# Why do we maximize variance during Principal Component Analysis?

I'm trying to read through PCA and saw that the objective was to maximize the variance. I dont quite understand why. Any explanation / pointers on other related topics would be helpful

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Variance is a measure of the "variability" of the data you have. Potentially the number of components is infinite, so you want to "squeeze" the most information in each component of the finite set you build.

If, to exaggerate, you were to select a single principal component, you would want it to account for the most variability possible: hence the search for maximum variance, so that the one component collects the most "uniqueness" from the data set.

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Maximizing the component vector variances is the same as maximizing the 'uniqueness' of those vectors. Thus you're vectors are as distant from each other as possible. That way if you only use the first N component vectors you're going to capture more space with highly varying vectors than with like vectors. Think about what Principal Component actually means.

Take for example a situation where you have 2 lines that are orthogonal in a 3D space. You can capture the environment much more completely with those orthogonal lines than 2 lines that are parallel (or nearly parallel). When applied to very high dimensional states using very few vectors, this becomes a much more important relationship among the vectors to maintain. In a linear algebra sense you want independent rows to be produced by PCA, otherwise some of those rows will be redundant.

See this PDF from Princeton's CS Department for a basic explanation.

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Note that PCA does not actually increase the variance of your data. Rather, it rotates the data set in such a way as to align the directions in which it is spread out the most with the principal axes. This enables you to remove those dimensions along which the data is almost flat. This decreases the dimensionality of the data while keeping the variance (or spread) among the points as close to the original as possible.

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could you give a reference, which explains PCA in terms of this rotation point of view? –  Atilla Ozgur Sep 14 '12 at 9:20
@AtillaOzgur PCA produces an orthonormal transformation matrix. Orthonormal matrices are combinations of rotations and reflections. –  Don Reba Sep 14 '12 at 9:44