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Hi I was trying to train a cancer dataset, using the Resnet neural network by using the fine-tuning approach

Here is how I used to fine-tune it.

image_input = Input(shape=(224, 224, 3))

model = ResNet50(input_tensor=image_input, include_top=True,weights='imagenet')
model.summary()
last_layer = model.get_layer('avg_pool').output
x= Flatten(name='flatten')(last_layer)
out = Dense(num_classes, activation='softmax', name='output_layer')(x)
custom_resnet_model = Model(inputs=image_input,outputs= out)
custom_resnet_model.summary()

for layer in custom_resnet_model.layers[:-1]:
    layer.trainable = False

custom_resnet_model.layers[-1].trainable

custom_resnet_model.compile(Adam(lr=0.001),loss='categorical_crossentropy',metrics=['accuracy'])

custom_resnet_model.summary()

tensorboard = TensorBoard(log_dir='./logs', histogram_freq=0,
                      write_graph=True, write_images=False)

hist = custom_resnet_model.fit(X_train, X_valid, batch_size=32, epochs=nb_epoch, verbose=1, validation_data=(Y_train, Y_valid),callbacks=[tensorboard])

(loss, accuracy) = custom_resnet_model.evaluate(Y_train,Y_valid,batch_size=batch_size,verbose=1)

print("[INFO] loss={:.4f}, accuracy: {:.4f}%".format(loss,accuracy * 100))

df = pd.read_csv('C:/CT_SCAN_IMAGE_SET/resnet_50/dbs2017/data/stage1_sample_submission.csv')
df2 = pd.read_csv('C:/CT_SCAN_IMAGE_SET/resnet_50/dbs2017/data/stage1_solution.csv')
x = np.array([np.mean(np.load('E:/224x224/%s.npy' % str(id)), axis=0) for id in df['id'].tolist()])

x = x.transpose(0,2,3,1)
# Make predictions 
pred = model.predict(x, batch_size=batch_size, verbose=1) #predict(self, x, batch_size=None, verbose=0, steps=None)

print (pred)

I used a validation set to predict my final results. But even with 100 epochs, my predicted classes probabilities are very low.

 5.41865666e-05 2.16298591e-04 2.77880055e-04 7.53038039e-05
 6.03657216e-04 1.30494649e-04 4.92068466e-05 5.37877844e-04
 1.61486780e-04 6.16881996e-04 9.92802554e-04 5.50923753e-04
 3.62671199e-05 3.44127137e-03 7.17231014e-05 2.79643398e-04
 2.86785862e-03 1.70384112e-04 6.59705256e-05 7.11611006e-04
 2.09898906e-04 1.82953620e-04 8.88684444e-05 1.87824480e-04
 1.32007655e-04 2.11239138e-04 7.63713342e-06 1.29785520e-04
 1.09007429e-04 3.14327976e-04 4.73849563e-04 4.22359008e-04
 6.27386966e-04 2.03593503e-04 1.72056989e-05 8.38911365e-05
 1.91937244e-04 1.59160278e-04 5.24159847e-03 1.45429352e-04
 4.30631888e-04 6.92744215e-04 1.00537611e-04 6.27409827e-05
 3.87431937e-04 1.37840703e-04 1.04467930e-04 1.74013167e-05
 1.18957250e-04 2.77637475e-04 2.25973461e-04 1.21678226e-04
 2.42197304e-04 2.99750012e-04 1.16530759e-03 1.29382452e-03
 7.35349662e-04 5.71311277e-04 1.26631945e-04 4.74024746e-05
 3.71460657e-04 1.23646241e-04]

This is how the tensorboard results were displayed.

enter image description here

Can someone please let me know, why the probabilities are not getting improved? Or any suggestions that I can used to improve this?

PS:

