RWLinearRegression Class Reference

Constructs a linear regression model from a matrix of predictor variable data and a vector of observation variable data. More...

#include <rw/analytics/linregress.h>

Inheritance diagram for RWLinearRegression:

Public Member Functions
	RWLinearRegression ()
	RWLinearRegression (const RWLinearRegression &lr)
	RWLinearRegression (const RWGenMat< double > &predictorData, const RWMathVec< double > &obsVec, InterceptOption interceptOpt=addIntercept)
	RWLinearRegression (const RWGenMat< double > &predictorData, const RWMathVec< double > &obsVec, const RWRegressionCalc< double, double > &c, InterceptOption interceptOpt=addIntercept)
RWLinearRegression &	operator= (const RWLinearRegression &lr)
RWGenMat< double >	paramDispersionMatrix () const
RWTValVector< RWLinearRegressionParam >	parameterEstimates () const
RWMathVec< double >	predictedObservation (const RWGenMat< double > &m) const
double	predictedObservation (const RWMathVec< double > &v) const
RWInterval< double >	predictionInterval (const RWMathVec< double > &x, double alpha) const
RWMathVec< double >	residuals () const
double	variance () const
Public Member Functions inherited from RWRegression< double, double >
void	addInterceptParameter ()
void	addObservation (const RWMathVec< double > &, double)
void	addObservations (const RWGenMat< double > &, const RWMathVec< double > &)
void	addPredictor (const RWMathVec< double > &)
void	addPredictors (const RWGenMat< double > &)
const RWRegressionCalc< double, double > &	calcMethod () const
bool	fail () const
bool	hasInterceptParameter () const
size_t	numObservations () const
size_t	numParameters () const
size_t	numPredictors () const
const RWMathVec< double >	observationVector () const
RWMathVec< double >	observationVector ()
const RWMathVec< double >	parameters () const
const RWGenMat< double >	predictorMatrix () const
RWGenMat< double >	predictorMatrix ()
void	reCalculateParameters ()
const RWGenMat< double >	regressionMatrix () const
void	removeInterceptParameter ()
void	removeObservations (size_t startingIndex, size_t numToRemove)
void	removePredictors (size_t startingIndex, size_t numToRemove)
void	setCalcMethod (const RWRegressionCalc< double, double > &c, bool recalculate=true)
void	setRegressionData (const RWGenMat< double > &r, const RWMathVec< double > &o, InterceptOption interceptOpt=addIntercept)

Additional Inherited Members
Public Types inherited from RWRegression< double, double >
enum	InterceptOption

Detailed Description

Class RWLinearRegression constructs a linear regression model from a matrix of predictor variable data and a vector of observation variable data. The class implements multiple linear regression as described in Section 3.2, "Multiple Linear Regression," in the Business Analysis Module User's Guide.

The class makes several assumptions regarding the predictor matrix and observation vector passed to the constructor. Columns in the predictor matrix correspond to predictor variables, and the matrix rows correspond to predictor patterns. Both predictor matrix and observation vector are double precision, and the length of the observation vector should equal the number of rows in the predictor matrix. The user has the choice of specifying whether the model has an intercept parameter, and if so, whether the provided predictor matrix includes a column of 1s for the intercept parameter.

You can choose from among several regression parameter calculation methods, including QR decomposition without pivoting (RWLeastSqQRCalc), QR decomposition with pivoting (RWLeastSqQRPvtCalc), and singular value decomposition (RWLeastSqSVDCalc). The calculation method is set by passing a calculation class instance to the method setCalcMethod(). You have the option of providing your own implementation derived from the class RWRegressionCalc<double,double>.

Once the linear regression object is constructed, it can be queried for specific values related to linear regression, such as model parameters, model predictions, prediction intervals, and confidence intervals for parameter values. The model may also be updated by changing values in the predictor matrix and observation vector, or by changing the calculation method.

Synopsis

#include <rw/math/mathvec.h>
#include <rw/math/genmat.h>
#include <rw/analytics/linregress.h>

RWGenMat<double> predMat;
RWMathVecd<double> obsVec;
RWLinearRegression lr(predMat, obsVec);

Example

This simple example prints out the calculated parameter values for a linear regression model.

#include <rw/analytics/linregress.h>

int main() {
 RWGenMat<double> predictorMatrix =
                       "5x2 [1.2 2.1 8 7 3 3.2 6.4 4.6 2 2.3]";
 RWMathVec<double> observationVector = "[2.5 3.7 1.4 2.3 5.6]";

 RWLinearRegression lr(predictorMatrix, observationVector);

 // Print out the model parameters if the calculation succeeded.
 if ( !lr.fail() )
  cout << "Model parameters: " << lr.parameters() << endl;
 else
  cout << "Parameter calculation failed." << endl;
 return 0;
}

Constructor & Destructor Documentation

RWLinearRegression::RWLinearRegression ( )

inline

Constructs an empty linear regression object. Behavior is undefined.

RWLinearRegression::RWLinearRegression ( const RWLinearRegression &  lr )

inline

Constructs a copy of lr.

RWLinearRegression::RWLinearRegression ( const RWGenMat< double > &  predictorData, const RWMathVec< double > &  obsVec, InterceptOption  interceptOpt = addIntercept  )

inline

Constructs a regression object from the given predictor data matrix and observation vector. The intercept option parameter indicates whether or not the model contains an intercept parameter. The parameter calculation is done using the QR decomposition method.

RWLinearRegression::RWLinearRegression ( const RWGenMat< double > &  predictorData, const RWMathVec< double > &  obsVec, const RWRegressionCalc< double, double > &  c, InterceptOption  interceptOpt = addIntercept  )

inline

Constructs a regression object from the given predictor data matrix and observation vector. The intercept option parameter indicates whether or not the model contains an intercept parameter. The parameter calculation is done using the method defined by the regression calculation object c.

Member Function Documentation

RWLinearRegression& RWLinearRegression::operator= ( const RWLinearRegression &  lr )

inline

Copies the contents of lr to self.

RWGenMat<double> RWLinearRegression::paramDispersionMatrix

(

)

const

Returns the dispersion matrix for the parameter estimates. This is also known as the parameter variance-covariance matrix.

RWTValVector<RWLinearRegressionParam> RWLinearRegression::parameterEstimates

(

)

const

Returns the list of estimated parameters.

RWMathVec<double> RWLinearRegression::predictedObservation

(

const RWGenMat< double > &

m

)

const

Returns the predicted response vector, \(\mathbf{\hat{Y}}\) , as defined in Section 3.2, "Multiple Linear Regression," in the Business Analysis Module User's Guide.

double RWLinearRegression::predictedObservation

(

const RWMathVec< double > &

v

)

const

Returns the predicted response, \(\mathbf{\hat{Y}}\) , as defined in Section 3.2, "Multiple Linear Regression," in the Business Analysis Module User's Guide.

RWInterval<double> RWLinearRegression::predictionInterval	(	const RWMathVec< double > &	x,
		double	alpha
	)		const

Returns an alpha level confidence interval for the response predicted by the regression at x as defined in Section 3.2, "Multiple Linear Regression," in the Business Analysis Module User's Guide.

RWMathVec<double> RWLinearRegression::residuals

(

)

const

Returns the vector of residuals \(\mathbf{e = Y - \hat{Y}}\) See Section 3.2, "Multiple Linear Regression," in the Business Analysis Module User's Guide.

double RWLinearRegression::variance

(

)

const

Returns the variance for the model. This is the residual sum of squares divided by its degrees of freedom.