Uses of Class
org.apache.commons.math3.linear.RealVector

Packages that use RealVector

fr.cnes.sirius.patrius.tools.ephemerisComparator
org.apache.commons.math3.filter	Implementations of common discrete-time linear filters.
org.apache.commons.math3.geometry.euclidean.threed	This package provides basic 3D geometry components.
org.apache.commons.math3.linear	Linear algebra support.
org.apache.commons.math3.optim.linear	Optimization algorithms for linear constrained problems.
org.apache.commons.math3.optimization.linear	This package provides optimization algorithms for linear constrained problems.
org.apache.commons.math3.stat.regression	Statistical routines involving multivariate data.

Uses of RealVector in fr.cnes.sirius.patrius.tools.ephemerisComparator

Subclasses of RealVector in fr.cnes.sirius.patrius.tools.ephemerisComparator

class

VectorDPFacade This class is a facade for the use of vectors.

Uses of RealVector in org.apache.commons.math3.filter

Methods in org.apache.commons.math3.filter that return RealVector

RealVector	ProcessModel.getInitialStateEstimate() Returns the initial state estimation vector.
RealVector	DefaultProcessModel.getInitialStateEstimate() Returns the initial state estimation vector.
RealVector	KalmanFilter.getStateEstimationVector() Returns a copy of the current state estimation vector.

Methods in org.apache.commons.math3.filter with parameters of type RealVector

void	KalmanFilter.correct(RealVector z) Correct the current state estimate with an actual measurement.
void	KalmanFilter.predict(RealVector u) Predict the internal state estimation one time step ahead.

Constructors in org.apache.commons.math3.filter with parameters of type RealVector

DefaultProcessModel(RealMatrix stateTransition, RealMatrix control, RealMatrix processNoise, RealVector initialStateEstimate, RealMatrix initialErrorCovariance)
Create a new ProcessModel, taking double arrays as input parameters.

Uses of RealVector in org.apache.commons.math3.geometry.euclidean.threed

Methods in org.apache.commons.math3.geometry.euclidean.threed that return RealVector

RealVector

Vector3D.getRealVector() Get a RealVector with identical data.

Constructors in org.apache.commons.math3.geometry.euclidean.threed with parameters of type RealVector

Vector3D(RealVector vector)
From a RealVector constructor Build a vector from a RealVector object.

Uses of RealVector in org.apache.commons.math3.linear

Subclasses of RealVector in org.apache.commons.math3.linear

class	ArrayRealVector This class implements the RealVector interface with a double array.
class	OpenMapRealVector Deprecated. As of version 3.1, this class is deprecated, for reasons exposed in this JIRA ticket. This class will be removed in version 4.0.
class	SparseRealVector Deprecated. As of version 3.1, this class is deprecated, for reasons exposed in this JIRA ticket. This class will be removed in version 4.0.

