52

I'm pretty new to keras I have built a simple network to try:

import numpy as np;

from keras.models import Sequential;
from keras.layers import Dense,Activation;

data= np.genfromtxt("./kerastests/mydata.csv", delimiter=';')
x_target=data[:,29]
x_training=np.delete(data,6,axis=1)
x_training=np.delete(x_training,28,axis=1)

model=Sequential()
model.add(Dense(20,activation='relu', input_dim=x_training.shape[1]))
model.add(Dense(10,activation='relu'))
model.add(Dense(1));

model.compile(optimizer='adam',loss='mean_squared_error',metrics=['accuracy'])
model.fit(x_training, x_target)

From my source data, I have removed 2 columns, as you can see. One is a column that came with dates in a string format (in the dataset, besides it, I have a column for the day, another for the month, and another for the year, so I don't need that column) and the other column is the column I use as target for the model).

When I train this model I get this output:

32/816 [>.............................] - ETA: 23s - loss: 13541942.0000 - acc: 0.0000e+00
800/816 [============================>.] - ETA: 0s - loss: 11575466.0400 - acc: 0.0000e+00 
816/816 [==============================] - 1s - loss: 11536905.2353 - acc: 0.0000e+00     
Epoch 2/10
 32/816 [>.............................] - ETA: 0s - loss: 6794785.0000 - acc: 0.0000e+00
816/816 [==============================] - 0s - loss: 5381360.4314 - acc: 0.0000e+00     
Epoch 3/10
 32/816 [>.............................] - ETA: 0s - loss: 6235184.0000 - acc: 0.0000e+00
800/816 [============================>.] - ETA: 0s - loss: 5199512.8700 - acc: 0.0000e+00
816/816 [==============================] - 0s - loss: 5192977.4216 - acc: 0.0000e+00     
Epoch 4/10
 32/816 [>.............................] - ETA: 0s - loss: 4680165.5000 - acc: 0.0000e+00
736/816 [==========================>...] - ETA: 0s - loss: 5050110.3043 - acc: 0.0000e+00
816/816 [==============================] - 0s - loss: 5168771.5490 - acc: 0.0000e+00     
Epoch 5/10
 32/816 [>.............................] - ETA: 0s - loss: 5932391.0000 - acc: 0.0000e+00
768/816 [===========================>..] - ETA: 0s - loss: 5198882.9167 - acc: 0.0000e+00
816/816 [==============================] - 0s - loss: 5159585.9020 - acc: 0.0000e+00     
Epoch 6/10
 32/816 [>.............................] - ETA: 0s - loss: 4488318.0000 - acc: 0.0000e+00
768/816 [===========================>..] - ETA: 0s - loss: 5144843.8333 - acc: 0.0000e+00
816/816 [==============================] - 0s - loss: 5151492.1765 - acc: 0.0000e+00     
Epoch 7/10
 32/816 [>.............................] - ETA: 0s - loss: 6920405.0000 - acc: 0.0000e+00
800/816 [============================>.] - ETA: 0s - loss: 5139358.5000 - acc: 0.0000e+00
816/816 [==============================] - 0s - loss: 5169839.2941 - acc: 0.0000e+00     
Epoch 8/10
 32/816 [>.............................] - ETA: 0s - loss: 3973038.7500 - acc: 0.0000e+00
672/816 [=======================>......] - ETA: 0s - loss: 5183285.3690 - acc: 0.0000e+00
816/816 [==============================] - 0s - loss: 5141417.0000 - acc: 0.0000e+00     
Epoch 9/10
 32/816 [>.............................] - ETA: 0s - loss: 4969548.5000 - acc: 0.0000e+00
768/816 [===========================>..] - ETA: 0s - loss: 5126550.1667 - acc: 0.0000e+00
816/816 [==============================] - 0s - loss: 5136524.5098 - acc: 0.0000e+00     
Epoch 10/10
 32/816 [>.............................] - ETA: 0s - loss: 6334703.5000 - acc: 0.0000e+00
768/816 [===========================>..] - ETA: 0s - loss: 5197778.8229 - acc: 0.0000e+00
816/816 [==============================] - 0s - loss: 5141391.2059 - acc: 0.0000e+00    

Why is this happening? My data is a time series. I know that for time series people do not usually use Dense neurons, but it is just a test. What really tricks me is that accuracy is always 0. And, with other tests, I did even lose: gets to a "NAN" value.

Could anybody help here?

