHeader(transmittedSignal) dataEndPosition = frameSync.synchronizeStopHeader(transmittedSignal) assert (dataPosition == expectedDataPosition + offset) transmittedSignal = frameSync.correctFreqAndPhase( transmittedSignal[dataPosition:dataEndPosition]) demodulatedBits = demodulator.demodulate(transmittedSignal) return demodulatedBits
def __transmitSignal(samplingError, offset, snr, attenuation, freqErr, phaseErr): modulator = Modulator(__CARRIER_FREQ, __SYMBOL_LENGTH_IN_BITS, __FI, __SAMPLING_RATE) demodulator = Demodulator(__CARRIER_FREQ, __SYMBOL_LENGTH_IN_BITS, __FI, __SAMPLING_RATE) channel = RadioChannel(__SAMPLING_RATE) frameSync = FrameSynchronization(modulator.modulate(__HEADER), modulator.modulate(__END_HEADER), __SYMBOL_LENGTH_IN_BITS, __SAMPLING_RATE) timeRecover = TimingRecovery(__SYMBOL_LENGTH_IN_BITS) modulationStart = time.time() modulatedSignal = modulator.modulate(__FRAME) assert(time.time() - modulationStart < 1 / 25) transmittedSignal = channel.transmit(modulatedSignal, signalOffset=offset, adcSamplingErr=samplingError, snr=snr, channelAttenuation=attenuation, freqErr=freqErr, phaseErr=phaseErr) synchronizationStart = time.time() dataPosition = frameSync.synchronizeStartHeader(transmittedSignal) dataEndPosition = frameSync.synchronizeStopHeader(transmittedSignal[dataPosition:]) transmittedSignal = frameSync.correctFreqAndPhase(transmittedSignal[dataPosition:dataPosition + dataEndPosition]) transmittedSignal = timeRecover.synchronizeTiming(transmittedSignal) demodulatedBits = demodulator.demodulate(transmittedSignal) assert (time.time() - synchronizationStart < 1 / 25) return demodulatedBits
def __transmitSignalWithFrameSynchronizationAndSamplingError(samplingError, offset, snr=None): modulator = Modulator(__CARRIER_FREQ, __SYMBOL_LENGTH_IN_BITS, __SAMPLING_RATE) demodulator = Demodulator(__CARRIER_FREQ, __SYMBOL_LENGTH_IN_BITS, __SAMPLING_RATE) channel = RadioChannel(__SAMPLING_RATE) frameSync = FrameSynchronization(modulator.modulate(__START_HEADER), modulator.modulate(__END_HEADER), __SYMBOL_LENGTH_IN_BITS, __SAMPLING_RATE) timeRecover = TimingRecovery(__SYMBOL_LENGTH_IN_BITS) modulatedSignal = modulator.modulate(__FRAME) transmittedSignal = channel.transmit(modulatedSignal, signalOffset=offset, adcSamplingErr=samplingError, snr=snr) dataPosition = frameSync.synchronizeStartHeader(transmittedSignal) dataEndPosition = frameSync.synchronizeStopHeader(transmittedSignal) transmittedSignal = transmittedSignal[dataPosition:dataEndPosition] transmittedSignal = timeRecover.synchronizeTiming(transmittedSignal) demodulatedBits = demodulator.demodulate(transmittedSignal) return demodulatedBits
def __modulateAndDemodulate(snr=None, attenuation=1): modulator = Modulator(__CARRIER_FREQ, __SYMBOL_LENGTH_IN_BITS, __FI, __SAMPLING_RATE, __NUM_OF_PERIODS_IN_SYMBOL) demodulator = Demodulator(__CARRIER_FREQ, __SYMBOL_LENGTH_IN_BITS, __FI, __SAMPLING_RATE, __NUM_OF_PERIODS_IN_SYMBOL) channel = RadioChannel() signal = modulator.modulate(__BITS) transmittedSignal = channel.transmit(signal, snr, channelAttenuation=attenuation) demodulatedBits = demodulator.demodulate(transmittedSignal) return demodulatedBits
def __transmitSignalWithTimingSynchronization(samplingErr): modulator = Modulator(__CARRIER_FREQ, __SYMBOL_LENGTH_IN_BITS, __FI, __SAMPLING_RATE) demodulator = Demodulator(__CARRIER_FREQ, __SYMBOL_LENGTH_IN_BITS, __FI, __SAMPLING_RATE) timeRecover = TimingRecovery(__SYMBOL_LENGTH_IN_BITS) channel = RadioChannel(__SAMPLING_RATE) signal = modulator.modulate(__BITS) transmittedSignal = channel.transmit(signal, adcSamplingErr=samplingErr, snr=10) transmittedSignal = timeRecover.synchronizeTiming(transmittedSignal) demodulatedBits = demodulator.demodulate(transmittedSignal) return demodulatedBits