Methods in org.apache.commons.math3.linear that return RealVector

RealVector	OpenMapRealVector.add(RealVector v) Deprecated. Compute the sum of this vector and v.
RealVector	RealVector.add(RealVector v) Compute the sum of this vector and v.
abstract RealVector	RealVector.append(double d) Construct a new vector by appending a double to this vector.
RealVector	ArrayRealVector.append(double in) Construct a new vector by appending a double to this vector.
abstract RealVector	RealVector.append(RealVector v) Construct a new vector by appending a vector to this vector.
RealVector	ArrayRealVector.append(RealVector v) Construct a new vector by appending a vector to this vector.
RealVector	RealVector.combine(double a, double b, RealVector y) Returns a new vector representing a * this + b * y, the linear combination of this and y.
RealVector	RealVector.combineToSelf(double a, double b, RealVector y) Updates this with the linear combination of this and y.
abstract RealVector	RealVector.copy() Returns a (deep) copy of this vector.
static RealVector	MatrixUtils.createRealVector(double[] data) Creates a RealVector using the data from the input array.
abstract RealVector	RealVector.ebeDivide(RealVector v) Deprecated. As of version 3.1, this method is deprecated, and will be removed in version 4.0. This decision follows the discussion reported in MATH-803. Uses of this method involving sparse implementations of RealVector might lead to wrong results. Since there is no satisfactory correction to this bug, this method is deprecated. Users who want to preserve this feature are advised to implement RealVectorPreservingVisitor (possibly ignoring corner cases for the sake of efficiency).
abstract RealVector	RealVector.ebeMultiply(RealVector v) Deprecated. As of version 3.1, this method is deprecated, and will be removed in version 4.0. This decision follows the discussion reported in MATH-803. Uses of this method involving sparse implementations of RealVector might lead to wrong results. Since there is no satisfactory correction to this bug, this method is deprecated. Users who want to preserve this feature are advised to implement RealVectorPreservingVisitor (possibly ignoring corner cases for the sake of efficiency).
RealVector	AbstractRealMatrix.getColumnVector(int column) Get the entries at the given column index as a vector.
RealVector	RealMatrix.getColumnVector(int column) Get the entries at the given column index as a vector.
RealVector	BlockRealMatrix.getColumnVector(int column) Get the entries at the given column index as a vector.
RealVector	EigenDecomposition.getEigenvector(int i) Gets a copy of the ith eigenvector of the original matrix.
RealVector	IterativeLinearSolverEvent.getResidual() Returns the residual.
RealVector	DefaultIterativeLinearSolverEvent.getResidual() Returns the residual.
abstract RealVector	IterativeLinearSolverEvent.getRightHandSideVector() Returns the current right-hand side of the linear system to be solved.
RealVector	DefaultIterativeLinearSolverEvent.getRightHandSideVector() Returns the current right-hand side of the linear system to be solved.
RealVector	AbstractRealMatrix.getRowVector(int row) Returns the entries in row number row as a vector.
RealVector	RealMatrix.getRowVector(int row) Returns the entries in row number row as a vector.
RealVector	BlockRealMatrix.getRowVector(int row) Returns the entries in row number row as a vector.
abstract RealVector	IterativeLinearSolverEvent.getSolution() Returns the current estimate of the solution to the linear system to be solved.
RealVector	DefaultIterativeLinearSolverEvent.getSolution() Returns the current estimate of the solution to the linear system to be solved.
abstract RealVector	RealVector.getSubVector(int index, int n) Get a subvector from consecutive elements.
RealVector	ArrayRealVector.getSubVector(int index, int n) Get a subvector from consecutive elements.
RealVector	RealVector.map(UnivariateFunction function) Acts as if implemented as:
RealVector	RealVector.mapAdd(double d) Add a value to each entry.
RealVector	RealVector.mapAddToSelf(double d) Add a value to each entry.
RealVector	ArrayRealVector.mapAddToSelf(double d) Add a value to each entry.
RealVector	RealVector.mapDivide(double d) Divide each entry by the argument.
RealVector	RealVector.mapDivideToSelf(double d) Divide each entry by the argument.
RealVector	ArrayRealVector.mapDivideToSelf(double d) Divide each entry by the argument.
RealVector	RealVector.mapMultiply(double d) Multiply each entry by the argument.
RealVector	RealVector.mapMultiplyToSelf(double d) Multiply each entry.
RealVector	ArrayRealVector.mapMultiplyToSelf(double d) Multiply each entry.
RealVector	RealVector.mapSubtract(double d) Subtract a value from each entry.
RealVector	RealVector.mapSubtractToSelf(double d) Subtract a value from each entry.
