| Modifier and Type | Method and Description |
|---|---|
RealMatrix |
Frame.getTransformJacobian(Frame to,
AbsoluteDate date)
Compute the Jacobian from current frame to target frame at provided date.
|
| Modifier and Type | Method and Description |
|---|---|
RealMatrix |
MultivariateNormalDistribution.getCovariances()
Gets the covariance matrix.
|
| Modifier and Type | Method and Description |
|---|---|
RealMatrix |
ProcessModel.getControlMatrix()
Returns the control matrix.
|
RealMatrix |
DefaultProcessModel.getControlMatrix()
Returns the control matrix.
|
RealMatrix |
KalmanFilter.getErrorCovarianceMatrix()
Returns a copy of the current error covariance matrix.
|
RealMatrix |
ProcessModel.getInitialErrorCovariance()
Returns the initial error covariance matrix.
|
RealMatrix |
DefaultProcessModel.getInitialErrorCovariance()
Returns the initial error covariance matrix.
|
RealMatrix |
DefaultMeasurementModel.getMeasurementMatrix()
Returns the measurement matrix.
|
RealMatrix |
MeasurementModel.getMeasurementMatrix()
Returns the measurement matrix.
|
RealMatrix |
DefaultMeasurementModel.getMeasurementNoise()
Returns the measurement noise matrix.
|
RealMatrix |
MeasurementModel.getMeasurementNoise()
Returns the measurement noise matrix.
|
RealMatrix |
ProcessModel.getProcessNoise()
Returns the process noise matrix.
|
RealMatrix |
DefaultProcessModel.getProcessNoise()
Returns the process noise matrix.
|
RealMatrix |
ProcessModel.getStateTransitionMatrix()
Returns the state transition matrix.
|
RealMatrix |
DefaultProcessModel.getStateTransitionMatrix()
Returns the state transition matrix.
|
| Constructor and Description |
|---|
DefaultMeasurementModel(RealMatrix measMatrix,
RealMatrix measNoise)
Create a new
MeasurementModel, taking RealMatrix objects
as input parameters for the respective measurement matrix and noise. |
DefaultProcessModel(RealMatrix stateTransition,
RealMatrix control,
RealMatrix processNoise,
RealVector initialStateEstimate,
RealMatrix initialErrorCovariance)
Create a new
ProcessModel, taking double arrays as input parameters. |
| Modifier and Type | Method and Description |
|---|---|
RealMatrix |
Matrix3D.getRealMatrix() |
| Constructor and Description |
|---|
Matrix3D(RealMatrix matrix)
Constructor
Creates a Matrix3D with a RealMatrix. |
| Modifier and Type | Interface and Description |
|---|---|
interface |
SymmetricMatrix
Interface for symmetric matrices.
|
interface |
SymmetricPositiveMatrix
Interface for symmetric positive semi-definite matrices.
|
| Modifier and Type | Class and Description |
|---|---|
class |
AbstractRealMatrix
Basic implementation of RealMatrix methods regardless of the underlying storage.
|
class |
Array2DRowRealMatrix
Implementation of
RealMatrix using a double[][] array to
store entries. |
class |
ArrayRowSymmetricMatrix
Symmetric matrix defined by its lower triangular part.
|
class |
BlockRealMatrix
Cache-friendly implementation of RealMatrix using a flat arrays to store
square blocks of the matrix.
|
class |
DecomposedSymmetricPositiveMatrix
Stores a symmetric positive semi-definite matrix as A = B×BT.
|
class |
DiagonalMatrix
Implementation of a diagonal matrix.
|
| Modifier and Type | Method and Description |
|---|---|
RealMatrix |
DecomposedSymmetricPositiveMatrix.add(RealMatrix m)
Returns the sum of
this and m. |
RealMatrix |
RealMatrix.add(RealMatrix m)
Returns the sum of
this and m. |
RealMatrix |
DiagonalMatrix.add(RealMatrix m)
Returns the sum of
this and m. |
RealMatrix |
AbstractRealMatrix.add(RealMatrix m)
Returns the sum of
this and m. |
RealMatrix |
ArrayRowSymmetricMatrix.add(RealMatrix m)
Returns the sum of
this and m. |
static RealMatrix |
MatrixUtils.blockInverse(RealMatrix m,
int splitIndex)
Computes the inverse of the given matrix by splitting it into
4 sub-matrices.
