Gradient Descent in Linear Regression
In linear regression, the model targets to get the best-fit regression line to predict the value of y based on the given input value (x). While training the model, the model calculates the cost function which measures the Root Mean Squared error between the predicted value (pred) and true value (y). The model targets to minimize the cost function.
To minimize the cost function, the model needs to have the best value of θ1 and θ2. Initially model selects θ1 and θ2 values randomly and then iteratively update these value in order to minimize the cost function until it reaches the minimum. By the time model achieves the minimum cost function, it will have the best θ1 and θ2 values. Using these finally updated values of θ1 and θ2 in the hypothesis equation of linear equation, the model predicts the value of x in the best manner it can.
Therefore, the question arises – How do θ1 and θ2 values get updated?
Linear Regression Cost Function:
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Gradient Descent Algorithm For Linear Regression
-> θj : Weights of the hypothesis. -> hθ(xi) : predicted y value for ith input. -> j : Feature index number (can be 0, 1, 2, ......, n). -> α : Learning Rate of Gradient Descent.
We graph cost function as a function of parameter estimates i.e. parameter range of our hypothesis function and the cost resulting from selecting a particular set of parameters. We move downward towards pits in the graph, to find the minimum value. The way to do this is taking derivative of cost function as explained in the above figure. Gradient Descent step-downs the cost function in the direction of the steepest descent. The size of each step is determined by parameter α known as Learning Rate.
In the Gradient Descent algorithm, one can infer two points :
- If slope is +ve : θj = θj – (+ve value). Hence value of θj decreases.
- If slope is -ve : θj = θj – (-ve value). Hence value of θj increases.
The choice of correct learning rate is very important as it ensures that Gradient Descent converges in a reasonable time. :
- If we choose α to be very large, Gradient Descent can overshoot the minimum. It may fail to converge or even diverge.
- If we choose α to be very small, Gradient Descent will take small steps to reach local minima and will take a longer time to reach minima.
For linear regression Cost, the Function graph is always convex shaped.
Note: Gradient descent sometimes is also implemented using Regularization.