Backpropagation – Algorithm For Training A Neural Network

Last updated on Nov 15,2022 142.4K Views
Saurabh is a technology enthusiast working as a Research Analyst at Edureka.... Saurabh is a technology enthusiast working as a Research Analyst at Edureka. His areas of interest are - DevOps, Artificial Intelligence, Big Data and...

Backpropagation – Algorithm For Training A Neural Network

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Backpropagation:

Backpropagation is a supervised learning algorithm, for training Multi-layer Perceptrons (Artificial Neural Networks).

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But, some of you might be wondering why we need to train a Neural Network or what exactly is the meaning of training.

Why We Need Backpropagation?

While designing a Neural Network, in the beginning, we initialize weights with some random values or any variable for that fact.

Now obviously, we are not superhuman. So, it’s not necessary that whatever weight values we have selected will be correct, or it fits our model the best.

Okay, fine, we have selected some weight values in the beginning, but our model output is way different than our actual output i.e. the error value is huge.

Now, how will you reduce the error?

Basically, what we need to do, we need to somehow explain the model to change the parameters (weights), such that error becomes minimum.

Let’s put it in an another way, we need to train our model.

One way to train our model is called as Backpropagation. Consider the diagram below:

Let me summarize the steps for you:

I am pretty sure, now you know, why we need Backpropagation or why and what is the meaning of training a model.

Now is the correct time to understand what is Backpropagation.

What is Backpropagation?

The Backpropagation algorithm looks for the minimum value of the error function in weight space using a technique called the delta rule or gradient descent. The weights that minimize the error function is then considered to be a solution to the learning problem. 

Let’s understand how it works with an example:

You have a dataset, which has labels.

Consider the below table:

InputDesired Output
00
12
24

Now the output of your model when ‘W” value is 3:

InputDesired OutputModel output (W=3)
000
123
246

Notice the difference between the actual output and the desired output:

InputDesired OutputModel output (W=3)Absolute ErrorSquare Error
0000
12311
24624

Let’s change the value of ‘W’. Notice the error when ‘W’ = ‘4’

InputDesired OutputModel output (W=3)Absolute ErrorSquare ErrorModel output (W=4)  Square Error
000000
1231144
24624816

Now if you notice, when we increase the value of ‘W’ the error has increased. So, obviously there is no point in increasing the value of ‘W’ further. But, what happens if I decrease the value of ‘W’? Consider the table below:

InputDesired OutputModel output (W=3)Absolute ErrorSquare ErrorModel output (W=2)  Square Error
000000
123243
246244

Now, what we did here:

So, we are trying to get the value of weight such that the error becomes minimum. Basically, we need to figure out whether we need to increase or decrease the weight value. Once we know that, we keep on updating the weight value in that direction until error becomes minimum. You might reach a point, where if you further update the weight, the error will increase. At that time you need to stop, and that is your final weight value.

Consider the graph below:

We need to reach the ‘Global Loss Minimum’.

This is nothing but Backpropagation.

Let’s now understand the math behind Backpropagation.

 How Backpropagation Works?

Consider the below Neural Network:

The above network contains the following:

Below are the steps involved in Backpropagation:

Step – 1: Forward Propagation 

We will start by propagating forward.

We will repeat this process for the output layer neurons, using the output from the hidden layer neurons as inputs.

Now, let’s see what is the value of the error:

Step – 2: Backward Propagation

Now, we will propagate backwards. This way we will try to reduce the error by changing the values of weights and biases.

Consider W5, we will calculate the rate of change of error w.r.t change in weight W5.

Since we are propagating backwards, first thing we need to do is, calculate the change in total errors w.r.t the output O1 and O2.

Now, we will propagate further backwards and calculate the change in output O1 w.r.t to its total net input.

Let’s see now how much does the total net input of O1 changes w.r.t  W5?

Step – 3: Putting all the values together and calculating the updated weight value

Now, let’s put all the values together:

Let’s calculate the updated value of W5:

Conclusion:

Well, if I have to conclude Backpropagation, the best option is to write pseudo code for the same.

Backpropagation Algorithm:

initialize network weights (often small random values)

  do

     forEach training example named ex

        prediction = neural-net-output(network, ex)  // forward pass

        actual = teacher-output(ex)

        compute error (prediction - actual) at the output units

        compute {displaystyle Delta w_{h}} for all weights from hidden layer to output layer  // backward pass

        compute {displaystyle Delta w_{i}} for all weights from input layer to hidden layer   // backward pass continued

        update network weights // input layer not modified by error estimate

  until all examples classified correctly or another stopping criterion satisfied

  return the network

I hope you have enjoyed reading this blog on Backpropagation, check out the Deep Learning with TensorFlow Training by Edureka, a trusted online learning company with a network of more than 250,000 satisfied learners spread across the globe. The Edureka Deep Learning with TensorFlow Certification Training course helps learners become expert in training and optimizing basic and convolutional neural networks using real time projects and assignments along with concepts such as SoftMax function, Auto-encoder Neural Networks, Restricted Boltzmann Machine (RBM).

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