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I have 50 target classes of 300 datasets.

This is my sample dataset, with 98 features:

Sample dataset

import numpy as np
import pandas as pd
import seaborn as sns
import matplotlib.pyplot as plt
%matplotlib inline
dataset = pd.read_csv(root_path + 'pima-indians-diabetes.data.csv', header=None)

X= dataset.iloc[:,0:8]
y= dataset.iloc[:,8]

from sklearn.preprocessing import StandardScaler
sc = StandardScaler()
X = sc.fit_transform(X)

from sklearn.model_selection import train_test_split
X_train, X_test, y_train, y_test = train_test_split(X, y,test_size=0.3)

from keras import Sequential
from keras.layers import Dense

classifier = Sequential()
#First Hidden Layer
classifier.add(Dense(units = 10, activation='relu',kernel_initializer='random_normal', input_dim=8))
#Second  Hidden Layer
classifier.add(Dense(units = 10, activation='relu',kernel_initializer='random_normal'))
#Output Layer
classifier.add(Dense(units = 1, activation='sigmoid',kernel_initializer='random_normal'))

#Compiling the neural network
classifier.compile(optimizer ='adam',loss='binary_crossentropy', metrics =['accuracy'])

#Fitting the data to the training dataset
classifier.fit(X_train,y_train, batch_size=2, epochs=10)

I get 19% accuracy here, and I don't know how to optimize my prediction result.

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  • What do you mean by "I have 50 target class of 300 datasets" – Sreeram TP Sep 23 '19 at 16:55
  • 300 data record with 50 class – Moch. Chamdani M Sep 24 '19 at 10:27
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I am considering that you have performed the Dimentionality Reduction technique on your original data having 98 features and therefore you are using an 8-dimensional input feature in your model.

I have a few observations on your implementation:

[As a Classification Problem]

As you have mentioned that your samples belong to 50 diffecent classes, the problem is certainly a multiclass classification problem. So, you need to encode your label first like:

from keras.utils import to_categorical
y = to_categorical(y, num_classes=50, dtype='float32')

In this case, you need to change the number of output node (representing class) and activation function in the final layer as follows:

classifier.add(Dense(units = 50, activation='softmax'))

Furthermore, you have to ue categorical_crossentropy as a loss function while compiling your model.

classifier.compile(optimizer ='adam',loss='categorical_crossentropy', metrics =['accuracy'])

[As a Regression Problem]

You can also consider this problem as a multiple regression problem as the output is within the range of 0 to 50 (continuous) and can keep a single output node in the final layer as you did. But in that case, you should use a linear activation function instead of sigmoid.

So, the final layer should be like:

classifier.add(Dense(units = 1)) # default activation is linear

Additionally, In case of regression problem, mean_squared_error is the most relevant cost function to use (assuming not many outliers in your dataset) and accuracy as a performance metric is irrelevant (rather you may use mean_absolute_error which is analogous to loss). Hence, the second modification is:

classifier.compile(optimizer ='adam',loss='mean_squared_error')
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  • it is pretty cool but I have a new problem when use more largest data – Moch. Chamdani M Sep 24 '19 at 10:22
  • it is the same data but more larger. 41.000 data – Moch. Chamdani M Sep 24 '19 at 10:23
  • Please describe your problem here or in a new thread. Many expert people are there to help. More data is good for better generalization of neural network. Keep in mind that you have to find the optimal hyper-parameter (learning rate, batch size, epochs) and your current batch_size is too small. You also may want to tune your model e.g. no. of hidden layers, hidden units, activation function, kernel initializer, etc, depending on the performance. – Kaushik Roy Sep 24 '19 at 10:50
  • it is actually in the same case, I use ANN for classifying my data. now I have 355 class and each class have 100 data sample on my dataset. I use the same model in this case like my program above. I use sigmoid as activation for my hidden layer and softmax as activation for my output layer. then I get 80% of accuracy. the bad news is my loss also more than 70% – Moch. Chamdani M Sep 24 '19 at 14:47
  • what is the best activation function for my model if I have 355 class with 100 data sample each class? – Moch. Chamdani M Sep 24 '19 at 15:06

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