|
RealMatrix |
RealMatrix.concatenateDiagonally(RealMatrix matrix,
boolean lowerRightMatrix)
Concatenate
this and matrix vertically. |
RealMatrix |
AbstractRealMatrix.concatenateDiagonally(RealMatrix matrix,
boolean lowerRightMatrix)
Concatenate
this and matrix vertically. |
RealMatrix |
RealMatrix.concatenateHorizontally(RealMatrix matrix,
boolean rightMatrix)
Concatenate
this and matrix horizontally. |
RealMatrix |
AbstractRealMatrix.concatenateHorizontally(RealMatrix matrix,
boolean rightMatrix)
Concatenate
this and matrix horizontally. |
static RealMatrix |
MatrixUtils.concatenateHorizontally(RealMatrix left,
RealMatrix right)
Concatenates two matrices horizontally.
|
RealMatrix |
RealMatrix.concatenateVertically(RealMatrix matrix,
boolean lowerMatrix)
Concatenate
this and matrix vertically. |
RealMatrix |
AbstractRealMatrix.concatenateVertically(RealMatrix matrix,
boolean lowerMatrix)
Concatenate
this and matrix vertically. |
static RealMatrix |
MatrixUtils.concatenateVertically(RealMatrix upper,
RealMatrix lower)
Concatenates two matrices vertically.
|
RealMatrix |
Array2DRowRealMatrix.copy()
Returns a (deep) copy of this.
|
RealMatrix |
RealMatrix.copy()
Returns a (deep) copy of this.
|
abstract RealMatrix |
AbstractRealMatrix.copy()
Returns a (deep) copy of this.
|
static RealMatrix |
MatrixUtils.createColumnRealMatrix(double[] columnData)
Creates a column
RealMatrix using the data from the input
array. |
RealMatrix |
Array2DRowRealMatrix.createMatrix(int rowDimension,
int columnDimension)
Create a new RealMatrix of the same type as the instance with the
supplied
row and column dimensions.
|
RealMatrix |
RealMatrix.createMatrix(int rowDimension,
int columnDimension)
Create a new RealMatrix of the same type as the instance with the
supplied
row and column dimensions.
|
abstract RealMatrix |
AbstractRealMatrix.createMatrix(int rowDimension,
int columnDimension)
Create a new RealMatrix of the same type as the instance with the
supplied
row and column dimensions.
|
static RealMatrix |
MatrixUtils.createRealDiagonalMatrix(double[] diagonal)
Returns a diagonal matrix with specified elements.
|
static RealMatrix |
MatrixUtils.createRealIdentityMatrix(int dimension)
Returns
dimension x dimension identity matrix. |
static RealMatrix |
MatrixUtils.createRealIdentityMatrix(int dimension,
boolean returnDiagonalMatrix)
Returns
dimension x dimension identity matrix. |
static RealMatrix |
MatrixUtils.createRealMatrix(double[][] data)
Returns a
RealMatrix whose entries are the the values in the
the input array. |
static RealMatrix |
MatrixUtils.createRealMatrix(double[][] data,
boolean forceCopyArray)
Returns a
RealMatrix whose entries are the the values in the
the input array. |
static RealMatrix |
MatrixUtils.createRealMatrix(int rows,
int columns)
Returns a
RealMatrix with specified dimensions. |
static RealMatrix |
MatrixUtils.createRowRealMatrix(double[] rowData)
Create a row
RealMatrix using the data from the input
array. |
RealMatrix |
DecomposedSymmetricPositiveMatrix.getB()
Gets the matrix B of the decomposition A = B×BT of this matrix.
|
RealMatrix |
DecomposedSymmetricPositiveMatrix.getBT()
Gets the matrix BT of the decomposition A = B×BT of this
matrix.
|
RealMatrix |
DecomposedSymmetricPositiveMatrix.getColumnMatrix(int column)
Get the entries at the given column index as a column matrix.
|
RealMatrix |
RealMatrix.getColumnMatrix(int column)
Get the entries at the given column index as a column matrix.
|
RealMatrix |
DiagonalMatrix.getColumnMatrix(int column)
Get the entries at the given column index as a column matrix.
|
RealMatrix |
AbstractRealMatrix.getColumnMatrix(int column)
Get the entries at the given column index as a column matrix.
|
RealMatrix |
ArrayRowSymmetricMatrix.getColumnMatrix(int column)
Get the entries at the given column index as a column matrix.
