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matlib (version 0.9.8)

GramSchmidt: Gram-Schmidt Orthogonalization of a Matrix

Description

Carries out simple Gram-Schmidt orthogonalization of a matrix. Treating the columns of the matrix X in the given order, each successive column after the first is made orthogonal to all previous columns by subtracting their projections on the current column.

Usage

GramSchmidt(
  X,
  normalize = TRUE,
  verbose = FALSE,
  tol = sqrt(.Machine$double.eps),
  omit_zero_columns = TRUE
)

Value

A matrix of the same size as X, with orthogonal columns (but with 0 columns removed by default)

Arguments

X

a matrix

normalize

logical; should the resulting columns be normalized to unit length? The default is TRUE

verbose

logical; if TRUE, print intermediate steps. The default is FALSE

tol

the tolerance for detecting linear dependencies in the columns of a. The default is sqrt(.Machine$double.eps)

omit_zero_columns

if TRUE (the default), remove linearly dependent columns from the result

Author

Phil Chalmers, John Fox

Examples

Run this code
(xx <- matrix(c( 1:3, 3:1, 1, 0, -2), 3, 3))
crossprod(xx)
(zz <- GramSchmidt(xx, normalize=FALSE))
zapsmall(crossprod(zz))

# normalized
(zz <- GramSchmidt(xx))
zapsmall(crossprod(zz))

# print steps
GramSchmidt(xx, verbose=TRUE)

# A non-invertible matrix;  hence, it is of deficient rank
(xx <- matrix(c( 1:3, 3:1, 1, 0, -1), 3, 3))
R(xx)
crossprod(xx)
# GramSchmidt finds an orthonormal basis
(zz <- GramSchmidt(xx))
zapsmall(crossprod(zz))

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