def shouldRemoveFirstBitFromOtherSymbol(): #TODO: Camcore fix this shit modulator = Modulator(__CARRIER_FREQ, __SYMBOL_LENGTH_IN_BITS, __FI, __SAMPLING_RATE, __NUM_OF_PERIODS_IN_SYMBOL) demodulator = Demodulator(__CARRIER_FREQ, __SYMBOL_LENGTH_IN_BITS, __FI, __SAMPLING_RATE, __NUM_OF_PERIODS_IN_SYMBOL) timeRecover = TimingRecovery(__BUFFER_SIZE, __SYMBOL_LENGTH_IN_BITS) channel = RadioChannel() signal = modulator.modulate(__BITS) transmittedSignal = channel.transmit(signal, snr=3, signalOffset=2) recoveredSignal, rest = timeRecover.recoverTime(transmittedSignal) recoveredSignal.extend(rest) demodulatedBits = demodulator.demodulate(recoveredSignal) properBits = __BITS corruptedBits = 0 for i in range(int(len(demodulatedBits))): if demodulatedBits[i] != properBits[i]: corruptedBits += 2 if int(len(properBits) ) <= i + 2 and demodulatedBits[i] == properBits[i + 2]: del properBits[i] del properBits[i + 1]
class Receiver: def __init__(self, sampleRate, carrierFreq, symbolLength, frameSize): self.sampleRate = sampleRate self.carrierFreq = carrierFreq self.symbolLength = symbolLength self.frameSizeInBits = frameSize * 8 / 2 self.headerStart = [ 0, 0, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 0, 0, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 0, 0 ] self.headerEnd = [ 1, 1, 0, 0, 0, 0, 0, 1, 1, 0, 0, 1, 1, 1, 0, 0, 1, 1, 1, 0, 1, 0, 0, 1, 1, 1, 0, 0, 0, 0, 0, 1, 1, 0, 0, 1, 1, 1, 1, 1, 0, 1, 1, 0, 0, 1, 0, 0, 0, 0, 1, 1, 0, 1, 1, 0, 1, 0, 1, 1, 0, 0, 1, 1, 0, 1, 1, 0, 0, 1, 0, 0, 0, 0, 1, 1 ] self.rtl = RtlSdr() self.rtl.sample_rate = self.sampleRate self.rtl.center_freq = self.carrierFreq self.demodulator = Demodulator(self.carrierFreq, self.symbolLength, self.sampleRate) self.modulator = Modulator(self.carrierFreq, self.symbolLength, self.sampleRate) self.frameSync = FrameSynchronization( self.modulator.modulate(self.headerStart), self.modulator.modulate(self.headerEnd), self.symbolLength, self.sampleRate) self.timeRecover = TimingRecovery(self.symbolLength) self.rtlSamples = Queue() self.frames = Queue() self.previousData = Queue(1) self.previousData.put([0]) self.data = Queue() self.threads = [] self.threads.append(threading.Thread(target=self.receive)) self.threads.append(threading.Thread(target=self.findFrame)) self.threads.append(threading.Thread(target=self.processData)) self.threads.append(threading.Thread(target=self.playSound)) for th in self.threads: th.start() def receive(self): def rtl_callback(samples, rtlsdr_obj): self.rtlSamples.put(samples) self.rtl.read_samples_async(rtl_callback, self.sampleRate / 10) def findFrame(self): currentData = self.rtlSamples.get() prevData = self.previousData.get() data = np.append(prevData, currentData) dataPosition = self.frameSync.synchronizeStartHeader(data) dataEndPosition = self.frameSync.synchronizeStopHeader( data[dataPosition:]) if abs(dataEndPosition - self.frameSizeInBits) <= self.frameSizeInBits / 10: print("Frame found. Size = " + str(dataEndPosition)) self.previousData.put(data[dataPosition + dataEndPosition:]) self.frames.put(data[dataPosition:dataPosition + dataEndPosition]) else: self.previousData.put(currentData) def processData(self): data = self.frames.get() data = self.frameSync.correctFreqAndPhase(data) data = self.timeRecover.synchronizeTiming(data) data = self.demodulator.demodulate(data) self.data.put(data) def playSound(self): dataToPlay = self.data.get() #TODO: write func return
