fix: try to implement the NN correctly
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.idea/.gitignore
vendored
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.idea/.gitignore
vendored
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# Default ignored files
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/shelf/
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/workspace.xml
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# Datasource local storage ignored files
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/dataSources/
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/dataSources.local.xml
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# Editor-based HTTP Client requests
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/httpRequests/
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.idea/Slovakia 2021.iml
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.idea/Slovakia 2021.iml
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<?xml version="1.0" encoding="UTF-8"?>
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<module type="PYTHON_MODULE" version="4">
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<component name="NewModuleRootManager">
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<content url="file://$MODULE_DIR$" />
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<orderEntry type="inheritedJdk" />
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<orderEntry type="sourceFolder" forTests="false" />
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</component>
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</module>
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.idea/encodings.xml
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.idea/encodings.xml
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<?xml version="1.0" encoding="UTF-8"?>
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<project version="4">
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<component name="Encoding" addBOMForNewFiles="with NO BOM" />
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</project>
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.idea/inspectionProfiles/profiles_settings.xml
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.idea/inspectionProfiles/profiles_settings.xml
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<component name="InspectionProjectProfileManager">
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<settings>
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<option name="USE_PROJECT_PROFILE" value="false" />
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<version value="1.0" />
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</settings>
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</component>
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.idea/misc.xml
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.idea/misc.xml
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<?xml version="1.0" encoding="UTF-8"?>
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<project version="4">
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<component name="ProjectRootManager" version="2" project-jdk-name="Python 3.6 (Slovakia 2021)" project-jdk-type="Python SDK" />
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</project>
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.idea/modules.xml
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.idea/modules.xml
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<?xml version="1.0" encoding="UTF-8"?>
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<project version="4">
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<component name="ProjectModuleManager">
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<modules>
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<module fileurl="file://$PROJECT_DIR$/.idea/Slovakia 2021.iml" filepath="$PROJECT_DIR$/.idea/Slovakia 2021.iml" />
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</modules>
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</component>
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</project>
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.idea/other.xml
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.idea/other.xml
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<?xml version="1.0" encoding="UTF-8"?>
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<project version="4">
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<component name="PySciProjectComponent">
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<option name="PY_SCI_VIEW_SUGGESTED" value="true" />
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</component>
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</project>
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.idea/vcs.xml
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.idea/vcs.xml
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<?xml version="1.0" encoding="UTF-8"?>
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<project version="4">
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<component name="VcsDirectoryMappings">
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<mapping directory="$PROJECT_DIR$" vcs="Git" />
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<mapping directory="$PROJECT_DIR$/python_speech_features" vcs="Git" />
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</component>
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</project>
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@ -610,15 +610,10 @@ class DL_data_handler:
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test_df_for_bugs(signal, key, i)
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# extract mfcc
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#n_fft = MFCC_WINDOWSIZE * sample_rate
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#hop_length = MFCC_STEPSIZE * sample_rate
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#mfcc = librosa.feature.mfcc(signal, sample_rate, n_mfcc=NR_COEFFICIENTS, n_fft=n_fft, hop_length=hop_length)
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mfcc = mfcc_custom(signal, sample_rate, MFCC_WINDOWSIZE, MFCC_STEPSIZE, NR_COEFFICIENTS, NR_MEL_BINS)
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mfcc = mfcc.T
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#print(len(mfcc))
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# store only mfcc feature with expected number of vectors
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#if len(mfcc) == num_mfcc_vectors_per_segment:
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data["mfcc"].append(mfcc.tolist())
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data["labels"].append(key)
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print("sample:{}".format(i+1))
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@ -1,12 +1,14 @@
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import json
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import numpy as np
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from sklearn.model_selection import train_test_split
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import tensorflow.keras as keras
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import tensorflow as tf
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import tf.keras as keras
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from pathlib import Path
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import pandas as pd
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import matplotlib.pyplot as plt
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# path to json file that stores MFCCs and genre labels for each processed segment
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DATA_PATH = str(Path.cwd()) + "mfcc_data.json"
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# path to json file that stores MFCCs and subject labels for each processed sample
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DATA_PATH = str(Path.cwd()) + "/mfcc_data.json"
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def load_data(data_path):
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@ -16,38 +18,102 @@ def load_data(data_path):
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# convert lists to numpy arrays
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X = np.array(data["mfcc"])
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y = np.array(data["labels"])
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#X = np.asarray(X).astype('float32')
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#y = np.asarray(y).astype('float32')
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#y = tf.expand_dims(y, axis=1)
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print("Data succesfully loaded!")
