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I'm working on a image class-incremental classifier approach using a CNN as a feature extractor and a fully-connected block for classifying.

First, I did a fine-tuning of a VGG per-trained network to do a new task. Once the net is trained for the new task, i store some examples for every class in order to avoid forgetting when new classes are available.

When some classes are available, i have to compute every output of the exemplars included the exemplars for the new classes. Now adding zeros to the outputs for old classes and adding the label corresponding to each new class on the new classes outputs i have my new labels, i.e: if 3 new classes enter....

Old class type output: [0.1, 0.05, 0.79, ..., 0 0 0]

New class type output: [0.1, 0.09, 0.3, 0.4, ..., 1 0 0] **the last outputs correspond to the class.

My question is, how i can change the loss function for a custom one to train for the new classes? The loss function that i want to implement is defined as:

loss function

where distillation loss corresponds to the outputs for old classes to avoid forgetting, and classification loss corresponds to the new classes.

If you can provide me a sample of code to change the loss function in keras would be nice.

Thanks!!!!!

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All you have to do is define a function for that, using keras backend functions for calculations. The function must take the true values and the model predicted values.

Now, since I'm not sure about what are g, q, x an y in your function, I'll just create a basic example here without caring about what it means or whether it's an actual useful function:

import keras.backend as K

def customLoss(yTrue,yPred):
    return K.sum(K.log(yTrue) - K.log(yPred))

All backend functions can be seen here: https://keras.io/backend/#backend-functions

After that, compile your model using that function instead of a regular one:

model.compile(loss=customLoss, optimizer = .....)
| improve this answer | |
  • okaay, that is exactly what i was looking for, Thank you so much!! – Eric May 7 '17 at 9:22
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    @Daniel So how does keras map the custom loss function arguments? Does it take the model outputs and apply them implicitly to the customLoss? Like CustomLoss(*model_outputs)? – PaulG Jul 20 '18 at 0:47
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    custom_loss(y_train_converted_to_tensor, model_outputs_tensor) – Daniel Möller Jul 20 '18 at 0:48
  • Even though custom loss functions only take the target and prediction as inputs, it seems we can use other Tensors, too, with a trick: def customLoss1(yTrue, yPred): return mse(inputInterm, yPred) This captures the Tensor, inputInterm in this case. It seems to work for me, though I haven't seen it used. Does anyone see any pitfalls with this approach? – flow2k Aug 23 '19 at 8:19
  • @flow2k, this works, no problem. It might bring you a problem when you want to save and load this model, because this tensor will not be a part of it. So, in order to do that more safely, you should have a layer to handle this tensor properly. Either a custom layer that creates it, or an Input(tensor=...) layer. – Daniel Möller Aug 23 '19 at 11:45

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