RealVector	ArrayRealVector.mapSubtractToSelf(double d) Subtract a value from each entry.
RealVector	RealVector.mapToSelf(UnivariateFunction function) Acts as if it is implemented as:
RealVector	AbstractRealMatrix.operate(RealVector v) Returns the result of multiplying this by the vector x.
RealVector	RealMatrix.operate(RealVector v) Returns the result of multiplying this by the vector v.
abstract RealVector	RealLinearOperator.operate(RealVector x) Returns the result of multiplying this by the vector x.
RealVector	JacobiPreconditioner.operate(RealVector x) Returns the result of multiplying this by the vector x.
RealVector	RealLinearOperator.operateTranspose(RealVector x) Returns the result of multiplying the transpose of this operator by the vector x (optional operation).
RealVector	AbstractRealMatrix.preMultiply(RealVector v) Returns the (row) vector result of premultiplying this by the vector v.
RealVector	RealMatrix.preMultiply(RealVector v) Returns the (row) vector result of premultiplying this by the vector v.
RealVector	RealVector.projection(RealVector v) Find the orthogonal projection of this vector onto another vector.
RealVector	SymmLQ.solve(RealLinearOperator a, RealLinearOperator m, RealVector b) Returns an estimate of the solution to the linear system A · x = b.
RealVector	PreconditionedIterativeLinearSolver.solve(RealLinearOperator a, RealLinearOperator m, RealVector b) Returns an estimate of the solution to the linear system A · x = b.
RealVector	SymmLQ.solve(RealLinearOperator a, RealLinearOperator m, RealVector b, boolean goodb, double shift) Returns an estimate of the solution to the linear system (A - shift · I) · x = b.
RealVector	SymmLQ.solve(RealLinearOperator a, RealLinearOperator m, RealVector b, RealVector x) Returns an estimate of the solution to the linear system A · x = b.
RealVector	PreconditionedIterativeLinearSolver.solve(RealLinearOperator a, RealLinearOperator m, RealVector b, RealVector x0) Returns an estimate of the solution to the linear system A · x = b.
RealVector	SymmLQ.solve(RealLinearOperator a, RealVector b) Returns an estimate of the solution to the linear system A · x = b.
RealVector	PreconditionedIterativeLinearSolver.solve(RealLinearOperator a, RealVector b) Returns an estimate of the solution to the linear system A · x = b.
RealVector	IterativeLinearSolver.solve(RealLinearOperator a, RealVector b) Returns an estimate of the solution to the linear system A · x = b.
RealVector	SymmLQ.solve(RealLinearOperator a, RealVector b, boolean goodb, double shift) Returns the solution to the system (A - shift · I) · x = b.
RealVector	SymmLQ.solve(RealLinearOperator a, RealVector b, RealVector x) Returns an estimate of the solution to the linear system A · x = b.
RealVector	PreconditionedIterativeLinearSolver.solve(RealLinearOperator a, RealVector b, RealVector x0) Returns an estimate of the solution to the linear system A · x = b.
RealVector	IterativeLinearSolver.solve(RealLinearOperator a, RealVector b, RealVector x0) Returns an estimate of the solution to the linear system A · x = b.
RealVector	DecompositionSolver.solve(RealVector b) Solve the linear equation A × X = B for matrices A.
RealVector	SymmLQ.solveInPlace(RealLinearOperator a, RealLinearOperator m, RealVector b, RealVector x) Returns an estimate of the solution to the linear system A · x = b.
abstract RealVector	PreconditionedIterativeLinearSolver.solveInPlace(RealLinearOperator a, RealLinearOperator m, RealVector b, RealVector x0) Returns an estimate of the solution to the linear system A · x = b.
RealVector	ConjugateGradient.solveInPlace(RealLinearOperator a, RealLinearOperator m, RealVector b, RealVector x0) Returns an estimate of the solution to the linear system A · x = b.
RealVector	SymmLQ.solveInPlace(RealLinearOperator a, RealLinearOperator m, RealVector b, RealVector x, boolean goodb, double shift) Returns an estimate of the solution to the linear system (A - shift · I) · x = b.
RealVector	SymmLQ.solveInPlace(RealLinearOperator a, RealVector b, RealVector x) Returns an estimate of the solution to the linear system A · x = b.
RealVector	PreconditionedIterativeLinearSolver.solveInPlace(RealLinearOperator a, RealVector b, RealVector x0) Returns an estimate of the solution to the linear system A · x = b.
abstract RealVector	IterativeLinearSolver.solveInPlace(RealLinearOperator a, RealVector b, RealVector x0) Returns an estimate of the solution to the linear system A · x = b.
RealVector	OpenMapRealVector.subtract(RealVector v) Deprecated. Subtract v from this vector.
RealVector	RealVector.subtract(RealVector v) Subtract v from this vector.
RealVector	RealVector.unitVector() Creates a unit vector pointing in the direction of this vector.
static RealVector	RealVector.unmodifiableRealVector(RealVector v) Returns an unmodifiable view of the specified vector.

