Before we dive into the process of building the neural network, there are few prerequisites which you need to know.
Make sure you go through those topics for a better understanding of the concept.
What is a Neural Network?
Neural networks are a set of algorithms used to recognize patterns in the unstructured data. These neural networks try to mimic the human brain as they are modeled after the human brain.
Types of neural networks are:
- Artificial Neural Networks (ANN)
- Convolution Neural Networks (CNN)
- Recurrent Neural Networks (RNN)
Advantages of Neural Networks:
- They can learn from giving train data and find similarities easily.
- Even if a neuron is not responding, it can still manage to get the output.
- Parallel processes can run without affecting the overall performance.
Applications of Neural Networks:
- Image processing
- Speech Recognition
- pattern prediction
- Clustering etc.
As a beginner, ANN will be pretty easy and simple to understand. So, I will be concentrating more on ANN.
What is an Artificial Neural Network?
These are the simplest forms of neural networks. The information is passed only in one direction with the help of input nodes until it makes it to the output. This type of neural network is also called a Feed-Forward Neutral network.
Let’s take a look at the simple ANN.
ANN consists of three main layers, The Input, Hidden, and Output layer.ANN mostly solves problems related to Image, Text, and Tabular data.
Working of ANN
The input layer receives information from outside and goes through two or more hidden layers. These hidden layers transform the input into the output.
Before we dive deeper. Let us see one of the practical usages.
I’m going to use the MNIST sample digits data set to explain ANN’s. We are going to classify images into 10 categories using ANN’s.
Step 1: Import all the required libraries
You can find the installation procedure of Keras in the following link.
Step 2: Loading the MNIST data-set
The MNIST data-set comes preloaded in Keras, in the form of Numpy arrays.
The data-set is split into test and train sets.
Once take a look at the train and test data-set.
Step 3: Creating the Neural Network
Layers are the most important building blocks of a neural network. You can think of them as a filter for the data. Take a look at our network. We have a sequence of two dense connected layers, which are fully connected. The last layers are 10-way softmax layer, which gives returns an array of 10 probability scores.
What does activation mean?
These are mathematical functions that determine the output of the neural network. These determine the output of a deep learning model, its accuracy, and also the computational efficiency of the model.
5 basic types of activation functions are:
Step 4: Network Compilation
The compile function takes three arguments: optimizer, loss, and metrics.
- Optimizer: These are certain algorithms that are used to change the attributes of the neural network to decrease the loss rate.
- Loss: This is used to compute the quantity that a model should seek to minimize during training.
- Metrics: This is used to judge the performance of the model.
Step 5: Reshaping the input data
We have to pre-process the data by reshaping and scaling so the values are from 0 to 1.
The original shape of data is (60000, 28, 28) of type unit 8. We have to convert it into (10000, 28 * 28) of float type.
Step 6: Preparing the labels
The test and train labels are converted to categorical values.
Step 7: Training the model
The fit function takes the training images, training labels, epochs, and batch size as the arguments.
Epochs: The fit function takes the training images, training labels, epochs, and batch size as the arguments.
To check the network accuracy on test data use this line of code.
test_loss, test_acc = network.evaluate(test_images, test_labels)
The test accuracy is about 98.9 percent.
Step 8: Save your model
You can reuse your model after saving it. You need not train the model from the beginning.
Step 9: How to load the model
from keras.models import load_model
# load model
model = load_model('model.h5')
After loading the model, its the same process as you did in step 7.
I hope you understood the basics and got a bit of clarity on Neural networks. Thanks for reading till the end, and stay tuned for more interesting articles.
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