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I have been trying to use the principal-components function from Incanter to do PCA and seem to be off track in using it. I found some sample data online from a PCA tutorial and wanted to practice on it:

(def data [[0.69 0.49] [-1.31 -1.21] [0.39 0.99] [0.09 0.29] [1.29 1.09] 
           [0.49 0.79] [0.19 (- 0 0.31)] [(- 0 0.81) (- 0 0.81)] 
           [(- 0 0.31) (- 0 0.31)] [(- 0 0.71) (- 0 1.01)]])

Upon first attempt to implement PCA I tried passing vectors to Incanter's matrix function, but found myself passing it too many arguments. At this point I decided to try a nested vector structure as defined above, but would like to avoid this route.

How would I turn data into a matrix (Incanter) such that it will be accepted as input into Incanter's function principal-components. For simplicity let's call the new matrix fooMatrix.

Once this matrix, fooMatrix, has been constructed the following code should work to extract the first two principal components

     (def pca (principal-components fooMatrix))
     (def components (:rotation pca))
     (def pc1 (sel components :cols 0))
     (def pc2 (sel components :cols 1)) 

and then the data can be projected on the principal components by

     (def principal1 (mmult fooMatrix pc1)) 
     (def principal2 (mmult fooMatrix pc2))
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You don't appear to be asking a question. This link discusses using PCA via Incanter, and at the bottom of the post is a link to all of the source code used. –  galdre Mar 27 '14 at 2:25
    
What I don't understand is how to transform the vectors contained in data into a matrix than can be used by the Incanter function principal-component.@galdre –  sunspots Mar 27 '14 at 2:49
    
I have modified my initial post such that the question is explicit, thanks. –  sunspots Mar 27 '14 at 2:59

1 Answer 1

up vote 1 down vote accepted

Check out the Incanter API. I believe you just want (incanter.core/matrix data). These are your options for Incanter's matrix function. Maybe A2 is what you're interested in.

(def A (matrix [[1 2 3] [4 5 6] [7 8 9]])) ; produces a 3x3 matrix
(def A2 (matrix [1 2 3 4 5 6 7 8 9] 3)) ; produces the same 3x3 matrix
(def B (matrix [1 2 3 4 5 6 7 8 9])) ; produces a 9x1 column vector

Example using your data:

user=> (use '[incanter core stats charts datasets])
nil
user=>(def data [0.69 0.49 -1.31 -1.21 0.39 0.99 0.09 0.29 1.29
                1.09 0.49 0.79 0.19 (- 0 0.31) (- 0 0.81) (- 0 0.81)
                (- 0 0.31) (- 0 0.31) (- 0 0.71) (- 0 1.01)])
user=>(def fooMatrix (matrix data 2))
user=>(principal-components fooMatrix)
{:std-dev (1.3877785387777999 0.27215937850413047), :rotation  A 2x2 matrix
 -------------
-7.07e-01 -7.07e-01 
-7.07e-01  7.07e-01 
}

Voilà. Nested vector structure gone.

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A2 is what I was after for matrix construction –  sunspots Mar 27 '14 at 18:50

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