Methods in org.apache.commons.math3.linear with parameters of type RealVector

RealVector	OpenMapRealVector.add(RealVector v) Deprecated. Compute the sum of this vector and v.
RealVector	RealVector.add(RealVector v) Compute the sum of this vector and v.
ArrayRealVector	ArrayRealVector.add(RealVector v) Compute the sum of this vector and v.
OpenMapRealVector	OpenMapRealVector.append(RealVector v) Deprecated. Construct a new vector by appending a vector to this vector.
abstract RealVector	RealVector.append(RealVector v) Construct a new vector by appending a vector to this vector.
RealVector	ArrayRealVector.append(RealVector v) Construct a new vector by appending a vector to this vector.
protected static void	PreconditionedIterativeLinearSolver.checkParameters(RealLinearOperator a, RealLinearOperator m, RealVector b, RealVector x0) Performs all dimension checks on the parameters of solve and solveInPlace, and throws an exception if one of the checks fails.
protected static void	IterativeLinearSolver.checkParameters(RealLinearOperator a, RealVector b, RealVector x0) Performs all dimension checks on the parameters of solve and solveInPlace, and throws an exception if one of the checks fails.
protected void	RealVector.checkVectorDimensions(RealVector v) Check if instance and specified vectors have the same dimension.
protected void	ArrayRealVector.checkVectorDimensions(RealVector v) Check if instance and specified vectors have the same dimension.
RealVector	RealVector.combine(double a, double b, RealVector y) Returns a new vector representing a * this + b * y, the linear combination of this and y.
ArrayRealVector	ArrayRealVector.combine(double a, double b, RealVector y) Returns a new vector representing a * this + b * y, the linear combination of this and y.
RealVector	RealVector.combineToSelf(double a, double b, RealVector y) Updates this with the linear combination of this and y.
ArrayRealVector	ArrayRealVector.combineToSelf(double a, double b, RealVector y) Updates this with the linear combination of this and y.
double	RealVector.cosine(RealVector v) Computes the cosine of the angle between this vector and the argument.
double	RealVector.dotProduct(RealVector v) Compute the dot product of this vector with v.
double	ArrayRealVector.dotProduct(RealVector v) Compute the dot product of this vector with v.
OpenMapRealVector	OpenMapRealVector.ebeDivide(RealVector v) Deprecated. Element-by-element division.
abstract RealVector	RealVector.ebeDivide(RealVector v) Deprecated. As of version 3.1, this method is deprecated, and will be removed in version 4.0. This decision follows the discussion reported in MATH-803. Uses of this method involving sparse implementations of RealVector might lead to wrong results. Since there is no satisfactory correction to this bug, this method is deprecated. Users who want to preserve this feature are advised to implement RealVectorPreservingVisitor (possibly ignoring corner cases for the sake of efficiency).
ArrayRealVector	ArrayRealVector.ebeDivide(RealVector v) Element-by-element division.
OpenMapRealVector	OpenMapRealVector.ebeMultiply(RealVector v) Deprecated. Element-by-element multiplication.
abstract RealVector	RealVector.ebeMultiply(RealVector v) Deprecated. As of version 3.1, this method is deprecated, and will be removed in version 4.0. This decision follows the discussion reported in MATH-803. Uses of this method involving sparse implementations of RealVector might lead to wrong results. Since there is no satisfactory correction to this bug, this method is deprecated. Users who want to preserve this feature are advised to implement RealVectorPreservingVisitor (possibly ignoring corner cases for the sake of efficiency).
