#1




Classifying Handwritten Digits: 1 vs. 5
I don't quite understand the first classification method given by the problem: "Linear Regression for classiﬁcation followed by pocket for improvement". Since the weight returned by linear regression is an analytically optimal result, how can the pocket algorithm improve it?

#2




Re: Classifying Handwritten Digits: 1 vs. 5
It is only analytically optimal for regression. It can be suboptimal for classification.
Quote:
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#3




Re: Classifying Handwritten Digits: 1 vs. 5
Hi Professor, you said that the weight vector w learnted from the Linear Regression could be suboptimal for classification. However, after run the pocket algorithm with 1,000,000 iteration, the w still not change, which means that the w learnt from the Linear Regression is optimal. Is that true? Maybe I made some mistake.

#4




Re: Classifying Handwritten Digits: 1 vs. 5
The pocket algorithm indeed is able to improve the linear regression. Mine decreased the insample error from 0.8% to around 0.4%.

#5




Re: Classifying Handwritten Digits: 1 vs. 5
Do you set the w learnt from Linear Regression as the initial w for Pocket Algorithm? I did like that, but without any improvement. Maybe some mistakes.

#6




Re: Classifying Handwritten Digits: 1 vs. 5
Any one of these three can happen:
1) the linear regression weights are optimal 2) the linear regression weights are not optimal and the PLA/Pocket algorithm can improve the weights. 3) the linear regression weights are not optimal and the PLA/Pocket algorithm cannot improve the weights. In practice, we will not know which case we are in because actually finding the optimal weights is an NPhard combinatorial optimization problem. However, no matter which case we are in, other than some extra CPU cycles, there is no harm done in running the pocket algorithm on the regression weights to see if they can be improved. Quote:
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#7




Re: Classifying Handwritten Digits: 1 vs. 5
Yes, I did. I guess you probably should look at your implementation of the pocket algorithm. I also got no improvement at first. But then I messed around the code a little bit, and it worked.

#8




Re: Classifying Handwritten Digits: 1 vs. 5
Does the insamleerror should use the square error formula, like the one of Linear Regression? Or the insampleerror of binary function?

#9




Re: Classifying Handwritten Digits: 1 vs. 5
Binary classification error.
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Have faith in probability 
#10




Re: Classifying Handwritten Digits: 1 vs. 5
How to plot the training and the test data, together with the separators learnt by using a 3rd order polynomial transform. Actually, the 3rd order polynomial hypothesis is a unclear formula with the two features. Then, how to plot this polynomial hypothesis in a two dementional axis?

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