Just like we use the Normal Equation to find out the optimum theta value in Linear Regression, can/can't we use a similar formula for Logistic Regression ? If not, why ? I'd be grateful if could someone could explain the reasoning behind it. Thank You.


Unfortunately no, only one discriminative method in classification theory has closed form solutions - linear regression... (linear discriminant analysis/fischer discriminant are generative, and even they have a closed form solution due to extreme simplicity of the distributions fitted).

In general it is considered a miracle that it "works" even for linear regression. As far as I know it is nearly impossible to prove that "you cannot solve logistic reggresion in closed form", however general understanding is that it will not ever be the case. You can do it, if your features are binary only, and you have very few of them (as a solution is exponential in number of features), which has been shown few years ago, but in general case - it is believed to be impossible.

So why it worked so well for linear regression? Because once you compute your derivatives you will notice, that resulting problem is set of linear equations, m equations with m variables, which we know can be directly solved through matrix inversions (and other techniques). When you differentiate logistic regression cost, resulting problem is no longer linear... it is convex (thus global optimum), but not linear, and consequently - current mathematics does not provide us with tools strong enough to find the optimum in closed form solution.

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    Thank you for explaining that. Can you suggest any material where I can read more about it ? – user2125722 Jun 23 '16 at 16:53

Yes, if we develop a mathematical model to solve the differentiated form of cost function which is case of linear regression is 'matrix' and its inverses. But no such tool is available in this uptil now. So till now a big NO.

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