Exemple #1
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    def test(self,alpha,GSNR_low,GSNR_up,interval,test_batch,num_words):
        SNR_dB_start_Eb = GSNR_low
        SNR_dB_stop_Eb = GSNR_up
        SNR_points = interval
        SNR_dB_start_Es = SNR_dB_start_Eb + 10 * np.log10(self.k / self.N)
        SNR_dB_stop_Es = SNR_dB_stop_Eb + 10 * np.log10(self.k / self.N)
        SNRs = np.linspace(SNR_dB_start_Eb, SNR_dB_stop_Eb, SNR_points)

        sigma_start = np.sqrt(1 / (2 * 10 ** (SNR_dB_start_Es / 10)))
        sigma_stop = np.sqrt(1 / (2 * 10 ** (SNR_dB_stop_Es / 10)))
        sigmas = np.linspace(sigma_start, sigma_stop, SNR_points)

        nb_errors = np.zeros(len(sigmas), dtype=int)
        nb_bits = np.zeros(len(sigmas), dtype=int)
        ber = np.zeros(len(sigmas), dtype=float)
        seedrand = np.zeros(100, dtype=int)

        for sr in range(1, 100):
            seedrand[sr] = np.random.randint(0, 2 ** 14, size=(1))  # seedrand[sr-1]+1
        for i in range(0, len(sigmas)):  # different  SNR
            scale = CommFunc.CalScale(SNRs[i], alpha, self.R)
            # print("GSNR={},scale={}".format(SNRs[i], scale))
            for ii in range(0, np.round(num_words / test_batch).astype(int)):
                # Source
                x_test, d_test=Data.genRanData(self.k, self.N, test_batch, seedrand[ii])
                # Modulator (BPSK)
                s_test = -2 * x_test + 1
                # Channel (alpha-stable)
                y_test = s_test + levy_stable.rvs(alpha, 0, 0, scale, (test_batch, self.N))
                # Decoder
                nb_errors[i] += self.decoder.evaluate(y_test, d_test, batch_size=test_batch, verbose=2)[2]
                nb_bits[i] += d_test.size
                ber = np.float32(nb_errors/nb_bits)
        return ber
Exemple #2
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    def train(self, epochs=2**16, batch_size=256, GSNR=1, verbose=1):
        scale_train = CommFunc.CalScale(GSNR, self.alpha_train, self.R)
        noise_layers = [
            Lambda(CommFunc.addNoise, arguments={'sigma': scale_train, 'alpha_train': self.alpha_train},
                   input_shape=(self.N,), output_shape=self.return_output_shape, name="noise")]
        noise = self.compose_model(noise_layers)
        noise.compile(optimizer=self.optimizer, loss=self.loss)

        model_layers = self.modulator_layers + noise_layers + self.decoder_layers
        model = self.compose_model(model_layers)
        model.compile(optimizer=self.optimizer, loss=self.loss, metrics=[metrics.BER])
        model.summary()
        # generate training data
        X_train, Y_train = Data.genData(self.k, self.N, batch_size)
        X_val, Y_val = Data.genData(self.k, self.N, batch_size)
        t = time()
        history = self.model.fit(X_train, Y_train,
                                 validation_data=[X_val,Y_val],
                                 batch_size=batch_size,
                                 epochs=epochs,
                                 verbose=verbose,
                                 shuffle=True)
        t=time()-t
        print("Time Used:{}s = {}min".format(t, t / 60))
        return self.model,history
Exemple #3
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 def __init__(self, alpha=1.8, GSNR = 1):
     self.k = 8
     self.N = 16
     self.R = self.k/self.N
     self.optimizer = Adam(0.0002, 0.5)
     self.loss = 'binary_crossentropy'
     self.alpha_train = alpha
     self.GSNR_train = GSNR
     self.scale_train=CommFunc.CalScale(self.GSNR_train,self.alpha_train,self.R)
     self.design = [256, 128, 32]
     self.model, self.modulator_layers, self.noise, self.decoder_layers, self.decoder = self.build_Decoder()
     np.seterr(divide='ignore', invalid='ignore')
Exemple #4
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 def __init__(self, alpha=1.8, GSNR=1, addPCL=False, addRanPCL=False):
     self.k = 8
     self.N = 16
     self.R = self.k / self.N
     self.optimizer = Adam(0.0002, 0.5)
     self.loss = 'binary_crossentropy'
     self.GSNR_train = GSNR
     self.alpha_train = alpha
     self.scale_train = CommFunc.CalScale(self.GSNR_train, self.alpha_train,
                                          self.R)
     self.model, self.modulator_layers, self.noise, self.decoder_layers, self.decoder = self.build_Decoder(
         addPCL, addRanPCL)