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LSTM Autoencoder using Keras
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| from keras.layers import LSTM, Dense, RepeatVector, TimeDistributed | |
| from keras.models import Sequential | |
| class LSTM_Autoencoder: | |
| def __init__(self, optimizer='adam', loss='mse'): | |
| self.optimizer = optimizer | |
| self.loss = loss | |
| self.n_features = 1 | |
| def build_model(self): | |
| timesteps = self.timesteps | |
| n_features = self.n_features | |
| model = Sequential() | |
| # Encoder | |
| model.add(LSTM(timesteps, activation='relu', input_shape=(timesteps, n_features), return_sequences=True)) | |
| model.add(LSTM(16, activation='relu', return_sequences=True)) | |
| model.add(LSTM(1, activation='relu')) | |
| model.add(RepeatVector(timesteps)) | |
| # Decoder | |
| model.add(LSTM(timesteps, activation='relu', return_sequences=True)) | |
| model.add(LSTM(16, activation='relu', return_sequences=True)) | |
| model.add(TimeDistributed(Dense(n_features))) | |
| model.compile(optimizer=self.optimizer, loss=self.loss) | |
| model.summary() | |
| self.model = model | |
| def fit(self, X, epochs=3, batch_size=32): | |
| self.timesteps = X.shape[1] | |
| self.build_model() | |
| input_X = np.expand_dims(X, axis=2) | |
| self.model.fit(input_X, input_X, epochs=epochs, batch_size=batch_size) | |
| def predict(self, X): | |
| input_X = np.expand_dims(X, axis=2) | |
| output_X = self.model.predict(input_X) | |
| reconstruction = np.squeeze(output_X) | |
| return np.linalg.norm(X - reconstruction, axis=-1) | |
| def plot(self, scores, timeseries, threshold=0.95): | |
| sorted_scores = sorted(scores) | |
| threshold_score = sorted_scores[round(len(scores) * threshold)] | |
| plt.title("Reconstruction Error") | |
| plt.plot(scores) | |
| plt.plot([threshold_score]*len(scores), c='r') | |
| plt.show() | |
| anomalous = np.where(scores > threshold_score) | |
| normal = np.where(scores <= threshold_score) | |
| plt.title("Anomalies") | |
| plt.scatter(normal, timeseries[normal][:,-1], s=3) | |
| plt.scatter(anomalous, timeseries[anomalous][:,-1], s=5, c='r') | |
| plt.show() | |
| lstm_autoencoder = LSTM_Autoencoder(optimizer='adam', loss='mse') | |
| lstm_autoencoder.fit(normal_timeseries, epochs=3, batch_size=32) | |
| scores = lstm_autoencoder.predict(test_timeseries) | |
| lstm_autoencoder.plot(scores, test_timeseries, threshold=0.95) |
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Hi @miladgoodarzi, you can consider iterating through model.layers. Reference: https://stackoverflow.com/questions/50151157/keras-how-to-get-layer-index-when-already-know-layer-name. Cheers!