LFD Book Forum

LFD Book Forum (http://book.caltech.edu/bookforum/index.php)
-   Homework 2 (http://book.caltech.edu/bookforum/forumdisplay.php?f=131)
-   -   Q5 Least Squares Behaviour (http://book.caltech.edu/bookforum/showthread.php?t=4680)

Nick Torenvliet 06-03-2016 07:29 AM

Q5 Least Squares Behaviour
wrt Q5

I've written a python script with some matplotlib to visualize and compare the various f and g in the 1000 run simulation.

In terms of process...
1- choose a population N of 100 random points (x1,x2) where x1 and x2 are >-1, <+1
2- solve for f_m and f_b of a line joining another two similarly chosen random points
3- classify points in N as +1 or -1 based on comparison of x2 and f_m*x1+ f_b to get vector of classifications f_y
4- perfom a linear least squares regression with numpy.linalg.lstsq and get g_m and g_b
5- classify points in N as +1 or -1 based on comparison of x2 and g_m*x1+ g_b to get vector of classifications g_y
6- compare f_y and g_y to get E_in
7- repeat step 1-6 1000 times to get average E_in

I am finding that when N cuts f such that there are very many of one class and very few of the other, then g will often miss-classify all of the smaller set in favor of properly classifying all the larger set.

Sometimes g will lie completely outside of the viewing window bounded by +2, -2 all around.

That g might miss-classify all of the smaller set, in these imbalanced cases, I can accept... I think. That g would lie very far away from the box bounded by +1,-1 all around troubles me. Am I right to think something is wrong here?

The error is large enough to lead to the wrong answer for question 5, but only by a hair.

I did a fair amount of debugging, I cannot see any anything other than the sometimes large variance between the f_m/f_b and g_m/g_b that the linear solver spits out when there is a large class imbalance.

Nick Torenvliet 06-13-2016 04:52 PM

Re: Q5 Least Squares Behaviour
So... haha... systematic error.

Just as another student (sandeep) was, I was getting an average E_in on 1000 trials of 100 of ~ 0.13

I believe this is indicative not accounting for the case where the slope of the linear regression solution g is opposite sign of that of the target function f.

In a naive approach to classification... you will get 100% error in that case. The case seems to occur predictably enough to bias the correct answer you might get to ~0.13.

Oddly enough... I am very satisfied with that... at least it confirms laws of large numbers.

Everything does though...

All times are GMT -7. The time now is 10:20 AM.

Powered by vBulletin® Version 3.8.3
Copyright ©2000 - 2022, Jelsoft Enterprises Ltd.
The contents of this forum are to be used ONLY by readers of the Learning From Data book by Yaser S. Abu-Mostafa, Malik Magdon-Ismail, and Hsuan-Tien Lin, and participants in the Learning From Data MOOC by Yaser S. Abu-Mostafa. No part of these contents is to be communicated or made accessible to ANY other person or entity.