|
RealMatrix |
SingularValueDecomposition.getCovariance(double minSingularValue)
Returns the n × n covariance matrix.
|
RealMatrix |
UDDecompositionImpl.getD()
get the D matrix
|
RealMatrix |
EigenDecomposition.getD()
Gets the block diagonal matrix D of the decomposition.
|
RealMatrix |
UDDecomposition.getD()
Returns the matrix D of the decomposition.
|
RealMatrix |
QRDecomposition.getH()
Returns the Householder reflector vectors.
|
RealMatrix |
DecompositionSolver.getInverse()
Get the inverse (or pseudo-inverse) of the decomposed matrix.
|
RealMatrix |
RealMatrix.getInverse()
Get the inverse (or pseudo-inverse) of the decomposed matrix.
|
RealMatrix |
AbstractRealMatrix.getInverse()
Get the inverse (or pseudo-inverse) of the decomposed matrix.
|
RealMatrix |
RealMatrix.getInverse(Decomposition decomposition)
Get the inverse (or pseudo-inverse) matrix computed with the given decomposition algorithm.
|
RealMatrix |
AbstractRealMatrix.getInverse(Decomposition decomposition)
Get the inverse (or pseudo-inverse) matrix computed with the given decomposition algorithm.
|
RealMatrix |
CholeskyDecomposition.getL()
Returns the matrix L of the decomposition.
|
RealMatrix |
LUDecomposition.getL()
Returns the matrix L of the decomposition.
|
RealMatrix |
CholeskyDecomposition.getLT()
Returns the transpose of the matrix L of the decomposition.
|
RealMatrix |
LUDecomposition.getP()
Returns the P rows permutation matrix.
|
RealMatrix |
QRDecomposition.getQ()
Returns the matrix Q of the decomposition.
|
RealMatrix |
QRDecomposition.getQT()
Returns the transpose of the matrix Q of the decomposition.
|
RealMatrix |
QRDecomposition.getR()
Returns the matrix R of the decomposition.
|
RealMatrix |
QRDecomposition.getR(boolean compactForm)
Returns the matrix R of the decomposition in its compact form (n × n) or in its full form
(m × n).
|
RealMatrix |
DecomposedSymmetricPositiveMatrix.getResizedB()
Gets the matrix B after reducing or extending it to match this matrix's dimensions.
|
RealMatrix |
DecomposedSymmetricPositiveMatrix.getResizedBT()
Gets the matrix BT after reducing or extending it to match this matrix's
dimensions.
|
RealMatrix |
RectangularCholeskyDecomposition.getRootMatrix()
Get the root of the covariance matrix.
|
RealMatrix |
DecomposedSymmetricPositiveMatrix.getRowMatrix(int row)
Get the entries at the given row index as a row matrix.
|
RealMatrix |
RealMatrix.getRowMatrix(int row)
Get the entries at the given row index as a row matrix.
|
RealMatrix |
DiagonalMatrix.getRowMatrix(int row)
Get the entries at the given row index as a row matrix.
|
RealMatrix |
AbstractRealMatrix.getRowMatrix(int row)
Get the entries at the given row index as a row matrix.
|
RealMatrix |
ArrayRowSymmetricMatrix.getRowMatrix(int row)
Get the entries at the given row index as a row matrix.
|
RealMatrix |
SingularValueDecomposition.getS()
Returns the diagonal matrix Σ of the decomposition.
|
RealMatrix |
EigenDecomposition.getSquareRoot()
Computes the square-root of the matrix.
|
RealMatrix |
DecomposedSymmetricPositiveMatrix.getSubMatrix(int[] selectedRows,
int[] selectedColumns)
Gets a submatrix.
|
RealMatrix |
RealMatrix.getSubMatrix(int[] selectedRows,
int[] selectedColumns)
Gets a submatrix.
|
RealMatrix |
DiagonalMatrix.getSubMatrix(int[] selectedRows,
int[] selectedColumns)
Gets a submatrix.
|
RealMatrix |
AbstractRealMatrix.getSubMatrix(int[] selectedRows,
int[] selectedColumns)
Gets a submatrix.
|
RealMatrix |
ArrayRowSymmetricMatrix.getSubMatrix(int[] selectedRows,
int[] selectedColumns)
Gets a submatrix.