1
  • This issue should be every ML framework's FAQ and a warning message should be implemented.
    – BSalita
    Aug 9, 2021 at 9:49

4 Answers 4

89

Your model seems to correspond to a regression model for the following reasons:

  • You are using linear (the default one) as an activation function in the output layer (and relu in the layer before).

  • Your loss is loss='mean_squared_error'.

However, the metric that you use- metrics=['accuracy'] corresponds to a classification problem. If you want to do regression, remove metrics=['accuracy']. That is, use

model.compile(optimizer='adam',loss='mean_squared_error')

Here is a list of keras metrics for regression and classification (taken from this blog post):

Keras Regression Metrics

•Mean Squared Error: mean_squared_error, MSE or mse

•Mean Absolute Error: mean_absolute_error, MAE, mae

•Mean Absolute Percentage Error: mean_absolute_percentage_error, MAPE, mape

•Cosine Proximity: cosine_proximity, cosine

Keras Classification Metrics

•Binary Accuracy: binary_accuracy, acc

•Categorical Accuracy: categorical_accuracy, acc

•Sparse Categorical Accuracy: sparse_categorical_accuracy

•Top k Categorical Accuracy: top_k_categorical_accuracy (requires you specify a k parameter)

•Sparse Top k Categorical Accuracy: sparse_top_k_categorical_accuracy (requires you specify a k parameter)

4
  • Why do you say my output layer is using relu? From the sources it seems that if you don't specify anything there's no activation function. Am I missing anything? On the other hand, I can only use 'accuracy' when using a classification model? I'm a bit messed up at this time :)
    – Notbad
    Aug 11, 2017 at 11:32
  • @Notbad the default activation function is indeed appears to be linear. I updated my answer. However, that doesn't change the fact that as it currently written, the model corresponds to a regression problem. Regarding your second question, 'accuracy' indeed can be used only for classification (as it measures the percentage of the correct labels). Aug 11, 2017 at 11:46
  • Here are a couple of links that I found helpful when trying to understand regression models, working with Keras. The explanations in this Github issue are extremely useful to someone who is just getting started. Also, here is a interesting SO question.
    – spencer741
    Apr 12, 2020 at 23:08
  • Without the metric being accuracy, is there a way to still view the accuracy through model.evaluate()? I can't seem to find a way, I can only view the loss and validation loss while it trains.
    – Mason Choi
    May 26, 2021 at 19:15
3

Add following to get metrics:

   history = model.compile(optimizer='adam', loss='mean_squared_error', metrics=['mean_squared_error'])
   # OR
   history = model.compile(optimizer='adam', loss='mean_absolute_error', metrics=['mean_absolute_error'])
   history.history.keys()
   history.history
2
  • 2
    What is the point of adding the loss functions as a metric another time?
    – bers
    Nov 18, 2019 at 12:59
  • The metric allows you to view the accuracies. Without it you can only view the loss.
    – Mason Choi
    May 26, 2021 at 19:23
2

I would like to point out something that is very important and has been unfortunately neglected: mean_squared_error is not an invalid loss function for classification.

The mathematical properties of cross_entropy in conjunction with the assumptions of mean_squared_error(both of which I will not expand upon in this comment) make the latter inappropriate or worse than the cross_entropy when it comes to training on classification problems.

2

Try this one.

while trying to solve the Titanic problem from kaggle, I forgot to fill the missing data from the Dataframe, because of which the missing data was filled with "nan".

The model threw a similar output

#------------------------------------------------------

Epoch 1/50

891/891 [==============================] - 3s 3ms/step - loss: 9.8239 - acc: 0.0000e+00

Epoch 2/50

891/891 [==============================] - 1s 2ms/step - loss: 9.8231 - acc: 0.0000e+00

Epoch 3/50

891/891 [==============================] - 1s 1ms/step - loss: 9.8231 - acc: 0.0000e+00

Epoch 4/50

891/891 [==============================] - 1s 1ms/step - loss: 9.8231 - acc: 0.0000e+00

Epoch 5/50

891/891 [==============================] - 1s 1ms/step - loss: 9.8231 - acc: 0.0000e+00

#------------------------------------------------------

Make sure you prepare your data before feeding it to the model.

In my case I had to do the following changes

+++++++++++++++++++++++++++++++++++

dataset[['Age']] = dataset[['Age']].fillna(value=dataset[['Age']].mean())

dataset[['Fare']] = dataset[['Fare']].fillna(value=dataset[['Fare']].mean())

dataset[['Embarked']] = dataset[['Embarked']].fillna(value=dataset['Embarked'].value_counts().idxmax())

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