I made the following neural network model for sound recognition purpose. The flowchart is like the following:
The idea is the following:
I have 2 different input layers, called A and B.
(i) Input A has 100 time steps, each step has a 64-dimensional feature vector
(ii)A 1D CNN layer(Time distributed) will extract features from each time step. The CNN layer contains 64 filters, each has length 16 taps. Then, a maxpooling layer will extract the single maximum value of each convolutional output, so a total of 64 features will be extracted at each time step.
(iii) The output of the CNN layer will be fed into an LSTM layer with 64 neurons. Number of recurrence is the same as time step of input, which is 100 time steps. The LSTM layer should return a sequence of 64-dimensional output (the length of sequence == number of time steps == 100, so there should be 100*64=6400 numbers).
(iv) Meanwhile, input B also has 100 time steps, each step has a 65-dimensional feature vector, but they are treated differently from input A.
(v)Input B is fed into a dense layer (Time distributed) of 65 neurons, so it should produce a 65-dimensional output at each time step.
Now, at each time step, we have output from LSTM layer (64 neurons) and Dense layer (65 neurons), we concatenate them in a merge layer. Now we get a 129-dimensional vector at each time step.
- We feed this vector into another dense layer, which produces the output (single neuron, which represents the probability of "is target sound")
However, I am stuck at the very beginning trying to make 1(i) work. The code of network building is below:
mfcc_input = Input(shape=(100,64), dtype='float', name='mfcc_input') print(mfcc_input) CNN_out = TimeDistributed(Conv1D(64, 16, activation='relu'))(mfcc_input) CNN_out = BatchNormalization(axis=-1, momentum=0.99, epsilon=0.001, center=True, scale=True)(CNN_out) CNN_out = TimeDistributed(MaxPooling1D(pool_size=(64-16+1), strides=None, padding='valid'))(CNN_out) CNN_out = Dropout(0.4)(CNN_out) LSTM_out = LSTM(64,return_sequences=True)(CNN_out) ## Auxilliary branch delta_input = Input(shape=(100,64), dtype='float', name='delta_input') zcr_input = Input(shape=(100,1), dtype='float', name='zcr_input') aux_input = concatenate([delta_input, zcr_input]) aux_out = TimeDistributed(Dense(64+1))(aux_input) ### Merge branches merged_layer = concatenate([LSTM_out, aux_out]) ## Output layer output = TimeDistributed(Dense(1))(merged_layer) model = Model(inputs=[mfcc_input, delta_input, zcr_input], outputs=[output]) model.compile(optimizer='rmsprop', loss='binary_crossentropy', loss_weights=[1., 0.2]) ...(other code here) ...
The error at "CNN_out = TimeDistributed(Conv1D(64, 16, activation='relu'))(mfcc_input)" is: IndexError: list index out of range
Anyone could help? Greatly appreciate!