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25.4 Linear Least Squares

Octave also supports linear least squares minimization. That is, Octave can find the parameter b such that the model y = x*b fits data (x,y) as well as possible, assuming zero-mean Gaussian noise. If the noise is assumed to be isotropic the problem can be solved using the ‘\’ or ‘/’ operators, or the ols function. In the general case where the noise is assumed to be anisotropic the gls is needed.

Function File: [beta, sigma, r] = ols (y, x)

Ordinary least squares estimation.

OLS applies to the multivariate model y = x*b + e with mean (e) = 0 and cov (vec (e)) = kron (s, I). where y is a t by p matrix, x is a t by k matrix, b is a k by p matrix, and e is a t by p matrix.

Each row of y and x is an observation and each column a variable.

The return values beta, sigma, and r are defined as follows.

beta

The OLS estimator for b. beta is calculated directly via inv (x'*x) * x' * y if the matrix x'*x is of full rank. Otherwise, beta = pinv (x) * y where pinv (x) denotes the pseudoinverse of x.

sigma

The OLS estimator for the matrix s,

sigma = (y-x*beta)'
  * (y-x*beta)
  / (t-rank(x))
r

The matrix of OLS residuals, r = y - x*beta.

See also: gls, pinv.

Function File: [beta, v, r] = gls (y, x, o)

Generalized least squares model.

Perform a generalized least squares estimation for the multivariate model y = x*b + e with mean (e) = 0 and cov (vec (e)) = (s^2) o, where y is a t by p matrix, x is a t by k matrix, b is a k by p matrix, e is a t by p matrix, and o is a t*p by t*p matrix.

Each row of y and x is an observation and each column a variable. The return values beta, v, and r are defined as follows.

beta

The GLS estimator for b.

v

The GLS estimator for s^2.

r

The matrix of GLS residuals, r = y - x*beta.

See also: ols.

Function File: x = lsqnonneg (c, d)
Function File: x = lsqnonneg (c, d, x0)
Function File: x = lsqnonneg (c, d, x0, options)
Function File: [x, resnorm] = lsqnonneg (…)
Function File: [x, resnorm, residual] = lsqnonneg (…)
Function File: [x, resnorm, residual, exitflag] = lsqnonneg (…)
Function File: [x, resnorm, residual, exitflag, output] = lsqnonneg (…)
Function File: [x, resnorm, residual, exitflag, output, lambda] = lsqnonneg (…)

Minimize norm (c*x - d) subject to x >= 0.

c and d must be real.

x0 is an optional initial guess for x.

Currently, lsqnonneg recognizes these options: "MaxIter", "TolX". For a description of these options, see optimset.

Outputs:

See also: optimset, pqpnonneg, lscov.

Function File: x = lscov (A, b)
Function File: x = lscov (A, b, V)
Function File: x = lscov (A, b, V, alg)
Function File: [x, stdx, mse, S] = lscov (…)

Compute a generalized linear least squares fit.

Estimate x under the model b = Ax + w, where the noise w is assumed to follow a normal distribution with covariance matrix {\sigma^2} V.

If the size of the coefficient matrix A is n-by-p, the size of the vector/array of constant terms b must be n-by-k.

The optional input argument V may be a n-by-1 vector of positive weights (inverse variances), or a n-by-n symmetric positive semidefinite matrix representing the covariance of b. If V is not supplied, the ordinary least squares solution is returned.

The alg input argument, a guidance on solution method to use, is currently ignored.

Besides the least-squares estimate matrix x (p-by-k), the function also returns stdx (p-by-k), the error standard deviation of estimated x; mse (k-by-1), the estimated data error covariance scale factors (\sigma^2); and S (p-by-p, or p-by-p-by-k if k > 1), the error covariance of x.

Reference: Golub and Van Loan (1996), Matrix Computations (3rd Ed.), Johns Hopkins, Section 5.6.3

See also: ols, gls, lsqnonneg.

Function File: optimset ()
Function File: options = optimset ()
Function File: options = optimset (par, val, …)
Function File: options = optimset (old, par, val, …)
Function File: options = optimset (old, new)

Create options structure for optimization functions.

When called without any input or output arguments, optimset prints a list of all valid optimization parameters.

When called with one output and no inputs, return an options structure with all valid option parameters initialized to [].

When called with a list of parameter/value pairs, return an options structure with only the named parameters initialized.

When the first input is an existing options structure old, the values are updated from either the par/val list or from the options structure new.

Valid parameters are:

AutoScaling
ComplexEqn
Display

Request verbose display of results from optimizations. Values are:

"off" [default]

No display.

"iter"

Display intermediate results for every loop iteration.

"final"

Display the result of the final loop iteration.

"notify"

Display the result of the final loop iteration if the function has failed to converge.

FinDiffType
FunValCheck

When enabled, display an error if the objective function returns an invalid value (a complex number, NaN, or Inf). Must be set to "on" or "off" [default]. Note: the functions fzero and fminbnd correctly handle Inf values and only complex values or NaN will cause an error in this case.

GradObj

When set to "on", the function to be minimized must return a second argument which is the gradient, or first derivative, of the function at the point x. If set to "off" [default], the gradient is computed via finite differences.

Jacobian

When set to "on", the function to be minimized must return a second argument which is the Jacobian, or first derivative, of the function at the point x. If set to "off" [default], the Jacobian is computed via finite differences.

MaxFunEvals

Maximum number of function evaluations before optimization stops. Must be a positive integer.

MaxIter

Maximum number of algorithm iterations before optimization stops. Must be a positive integer.

OutputFcn

A user-defined function executed once per algorithm iteration.

TolFun

Termination criterion for the function output. If the difference in the calculated objective function between one algorithm iteration and the next is less than TolFun the optimization stops. Must be a positive scalar.

TolX

Termination criterion for the function input. If the difference in x, the current search point, between one algorithm iteration and the next is less than TolX the optimization stops. Must be a positive scalar.

TypicalX
Updating

See also: optimget.

Function File: optimget (options, parname)
Function File: optimget (options, parname, default)

Return the specific option parname from the optimization options structure options created by optimset.

If parname is not defined then return default if supplied, otherwise return an empty matrix.

See also: optimset.


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