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return X, y
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def plot_history(history):
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"""Plots accuracy/loss for training/validation set as a function of the epochs
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:param history: Training history of model
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:return:
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"""
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if __name__ == "__main__":
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fig, axs = plt.subplots(2)
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# create accuracy sublpot
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axs[0].plot(history.history["accuracy"], label="train accuracy")
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axs[0].plot(history.history["val_accuracy"], label="test accuracy")
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axs[0].set_ylabel("Accuracy")
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axs[0].legend(loc="lower right")
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axs[0].set_title("Accuracy eval")
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# create error sublpot
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axs[1].plot(history.history["loss"], label="train error")
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axs[1].plot(history.history["val_loss"], label="test error")
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axs[1].set_ylabel("Error")
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axs[1].set_xlabel("Epoch")
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axs[1].legend(loc="upper right")
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axs[1].set_title("Error eval")
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plt.show()
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def prepare_datasets(test_size=0.25, validation_size=0.2):
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"""Loads data and splits it into train, validation and test sets.
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:param test_size (float): Value in [0, 1] indicating percentage of data set to allocate to test split
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:param validation_size (float): Value in [0, 1] indicating percentage of train set to allocate to validation split
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:return X_train (ndarray): Input training set
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:return X_validation (ndarray): Input validation set
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:return X_test (ndarray): Input test set
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:return y_train (ndarray): Target training set
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:return y_validation (ndarray): Target validation set
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:return y_test (ndarray): Target test set
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"""
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# load data
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X, y = load_data(DATA_PATH)
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# create train/test split
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X_train, X_test, y_train, y_test = train_test_split(X, y, test_size=0.3)
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# create train, validation and test split
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X_train, X_test, y_train, y_test = train_test_split(X, y, test_size=test_size)
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X_train, X_validation, y_train, y_validation = train_test_split(X_train, y_train, test_size=validation_size)
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return X_train, X_validation, X_test, y_train, y_validation, y_test
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def build_model(input_shape, nr_classes=5):
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"""Generates RNN-LSTM model
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:param input_shape (tuple): Shape of input set
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:return model: RNN-LSTM model
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"""
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# build network topology
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model = keras.Sequential([
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model = keras.Sequential()
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# input layer
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keras.layers.Flatten(input_shape=(X.shape[1], X.shape[2])),
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# 2 LSTM layers
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model.add(keras.layers.LSTM(64, input_shape=input_shape, return_sequences=True))
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model.add(keras.layers.LSTM(64))
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# 1st dense layer
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keras.layers.Dense(512, activation='relu'),
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# 2nd dense layer
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keras.layers.Dense(256, activation='relu'),
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# 3rd dense layer
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keras.layers.Dense(64, activation='relu'),
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# dense layer
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model.add(keras.layers.Dense(64, activation='relu'))
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model.add(keras.layers.Dropout(0.3))
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# output layer
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keras.layers.Dense(10, activation='softmax')
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])
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model.add(keras.layers.Dense(nr_classes, activation='softmax'))
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return model
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if __name__ == "__main__":
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# get train, validation, test splits
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X_train, X_validation, X_test, y_train, y_validation, y_test = prepare_datasets(0.25, 0.2)
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# create network
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print(X_train.shape)
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X_train = np.reshape(X_train, (X_train.shape[0], 1, X_train.shape[1]))
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X_test = np.reshape(X_test, (X_test.shape[0], 1, X_test.shape[1]))
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#X_validation = np.reshape(X_validation, (X_test.shape[0], 1, X_test.shape[1]))
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print(X_train.shape)
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print(X_train.shape[0])
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print(X_train.shape[1])
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input_shape = (X_train.shape[1], X_train.shape[2]) # 300, 13
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model = build_model(input_shape)
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# compile model
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optimiser = keras.optimizers.Adam(learning_rate=0.0001)
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@ -58,4 +124,12 @@ if __name__ == "__main__":
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model.summary()
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# train model
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history = model.fit(X_train, y_train, validation_data=(X_test, y_test), batch_size=32, epochs=50)
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history = model.fit(X_train, y_train, validation_data=(X_validation, y_validation), batch_size=16, epochs=30)
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# plot accuracy/error for training and validation
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plot_history(history)
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# evaluate model on test set
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test_loss, test_acc = model.evaluate(X_test, y_test, verbose=2)
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print('\nTest accuracy:', test_acc)
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mfcc_data.json
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mfcc_data.json
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