Nippls: Difference between revisions
Jump to navigation
Jump to search
imported>Neal |
imported>Neal |
||
| (3 intermediate revisions by the same user not shown) | |||
| Line 13: | Line 13: | ||
====Inputs==== | ====Inputs==== | ||
* '''x''' = X-block (''M'' by ''Nx'') | * '''x''' = X-block (''M'' by ''Nx''). | ||
* '''y''' = Y-block (''M'' by ''Ny''). | * '''y''' = Y-block (''M'' by ''Ny''). | ||
| Line 19: | Line 19: | ||
====Optional Inputs==== | ====Optional Inputs==== | ||
* '''ncomp''' = number of components {default = rank of X-block} | * '''ncomp''' = number of components {default = rank of X-block}. | ||
* '''options''' = discussed below. | * '''options''' = discussed below. | ||
| Line 27: | Line 27: | ||
====Outputs==== | ====Outputs==== | ||
* '''reg''' = matrix of regression vectors where each row corresponds to a regression vector for a given number of latent variables. If the Y-block contains multiple columns, the rows of '''reg''' will be in groups of latent variables (so that the regression vectors for all columns of Y at 1 latent variable will come first, followed by the regression vectors for all columns of Y at 2 latent variables, etc.) | |||
* '''reg''' = matrix of regression vectors where each row corresponds to a regression vector for a given number of latent variables. If the Y-block contains multiple columns, the rows of '''reg''' will be in groups of latent variables (so that the regression vectors for all columns of Y at 1 latent variable will come first, followed by the regression vectors for all columns of Y at 2 latent variables, etc) | |||
::<math>\begin{bmatrix}{b_{y1,1}}\\ {b_{y2,1}}\\ {b_{y1,2}}\\ {b_{y2,2}}\\ {b_{y1,3}}\\ {b_{y2,3}}\end{bmatrix}</math> | ::<math>\begin{bmatrix}{b_{y1,1}}\\ {b_{y2,1}}\\ {b_{y1,2}}\\ {b_{y2,2}}\\ {b_{y1,3}}\\ {b_{y2,3}}\end{bmatrix}</math> | ||
:where b<sub> | :where b<sub>y''n,k''</sub> is the regression vector for column "''n''" of the Y-block calculated from "''k''" latent variables. | ||
* '''ssq''' = the sum of squares captured ( | * '''ssq''' = the sum of squares captured (ncomp by 5) with the columns defined as follows: | ||
::Column 1 = Number of latent variables (LVs) | ::Column 1 = Number of latent variables (LVs), | ||
::Column 2 = Variance captured ( | ::Column 2 = Variance captured (%) in the X-block by this LV, | ||
::Column 3 = Total variance captured (%) by all LVs up to this row | ::Column 3 = Total variance captured (%) by all LVs up to this row, | ||
::Column 4 = Variance captured ( | ::Column 4 = Variance captured (%) in the X-block by this LV, and | ||
::Column 5 = Total variance captured (%) by all LVs up to this row | ::Column 5 = Total variance captured (%) by all LVs up to this row. | ||
* '''xlds''' = X-block loadings ( | * '''xlds''' = X-block loadings (Nx by ncomp). | ||
* '''ylds''' = Y-block loadings ( | * '''ylds''' = Y-block loadings (Ny by ncomp). | ||
* '''wts''' = X-block weights ( | * '''wts''' = X-block weights (Nx by ncomp). | ||
* '''xscrs''' = X-block scores ( | * '''xscrs''' = X-block scores (M by ncomp). | ||
* '''yscrs''' = Y-block scores ( | * '''yscrs''' = Y-block scores (M by ncomp). | ||
* '''bin''' = the inner relation coefficients ( | * '''bin''' = the inner relation coefficients (1 by ncomp). | ||
* '''nipwts''' = X-block weights in the original deflated X format. | |||
===Options=== | ===Options=== | ||
Latest revision as of 14:32, 23 October 2013
Purpose
NIPALS Partial Least Squares computational engine.
Synopsis
- [reg,ssq,xlds,ylds,wts,xscrs,yscrs,bin,nipwts] = nippls(x,y,ncomp,options)
Description
Performs PLS regression using NIPALS algorithm.
Inputs
- x = X-block (M by Nx).
- y = Y-block (M by Ny).
Optional Inputs
- ncomp = number of components {default = rank of X-block}.
- options = discussed below.
The default options can be retrieved using: options = nippls('options');.
Outputs
- reg = matrix of regression vectors where each row corresponds to a regression vector for a given number of latent variables. If the Y-block contains multiple columns, the rows of reg will be in groups of latent variables (so that the regression vectors for all columns of Y at 1 latent variable will come first, followed by the regression vectors for all columns of Y at 2 latent variables, etc.)
- where byn,k is the regression vector for column "n" of the Y-block calculated from "k" latent variables.
- ssq = the sum of squares captured (ncomp by 5) with the columns defined as follows:
- Column 1 = Number of latent variables (LVs),
- Column 2 = Variance captured (%) in the X-block by this LV,
- Column 3 = Total variance captured (%) by all LVs up to this row,
- Column 4 = Variance captured (%) in the X-block by this LV, and
- Column 5 = Total variance captured (%) by all LVs up to this row.
- xlds = X-block loadings (Nx by ncomp).
- ylds = Y-block loadings (Ny by ncomp).
- wts = X-block weights (Nx by ncomp).
- xscrs = X-block scores (M by ncomp).
- yscrs = Y-block scores (M by ncomp).
- bin = the inner relation coefficients (1 by ncomp).
- nipwts = X-block weights in the original deflated X format.
Options
- options = a structure containing the fields:
- display: [ 'off' |{'on'}], governs display to command window.