Python Neural Networks diabetes

USE Jupyter Notebook
Given Code: ‘Part of answer’ but incomplete…..
# Importing libraries

import pandas as pd

import numpy as np

from sklearn.neighbors import KNeighborsClassifier

from sklearn.tree import DecisionTreeClassifier

from sklearn.model_selection import train_test_split

from sklearn import metrics

# Loading the dataset

data = pd.read_csv(‘diabetes.csv’)

# Separating features and target

features = data[[‘Pregnancies’, ‘Glucose’, ‘BloodPressure’, ‘SkinThickness’, ‘Insulin’, ‘BMI’, ‘DiabetesPedigreeFunction’, ‘Age’]]

target = data[‘Outcome’]

# Splitting training and testing data in the ratio 70 : 30 respectively

x_train, x_test, y_train, y_test = train_test_split(features, target, random_state=0, test_size=0.3)

# KNN model

modelKNN = KNeighborsClassifier()

# Train the model

modelKNN.fit(x_train, y_train)

# Predict test set

y_pred_knn = modelKNN.predict(x_test)

# Print accuracy of the KNN model

print(modelKNN.score(x_test,y_test))

# Print Confusion matrix

print(metrics.confusion_matrix(y_test, y_pred_knn))

# Print Classification Report for determining precision, recall, f1-score and support of the model

print(metrics.classification_report(y_test, y_pred_knn))

# Decision Tree model

modelDT = DecisionTreeClassifier()

# Train the model

modelDT.fit(x_train, y_train)

# Predict test set

y_pred_dt = modelDT.predict(x_test)

# Print accuracy of the Decision Tree model

print(modelDT.score(x_test,y_test))

# Print Confusion matrix

print(metrics.confusion_matrix(y_test, y_pred_dt))

# Print Classification Report for determining precision, recall, f1-score and support of the model

print(metrics.classification_report(y_test, y_pred_dt))
Please do the data cleaning and feature selection…
Please use the given code/layout given below original question….

ORIGINAL QUESTION:
“”for more info check original .ipynb file””
Fill out the code below so that it creates a multi-layer perceptron with a single hidden layer (with 4 nodes) and trains it via back-propagation. Specifically your code should: 

Initialize the weights to random values between -1 and 1
Perform the feed-forward computation
Compute the loss function
Calculate the gradients for all the weights via back-propagation
Update the weight matrices (using a learning_rate parameter)
Execute steps 2-5 for a fixed number of iterations
Plot the accuracies and log loss and observe how they change over time

First, initialise the parameters. This means determining the following:
Size of the network
Hidden layers (or a single hidden layer in this example) can be any size. Layers with more neurons are more powerful, but also more likely to overfit, and take longer to train. The output layer size corresponds to the number of classes.
Number of iterations
This parameter determines how many times the network will be updated.
Learning rate
Each time we update the weights, we do so by taking a step into the direction that we calculated will improve the accuracy of the network. The size of that step is determined by the learning rate. Taking small steps will slow the process down, but taking steps that are too large can cause results to vary wildly and not reach a stable optimum.
Next, fill in the code below to train a multi-layer perceptron and see if it correctly classies the input.
in[]# Reshape y

y =
# Initializing weights
W_1 =

W_2 =
# Definining number of iterations and learning rate(‘lr’)

num_iter =
learning rate =
in[]# Creating empty lists for loss values(error) and accuracy

loss_vals, accuracies = [], []
for j in range(num_iter):

# Do a forward pass through the dataset and compute the loss

 
# Decide on intervals and add on the current loss and accuracy to the respective list
# Update the weights
in[]# Plot the loss values and accuracy

Higher number of iterations and lower learning rate seems to improve accuracy

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