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I'm analyzing financial data and would like to find the inflection points of a line. I know I can do this using derivatives, but first I need an equation. Is there a way to generate an equation based off of a series of numbers. I would need to do this programmaticly.

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may be try mathoverflow? –  Shoban Jan 12 '10 at 20:22
MathOverflow is for professional mathematicians who talk about post-graduate level mathematics. It's not a general-purpose math Q&A site. –  Eric Lippert Jan 12 '10 at 20:24
I didn't even know mathoverflow existed. Thanks! –  Arron S Jan 12 '10 at 22:22

4 Answers 4

up vote 11 down vote accepted

Spline interpolation is probably more useful for you than polynomial interpolation: if you fit a polynomial, it must inevitably head off to +/- infinity outside your data range.

You will also want a method which allows a slightly loose fit: financial data is often a bit noisy which can result in very weird curves if you try to fit it exactly.

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+1 spline is a good choice as well :) –  Mahesh Velaga Jan 12 '10 at 20:27
Mine is a good answer. Yours is a better answer. +1! –  Carl Smotricz Jan 12 '10 at 20:31
I'd also like to emphasize the last sentence. Financial data is very unlikely to fit any reasonable curve, so any curve that fits exactly will have all sorts of oddities. Look for a more general and smooth function that fits the data pretty well. –  David Thornley Jan 12 '10 at 20:45
awesome! Thanks Tom! –  Arron S Jan 12 '10 at 22:13

There are established procedures for turning a set of existing data points into a polynomial; this is called Polynomial Interpolation. This article in Wikipedia: http://en.wikipedia.org/wiki/Polynomial_interpolation explains it mathematically. You can probably Google for algorithms easily enough.

Given enough points, your polynomial tracks the original, unknown function reasonably well, so the polynomial's inflection points should roughly coincide with the peaks and troughs of your data.

On the other hand, we all know there's not really a function behind financial data. So if I were you I'd scan along those points and find every point that has a smaller value to either side of it, and declare that a high; and vice versa for lows. Force-fitting this data into a fictitious function isn't going to make it any more useful.

Update: Tom Smith advises that spline interpolation is to be preferred to polynomial interpolation for this kind of thing, and Wikipedia bears him out. Or rather, it's bullish on his answer.

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+1 you beat me to it! –  Mahesh Velaga Jan 12 '10 at 20:24
How do you know polynomial interpolation is appropriate without knowing the nature of the data ? –  ldigas Jan 12 '10 at 20:25
It's financial data. It's a series of ups and downs determined by the digestive tracts of a few thousand high-volume traders. [shrug] –  Carl Smotricz Jan 12 '10 at 20:30
You know for a fact or you're just making an unhealthy assumption ? –  ldigas Jan 12 '10 at 20:31
"Financial data" comes from the question. The rest comes from a plausible assumption. Everybody and their dog try the tea leaf reading game on stock market curves. If they passed High School calculus, they try to apply that. –  Carl Smotricz Jan 12 '10 at 20:36

What you are thinking is analytical calculus ... when having discrete data (e.g. points), you have to do it numerically. Now, a line usually doesn't have inflection points, so I guess you're thinking of a curve. You can either interpolate some kind of it through the points, then calculate the first derivative (also numerically, but for a larger number of points), or you can just calculate the first derivation from the points you have (which will be better depends on how many points you actually have).

But really, this is just theory since we don't know the nature of data, or the language or anything.

For more on the subject search: numerical analysis on wiki, and go from there.

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I think curve fitting might help you in this case. Here is a discussion which might be handy.


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