Summary of the part of resnet network as suggested by an answer

add_15 (Add)                    (None, 7, 7, 2048)   0           bn5b_branch2c[0][0]              
                                                                 activation_43[0][0]              
__________________________________________________________________________________________________
activation_46 (Activation)      (None, 7, 7, 2048)   0           add_15[0][0]                     
__________________________________________________________________________________________________
res5c_branch2a (Conv2D)         (None, 7, 7, 512)    1049088     activation_46[0][0]              
__________________________________________________________________________________________________
bn5c_branch2a (BatchNormalizati (None, 7, 7, 512)    2048        res5c_branch2a[0][0]             
__________________________________________________________________________________________________
activation_47 (Activation)      (None, 7, 7, 512)    0           bn5c_branch2a[0][0]              
__________________________________________________________________________________________________
res5c_branch2b (Conv2D)         (None, 7, 7, 512)    2359808     activation_47[0][0]              
__________________________________________________________________________________________________
bn5c_branch2b (BatchNormalizati (None, 7, 7, 512)    2048        res5c_branch2b[0][0]             
__________________________________________________________________________________________________
activation_48 (Activation)      (None, 7, 7, 512)    0           bn5c_branch2b[0][0]              
__________________________________________________________________________________________________
res5c_branch2c (Conv2D)         (None, 7, 7, 2048)   1050624     activation_48[0][0]              
__________________________________________________________________________________________________
bn5c_branch2c (BatchNormalizati (None, 7, 7, 2048)   8192        res5c_branch2c[0][0]             
__________________________________________________________________________________________________
add_16 (Add)                    (None, 7, 7, 2048)   0           bn5c_branch2c[0][0]              
                                                                 activation_46[0][0]              
__________________________________________________________________________________________________
activation_49 (Activation)      (None, 7, 7, 2048)   0           add_16[0][0]                     
__________________________________________________________________________________________________
avg_pool (AveragePooling2D)     (None, 1, 1, 2048)   0           activation_49[0][0]              
__________________________________________________________________________________________________
flatten_1 (Flatten)             (None, 2048)         0           avg_pool[0][0]                   
__________________________________________________________________________________________________
fc1000 (Dense)                  (None, 1000)         2049000     flatten_1[0][0]                  
__________________________________________________________________________________________________
dense_1 (Dense)                 (None, 512)          512512      fc1000[0][0]                     
__________________________________________________________________________________________________
dropout_1 (Dropout)             (None, 512)          0           dense_1[0][0]                    
__________________________________________________________________________________________________
dense_2 (Dense)                 (None, 512)          262656      dropout_1[0][0]                  
__________________________________________________________________________________________________
dropout_2 (Dropout)             (None, 512)          0           dense_2[0][0]                    
__________________________________________________________________________________________________
output_layer (Dense)            (None, 2)            1026        dropout_2[0][0]                  
==================================================================================================
  • Just a small note: are you sure you need such a gigantic network? What is your data? Are you investigating microscopic images of cells? Or group of cells? Or mammography? Or PET/CT scans? What is the size of your dataset? Choosing a right architecture is also very important - too small and it won't have enough capability, too large and it will overfit. – FalconUA Mar 16 '18 at 22:34
  • Hi I'm using CT scans images with size 512*512. It has totally 1582 images which is quite small to run from scratch. So I selected fine-tuning approach to train the network.. – user3789200 Mar 17 '18 at 2:15
11
+50

As far i can tell from your plots, you are overfitting. To avoid overfitting you should use Dropout. bellow i have added 2 new dense layers followed by 2 Dropout layers (you can reduce to 1 pair or increase to more). You can fine tune their parameters.

I would also like to propose a simpler representation of your network but your way would be just fine.

base_model = ResNet50(input_shape=(224, 224, 3), include_top=False,weights='imagenet',pooling='avg')
x=base_model.output

x = Dense(512, activation='relu')(x) #add new layer
x = Dropout(0.5)(x) #add new layer
x = Dense(512, activation='relu')(x) #add new layer
x = Dropout(0.5)(x) #add new layer

out = Dense(62, activation='softmax', name='output_layer')(x)
custom_resnet_model = Model(inputs=base_model.input,outputs= out)

for layer in base_model.layers:
    layer.trainable = False


custom_resnet_model.compile(Adam(lr=0.001),loss='categorical_crossentropy',metrics=['accuracy'])

custom_resnet_model.summary()
...

Finally you can try different learning rate parameters and different pre-trained models.

  • Thanks alot for the suggestion. Will check this and get back with the results soon. – user3789200 Mar 14 '18 at 22:53
  • Hi Loannis. Actually I understood why I got very low results the predicted probabilities. It is my stupid mistake. I have used pred = model.predict instead of, custom_resnet_model.predict. But I found your answer is very useful to understand that my dataset is getting over-fitted. And adding dropout layer got more accurate results, with accuracy, Accuracy : 0.6161616161616161 Sensitivity : 0.6595744680851063 Specificity : 0.5087719298245614 I feel I can improve the results more. Do you have any suggestions? Can I finetune the model more than this. – user3789200 Mar 16 '18 at 13:24
  • Fine-tuning requires many trials. The more you try the more sure you become of no further improvement. I don't know your data to tell you if you can improve more. I think it would worth trying a different pre-trained model. Also ensemble of models's outputs will probably improve scoring too. – Ioannis Nasios Mar 16 '18 at 14:05
  • Hi Loannis. Thanks for the suggestions. If I need to reduce the freezed layers and train come more convolution layers of the neural network who can I do it in my code? for an example, if I need to train the netwoks from layer 'res5c_branch2a (Conv2D)' onwards how can I do it? can you please kindly give me a small example? – user3789200 Mar 17 '18 at 4:36
4

No it's not overfitting I think. Why do you make include_top = True? It should be False for finetuning.

Its taken from Keras Applications(Documentation).( https://keras.io/applications/ )

base_model = InceptionV3(weights='imagenet', include_top=False)

-It's false because you don't need the Inception's dense layers after convolution, because its for Imagenet and it has 1000 class(Dense(1000,"softmax") which is not the case for your dataset.

x = base_model.output
x = GlobalAveragePooling2D()(x)
x = Dense(1024, activation='relu')(x)
predictions = Dense(num_classes, activation='softmax')(x)

model = Model(inputs=base_model.input, outputs=predictions)

And for my experience, avoid these 4 lines, I think its problematic. However, try it. But I think don't try at first and keep your learning rate low. Then you should try it at another .py file.

for layer in model.layers[:249]:
   layer.trainable = False
for layer in model.layers[249:]:
   layer.trainable = True

# compile the model (should be done *after* setting layers to non-trainable)
model.compile(optimizer='rmsprop', loss='categorical_crossentropy')

# train the model on the new data for a few epochs
model.fit_generator(...)
  • Thanks for the suggestion. :) I will try this – user3789200 Mar 20 '18 at 23:32

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