SingularValueDecomposition (parent patrimoine de base SIRIUS 3.3 API)

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org.apache.commons.math3.linear
Class SingularValueDecomposition

java.lang.Object
  org.apache.commons.math3.linear.SingularValueDecomposition

public class SingularValueDecomposition
extends Object
extends Object

Calculates the compact Singular Value Decomposition of a matrix.

The Singular Value Decomposition of matrix A is a set of three matrices: U, Σ and V such that A = U × Σ × V^T. Let A be a m × n matrix, then U is a m × p orthogonal matrix, Σ is a p × p diagonal matrix with positive or null elements, V is a p × n orthogonal matrix (hence V^T is also orthogonal) where p=min(m,n).

This class is similar to the class with similar name from the JAMA library, with the following changes:

the norm2 method which has been renamed as getNorm,
the cond method which has been renamed as getConditionNumber,
the rank method which has been renamed as getRank,
a getUT method has been added,
a getVT method has been added,
a getSolver method has been added,
a getCovariance method has been added.

Since:: 2.0 (changed to concrete class in 3.0)
Version:: $Id: SingularValueDecomposition.java 3720 2012-03-16 16:34:17Z CardosoP $
See Also:: MathWorld, Wikipedia

Constructor Summary
`SingularValueDecomposition(RealMatrix matrix)` Calculates the compact Singular Value Decomposition of the given matrix.

Method Summary
`double`	`getConditionNumber()` Return the condition number of the matrix.
`RealMatrix`	`getCovariance(double minSingularValue)` Returns the n × n covariance matrix.
`double`	`getInverseConditionNumber()` Computes the inverse of the condition number.
`double`	`getNorm()` Returns the L₂ norm of the matrix.
`int`	`getRank()` Return the effective numerical matrix rank.
`RealMatrix`	`getS()` Returns the diagonal matrix Σ of the decomposition.
`double[]`	`getSingularValues()` Returns the diagonal elements of the matrix Σ of the decomposition.
`DecompositionSolver`	`getSolver()` Get a solver for finding the A × X = B solution in least square sense.
`RealMatrix`	`getU()` Returns the matrix U of the decomposition.
`RealMatrix`	`getUT()` Returns the transpose of the matrix U of the decomposition.
`RealMatrix`	`getV()` Returns the matrix V of the decomposition.
`RealMatrix`	`getVT()` Returns the transpose of the matrix V of the decomposition.

Methods inherited from class java.lang.Object
`clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait`

Constructor Detail

SingularValueDecomposition

public SingularValueDecomposition(RealMatrix matrix)

Calculates the compact Singular Value Decomposition of the given matrix.

Parameters:: matrix - Matrix to decompose.

Method Detail

getU

public RealMatrix getU()

Returns the matrix U of the decomposition.

U is an orthogonal matrix, i.e. its transpose is also its inverse.

Returns:: the U matrix
See Also:: getUT()

getUT

public RealMatrix getUT()

Returns the transpose of the matrix U of the decomposition.

U is an orthogonal matrix, i.e. its transpose is also its inverse.

Returns:: the U matrix (or null if decomposed matrix is singular)
See Also:: getU()

getS

public RealMatrix getS()

Returns the diagonal matrix Σ of the decomposition.

Σ is a diagonal matrix. The singular values are provided in non-increasing order, for compatibility with Jama.

Returns:: the Σ matrix

getSingularValues

public double[] getSingularValues()

Returns the diagonal elements of the matrix Σ of the decomposition.

The singular values are provided in non-increasing order, for compatibility with Jama.

Returns:: the diagonal elements of the Σ matrix

getV

public RealMatrix getV()

Returns the matrix V of the decomposition.

V is an orthogonal matrix, i.e. its transpose is also its inverse.

Returns:: the V matrix (or null if decomposed matrix is singular)
See Also:: getVT()

getVT

public RealMatrix getVT()

Returns the transpose of the matrix V of the decomposition.

V is an orthogonal matrix, i.e. its transpose is also its inverse.

Returns:: the V matrix (or null if decomposed matrix is singular)
See Also:: getV()

getCovariance

public RealMatrix getCovariance(double minSingularValue)

Returns the n × n covariance matrix.

The covariance matrix is V × J × V^T where J is the diagonal matrix of the inverse of the squares of the singular values.

Parameters:: minSingularValue - value below which singular values are ignored (a 0 or negative value implies all singular value will be used)
Returns:: covariance matrix
Throws:: IllegalArgumentException - if minSingularValue is larger than the largest singular value, meaning all singular values are ignored

getNorm

public double getNorm()

Returns the L₂ norm of the matrix.

The L₂ norm is max(|A × u|₂ / |u|₂), where |.|₂ denotes the vectorial 2-norm (i.e. the traditional euclidian norm).

Returns:: norm

getConditionNumber

public double getConditionNumber()

Return the condition number of the matrix.

Returns:: condition number of the matrix

getInverseConditionNumber

public double getInverseConditionNumber()

Computes the inverse of the condition number. In cases of rank deficiency, the

condition
 number

will become undefined.

Returns:: the inverse of the condition number.

getRank

public int getRank()

Return the effective numerical matrix rank.

The effective numerical rank is the number of non-negligible singular values. The threshold used to identify non-negligible terms is max(m,n) × ulp(s₁) where ulp(s₁) is the least significant bit of the largest singular value.

Returns:: effective numerical matrix rank

getSolver

public DecompositionSolver getSolver()

Get a solver for finding the A × X = B solution in least square sense.

Returns:: a solver