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I am having problem developing intuition about the probabilistic interpretation of logistic regression. Specifically, why is it valid to consider the output of logistic regression function as a probability?


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please be more specific. the assumption of logistic regression is that posterior probability p(c=1|x) is a logistic function. –  Ran Jun 27 '12 at 14:48

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Any type of classification can be seen as a probabilistic generative model by modeling the class-conditional densities p(x|C_k) (i.e. given the class C_k, what's the probability of x belonging to that class), and the class priors p(C_k) (i.e. what's the probability of class C_k), so that we can apply Bayes' theorem to obtain the posterior probabilities p(C_k|x) (i.e. given x, what's the probability that it belongs to class C_k). It is called generative because, as Bishop says in his book, you could use the model to generate synthetic data by drawing values of x from the marginal distribution p(x).

This all just means that every time you want to classify something into a specific class (e.g. size of a tumor being malignant of benign), there will be a probability of that being right or wrong.

Logistic regression uses a sigmoid function (or logistic function) in order to classify the data. Since this type of function ranges from 0 to 1, you can easily use it to think of it as probability distributions. Ultimately, you're looking for p(C_k|x) (in the example, xcould be the size of the tumor, and C_0 the class that represents benign and C_1 malignant), and in the case of logistic regression, this is modeled by:

p(C_k|x) = sigma( w^t x )

where sigmais the sigmoid function, w^t is the transposed set of weights w, and xis your feature vector.

I highly recommend you read Chapter 4 of Bishop's book.

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Thanks for the reply. I started reading the Bishop book, but I have a lot of doubts wrt the equation that he describes in Chap-1: p(w|D) = p(D|w).p(w) / p(D) In a typical case, what does probability of a model (p(w)) mean? Does it mean the probability of the model being correct according to some measure? Does it mean the probability of occurrence of a model from a pool of models? Also, what does probability of data (p(D)) mean? Thanks again! –  Vaibhav Gumashta Oct 5 '12 at 8:04
p(w) is the probability of drawing a value from your model. This way you can synthesize new data, that's why it's called generative model. In many cases, to simplify, it is assumed to follow a Gaussian distribution. On the other hand, p(D) is the probability of having a class D. If there are only two possible classes (e.g. benign D_0 or malign D_1) then p(D_0) = 1 - P(D_1). I hope this helps. –  urinieto Oct 8 '12 at 0:00

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