ArrayRealVector	ArrayRealVector.ebeMultiply(RealVector v) Element-by-element multiplication.
String	RealVectorFormat.format(RealVector v) This method calls RealVectorFormat.format(RealVector,StringBuffer,FieldPosition).
StringBuffer	RealVectorFormat.format(RealVector vector, StringBuffer toAppendTo, FieldPosition pos) Formats a RealVector object to produce a string.
double	OpenMapRealVector.getDistance(RealVector v) Deprecated. Distance between two vectors.
double	RealVector.getDistance(RealVector v) Distance between two vectors.
double	ArrayRealVector.getDistance(RealVector v) Distance between two vectors.
double	OpenMapRealVector.getL1Distance(RealVector v) Deprecated. Distance between two vectors.
double	RealVector.getL1Distance(RealVector v) Distance between two vectors.
double	ArrayRealVector.getL1Distance(RealVector v) Distance between two vectors.
double	OpenMapRealVector.getLInfDistance(RealVector v) Deprecated. Distance between two vectors.
double	RealVector.getLInfDistance(RealVector v) Distance between two vectors.
double	ArrayRealVector.getLInfDistance(RealVector v) Distance between two vectors.
RealVector	AbstractRealMatrix.operate(RealVector v) Returns the result of multiplying this by the vector x.
RealVector	RealMatrix.operate(RealVector v) Returns the result of multiplying this by the vector v.
abstract RealVector	RealLinearOperator.operate(RealVector x) Returns the result of multiplying this by the vector x.
RealVector	JacobiPreconditioner.operate(RealVector x) Returns the result of multiplying this by the vector x.
RealVector	RealLinearOperator.operateTranspose(RealVector x) Returns the result of multiplying the transpose of this operator by the vector x (optional operation).
RealMatrix	RealVector.outerProduct(RealVector v) Compute the outer product.
RealMatrix	ArrayRealVector.outerProduct(RealVector v) Compute the outer product.
RealVector	AbstractRealMatrix.preMultiply(RealVector v) Returns the (row) vector result of premultiplying this by the vector v.
RealVector	RealMatrix.preMultiply(RealVector v) Returns the (row) vector result of premultiplying this by the vector v.
RealVector	RealVector.projection(RealVector v) Find the orthogonal projection of this vector onto another vector.
static void	MatrixUtils.serializeRealVector(RealVector vector, ObjectOutputStream oos) Serialize a RealVector.
void	AbstractRealMatrix.setColumnVector(int column, RealVector vector) Sets the specified column of this matrix to the entries of the specified vector.
void	RealMatrix.setColumnVector(int column, RealVector vector) Sets the specified column of this matrix to the entries of the specified vector.
void	BlockRealMatrix.setColumnVector(int column, RealVector vector) Sets the specified column of this matrix to the entries of the specified vector.
void	AbstractRealMatrix.setRowVector(int row, RealVector vector) Sets the specified row of this matrix to the entries of the specified vector.
void	RealMatrix.setRowVector(int row, RealVector vector) Sets the specified row of this matrix to the entries of the specified vector.
void	BlockRealMatrix.setRowVector(int row, RealVector vector) Sets the specified row of this matrix to the entries of the specified vector.
void	OpenMapRealVector.setSubVector(int index, RealVector v) Deprecated. Set a sequence of consecutive elements.
abstract void	RealVector.setSubVector(int index, RealVector v) Set a sequence of consecutive elements.
void	ArrayRealVector.setSubVector(int index, RealVector v) Set a sequence of consecutive elements.
RealVector	SymmLQ.solve(RealLinearOperator a, RealLinearOperator m, RealVector b) Returns an estimate of the solution to the linear system A · x = b.
