Difference between revisions of "Optimization"

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(Our Problem)
(Our Problem)
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We have some data in the (x,y) plane.  Here we consider x to be the independent variable and y to be the dependent variable.  Our optimization problem is to find the line y = m*x + b that best fits the data.
 
We have some data in the (x,y) plane.  Here we consider x to be the independent variable and y to be the dependent variable.  Our optimization problem is to find the line y = m*x + b that best fits the data.
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Here is some data with the best fitting line.

Revision as of 18:38, 20 April 2009

First, we discuss homework from Lab V.

Now on to today's topic.

What is Optimization

Given a function that depends upon parameters, find the value of the parameters that optimizes the function (e.g. if the function is likelihood, find the maximum likelihood).

Minimizing functions is trivially the same thing as maximizing functions. Most optimization routines are written to minimize function; if you want to maximize log-likelihood with such a function, you can just minimize minus-log-likelihood. Putting a minus sign in front of the function turns the surface upside down and cost next to nothing computationally.

No Free Lunch!

What is the best optimization routine to use? The "no free lunch" theorem tells you that it doesn't exist; or rather it depends upon your problem. As a result there is a wide diversity of different algorithms that are used in practice. Consider the following rather famous news group post that describes many of the algorithms in a funny way. (OK many of the jokes are inside jokes that only make sense if you already know the algorithms, but the post at least gives you a flavor of the diversity of optimization algorithms.) The post can be found here.

Our Problem

We have some data in the (x,y) plane. Here we consider x to be the independent variable and y to be the dependent variable. Our optimization problem is to find the line y = m*x + b that best fits the data.

Here is some data with the best fitting line.