import numpy as np from QPSK.Demodulator import Demodulator from QPSK.Modulator import Modulator from Transmission.Transmitter import Transmitter __BITS = np.random.randint(2, size=200).tolist() __CARRIER_FREQ = 2000000000 __NUM_OF_PERIODS_IN_SYMBOL = 2 __SYMBOL_LENGTH_IN_BITS = 32 __FI = 0 __SAMPLING_RATE = 3000000 # __SAMPLING_RATE = __CARRIER_FREQ * __SYMBOL_LENGTH_IN_BITS / __NUM_OF_PERIODS_IN_SYMBOL modulator = Modulator(__CARRIER_FREQ, __SYMBOL_LENGTH_IN_BITS, __SAMPLING_RATE) demodulator = Demodulator(__CARRIER_FREQ, __SYMBOL_LENGTH_IN_BITS, __SAMPLING_RATE) transmitter = Transmitter(__SAMPLING_RATE, __CARRIER_FREQ, __SYMBOL_LENGTH_IN_BITS) modulatedSig = modulator.modulate(__BITS) transmitter.transmit(modulatedSig) demodulatedBits = demodulator.demodulate(modulatedSig)
class Transmitter: def __init__(self, sample_rate, carrier_freq, symbol_length): self.sampleRate = sample_rate self.carrierFreq = carrier_freq self.symbolLength = symbol_length self.modulator = Modulator(carrier_freq, self.symbolLength, self.sampleRate) self.modulatedStartHeader = self.modulator.modulate(headerStart) self.modulatedEndHeader = self.modulator.modulate(headerEnd) self.pluto = adi.Pluto() # self.pluto.tx_rf_bandwidth self.pluto.tx_lo = self.carrierFreq self.pluto.tx_enabled_channels = [0, 1] self.pluto.sample_rate = self.sampleRate self.recordedDataQueue = Queue() self.modulatedDataQueue = Queue() self.dataToTransmit = Queue() self.threads = [] self.threads.append( threading.Thread(target=self.record(), name="micRecorder")) self.threads.append( threading.Thread(target=self.modulateData(), name="modulateData")) self.threads.append( threading.Thread(target=self.prepareDataToTransmit(), name="prepareDataToTransmit")) self.threads.append( threading.Thread(target=self.transmit(), name="transmitter")) for th in self.threads: th.start() def record(self): def callback(): self.recordedDataQueue.put(0) #TODO: writeFunc of record from mic data = "" self.recordedDataQueue.put(data) pass def modulateData(self): if self.recordedDataQueue.not_empty: data = self.recordedDataQueue.get() self.recordedDataQueue.mutex.release() modulatedData = self.modulator.modulate(data) self.modulatedDataQueue.put(modulatedData) def prepareDataToTransmit(self): if self.modulatedDataQueue.qsize() > 1024: data = self.modulatedDataQueue.get() preparedData = self.modulatedStartHeader + data + self.modulatedEndHeader self.dataToTransmit.put(preparedData) def transmit(self, data): self.pluto.tx(data) def transmit(self): if self.dataToTransmit.not_empty: data = self.dataToTransmit.get() self.pluto.tx_destroy_buffer() self.pluto.tx(data) self.dataToTransmit.mutex.release()
__CARRIER_FREQ = 100 __NUM_OF_PERIODS_IN_SYMBOL = 2 __SYMBOL_LENGTH_IN_BITS = 32 __FI = 0 __SAMPLING_RATE = __CARRIER_FREQ * __SYMBOL_LENGTH_IN_BITS / __NUM_OF_PERIODS_IN_SYMBOL def changeBitsToPolar(bits): resultBits = [] for i in range(0, len(bits)): bit = bits[i] if bit == 0: bit = -1 resultBits.append(bit) return resultBits recorder = Recorder(chunk, sample_format, channels, fs, seconds, p, stream, filename) inputBits = recorder.record() modulator = Modulator(__CARRIER_FREQ, __SYMBOL_LENGTH_IN_BITS, __FI, __NUM_OF_PERIODS_IN_SYMBOL) demodulator = Demodulator(__CARRIER_FREQ, __SYMBOL_LENGTH_IN_BITS, __FI, __SAMPLING_RATE, __NUM_OF_PERIODS_IN_SYMBOL) modulatedSig = modulator.modulate(inputBits) demodulatedBits = demodulator.demodulate(modulatedSig) sd.play(changeBitsToPolar(demodulatedBits), fs)
def __modulateSignal(): modulator = Modulator(__CARRIER_FREQ, __SYMBOL_LENGTH_IN_BITS, __FI, __SAMPLING_RATE) return modulator.modulate(__BITS)