RealVector	PreconditionedIterativeLinearSolver.solve(RealLinearOperator a, RealLinearOperator m, RealVector b) Returns an estimate of the solution to the linear system A · x = b.
RealVector	SymmLQ.solve(RealLinearOperator a, RealLinearOperator m, RealVector b, boolean goodb, double shift) Returns an estimate of the solution to the linear system (A - shift · I) · x = b.
RealVector	SymmLQ.solve(RealLinearOperator a, RealLinearOperator m, RealVector b, RealVector x) Returns an estimate of the solution to the linear system A · x = b.
RealVector	PreconditionedIterativeLinearSolver.solve(RealLinearOperator a, RealLinearOperator m, RealVector b, RealVector x0) Returns an estimate of the solution to the linear system A · x = b.
RealVector	SymmLQ.solve(RealLinearOperator a, RealVector b) Returns an estimate of the solution to the linear system A · x = b.
RealVector	PreconditionedIterativeLinearSolver.solve(RealLinearOperator a, RealVector b) Returns an estimate of the solution to the linear system A · x = b.
RealVector	IterativeLinearSolver.solve(RealLinearOperator a, RealVector b) Returns an estimate of the solution to the linear system A · x = b.
RealVector	SymmLQ.solve(RealLinearOperator a, RealVector b, boolean goodb, double shift) Returns the solution to the system (A - shift · I) · x = b.
RealVector	SymmLQ.solve(RealLinearOperator a, RealVector b, RealVector x) Returns an estimate of the solution to the linear system A · x = b.
RealVector	PreconditionedIterativeLinearSolver.solve(RealLinearOperator a, RealVector b, RealVector x0) Returns an estimate of the solution to the linear system A · x = b.
RealVector	IterativeLinearSolver.solve(RealLinearOperator a, RealVector b, RealVector x0) Returns an estimate of the solution to the linear system A · x = b.
RealVector	DecompositionSolver.solve(RealVector b) Solve the linear equation A × X = B for matrices A.
RealVector	SymmLQ.solveInPlace(RealLinearOperator a, RealLinearOperator m, RealVector b, RealVector x) Returns an estimate of the solution to the linear system A · x = b.
abstract RealVector	PreconditionedIterativeLinearSolver.solveInPlace(RealLinearOperator a, RealLinearOperator m, RealVector b, RealVector x0) Returns an estimate of the solution to the linear system A · x = b.
RealVector	ConjugateGradient.solveInPlace(RealLinearOperator a, RealLinearOperator m, RealVector b, RealVector x0) Returns an estimate of the solution to the linear system A · x = b.
RealVector	SymmLQ.solveInPlace(RealLinearOperator a, RealLinearOperator m, RealVector b, RealVector x, boolean goodb, double shift) Returns an estimate of the solution to the linear system (A - shift · I) · x = b.
RealVector	SymmLQ.solveInPlace(RealLinearOperator a, RealVector b, RealVector x) Returns an estimate of the solution to the linear system A · x = b.
RealVector	PreconditionedIterativeLinearSolver.solveInPlace(RealLinearOperator a, RealVector b, RealVector x0) Returns an estimate of the solution to the linear system A · x = b.
abstract RealVector	IterativeLinearSolver.solveInPlace(RealLinearOperator a, RealVector b, RealVector x0) Returns an estimate of the solution to the linear system A · x = b.
static void	MatrixUtils.solveLowerTriangularSystem(RealMatrix rm, RealVector b) Solve a system of composed of a Lower Triangular Matrix RealMatrix.
static void	MatrixUtils.solveUpperTriangularSystem(RealMatrix rm, RealVector b) Solver a system composed of an Upper Triangular Matrix RealMatrix.
RealVector	OpenMapRealVector.subtract(RealVector v) Deprecated. Subtract v from this vector.
RealVector	RealVector.subtract(RealVector v) Subtract v from this vector.
ArrayRealVector	ArrayRealVector.subtract(RealVector v) Subtract v from this vector.
static RealVector	RealVector.unmodifiableRealVector(RealVector v) Returns an unmodifiable view of the specified vector.

Constructors in org.apache.commons.math3.linear with parameters of type RealVector

ArrayRealVector(ArrayRealVector v1, RealVector v2)
Construct a vector by appending one vector to another vector.

ArrayRealVector(RealVector v)
Construct a vector from another vector, using a deep copy.

ArrayRealVector(RealVector v1, ArrayRealVector v2)
Construct a vector by appending one vector to another vector.

DefaultIterativeLinearSolverEvent(Object source, int iterations, RealVector x, RealVector b, double rnorm)
Creates a new instance of this class.

DefaultIterativeLinearSolverEvent(Object source, int iterations, RealVector x, RealVector b, RealVector r, double rnorm)
Creates a new instance of this class.

OpenMapRealVector(RealVector v)
Deprecated. Generic copy constructor.

Uses of RealVector in org.apache.commons.math3.optim.linear

Methods in org.apache.commons.math3.optim.linear that return RealVector

RealVector	LinearConstraint.getCoefficients() Gets the coefficients of the constraint (left hand side).
RealVector	LinearObjectiveFunction.getCoefficients() Gets the coefficients of the linear equation being optimized.

Methods in org.apache.commons.math3.optim.linear with parameters of type RealVector

double

LinearObjectiveFunction.value(RealVector point) Computes the value of the linear equation at the current point.

Constructors in org.apache.commons.math3.optim.linear with parameters of type RealVector

LinearConstraint(RealVector lhsCoefficients, double lhsConstant, Relationship relationship, RealVector rhsCoefficients, double rhsConstant)
Build a constraint involving two linear equations.

LinearConstraint(RealVector coefficients, Relationship relationship, double value)
Build a constraint involving a single linear equation.

LinearObjectiveFunction(RealVector coefficients, double constantTerm)

Uses of RealVector in org.apache.commons.math3.optimization.linear

Methods in org.apache.commons.math3.optimization.linear that return RealVector

RealVector	LinearConstraint.getCoefficients() Deprecated. Get the coefficients of the constraint (left hand side).
RealVector	LinearObjectiveFunction.getCoefficients() Deprecated. Get the coefficients of the linear equation being optimized.

Methods in org.apache.commons.math3.optimization.linear with parameters of type RealVector

double

LinearObjectiveFunction.getValue(RealVector point) Deprecated. Compute the value of the linear equation at the current point

Constructors in org.apache.commons.math3.optimization.linear with parameters of type RealVector

LinearConstraint(RealVector lhsCoefficients, double lhsConstant, Relationship relationship, RealVector rhsCoefficients, double rhsConstant)
Deprecated. Build a constraint involving two linear equations.

LinearConstraint(RealVector coefficients, Relationship relationship, double value)
Deprecated. Build a constraint involving a single linear equation.

LinearObjectiveFunction(RealVector coefficients, double constantTerm)
Deprecated.

Uses of RealVector in org.apache.commons.math3.stat.regression

Methods in org.apache.commons.math3.stat.regression that return RealVector

protected RealVector	GLSMultipleLinearRegression.calculateBeta() Calculates beta by GLS.
protected abstract RealVector	AbstractMultipleLinearRegression.calculateBeta() Calculates the beta of multiple linear regression in matrix notation.
protected RealVector	OLSMultipleLinearRegression.calculateBeta() Calculates the regression coefficients using OLS.
protected RealVector	AbstractMultipleLinearRegression.calculateResiduals() Calculates the residuals of multiple linear regression in matrix notation.
protected RealVector	AbstractMultipleLinearRegression.getY()