|
RealMatrix |
DecomposedSymmetricPositiveMatrix.getSubMatrix(int startRow,
int endRow,
int startColumn,
int endColumn)
Gets a submatrix.
|
RealMatrix |
RealMatrix.getSubMatrix(int startRow,
int endRow,
int startColumn,
int endColumn)
Gets a submatrix.
|
RealMatrix |
DiagonalMatrix.getSubMatrix(int startRow,
int endRow,
int startColumn,
int endColumn)
Gets a submatrix.
|
RealMatrix |
AbstractRealMatrix.getSubMatrix(int startRow,
int endRow,
int startColumn,
int endColumn)
Gets a submatrix.
|
RealMatrix |
ArrayRowSymmetricMatrix.getSubMatrix(int startRow,
int endRow,
int startColumn,
int endColumn)
Gets a submatrix.
|
RealMatrix |
SingularValueDecomposition.getU()
Returns the matrix U of the decomposition.
|
RealMatrix |
LUDecomposition.getU()
Returns the matrix U of the decomposition.
|
RealMatrix |
UDDecompositionImpl.getU()
Get the U matrix
|
RealMatrix |
UDDecomposition.getU()
Returns the matrix U of the decomposition.
|
RealMatrix |
SingularValueDecomposition.getUT()
Returns the transpose of the matrix U of the decomposition.
|
RealMatrix |
UDDecompositionImpl.getUT()
get the UT matrix
|
RealMatrix |
UDDecomposition.getUT()
Returns the transpose of the matrix U of the decomposition.
|
RealMatrix |
SingularValueDecomposition.getV()
Returns the matrix V of the decomposition.
|
RealMatrix |
EigenDecomposition.getV()
Gets the matrix V of the decomposition.
|
RealMatrix |
SingularValueDecomposition.getVT()
Returns the transpose of the matrix V of the decomposition.
|
RealMatrix |
EigenDecomposition.getVT()
Gets the transpose of the matrix V of the decomposition.
|
RealMatrix |
AbstractRealMatrix.multiply(DiagonalMatrix m,
boolean toTranspose,
double d)
Returns the result of postmultiplying d × this × m (independently from the
toTranspose parameter value as we use diagonal matrix). |
RealMatrix |
Array2DRowRealMatrix.multiply(RealMatrix m)
Returns the result of postmultiplying
this by m. |
RealMatrix |
DecomposedSymmetricPositiveMatrix.multiply(RealMatrix m)
Returns the result of postmultiplying
this by m. |
RealMatrix |
RealMatrix.multiply(RealMatrix m)
Returns the result of postmultiplying
this by m. |
RealMatrix |
DiagonalMatrix.multiply(RealMatrix m)
Returns the result of postmultiplying
this by m. |
RealMatrix |
AbstractRealMatrix.multiply(RealMatrix m)
Returns the result of postmultiplying
this by m. |
RealMatrix |
BlockRealMatrix.multiply(RealMatrix m)
Returns the result of postmultiplying
this by m. |
RealMatrix |
Array2DRowRealMatrix.multiply(RealMatrix m,
boolean toTranspose)
Returns the result of postmultiplying this × m (if
isTranspose = false)
or this × mT (if isTranspose = true) |
RealMatrix |
DecomposedSymmetricPositiveMatrix.multiply(RealMatrix m,
boolean toTranspose)
Returns the result of postmultiplying this × m (if
isTranspose = false)
or this × mT (if isTranspose = true) |
RealMatrix |
RealMatrix.multiply(RealMatrix m,
boolean isTranspose)
Returns the result of postmultiplying this × m (if
isTranspose = false)
or this × mT (if isTranspose = true) |
RealMatrix |
DiagonalMatrix.multiply(RealMatrix m,
boolean toTranspose)
Returns the result of postmultiplying this × m (if
isTranspose = false)
or this × mT (if isTranspose = true) |
RealMatrix |
AbstractRealMatrix.multiply(RealMatrix m,
boolean toTranspose)
Returns the result of postmultiplying this × m (if
isTranspose = false)
or this × mT (if isTranspose = true) |
RealMatrix |
BlockRealMatrix.multiply(RealMatrix m,
boolean toTranspose)
Returns the result of postmultiplying this × m (if
isTranspose = false)
or this × mT (if isTranspose = true) |
RealMatrix |
Array2DRowRealMatrix.multiply(RealMatrix m,
boolean toTranspose,
double d)
Returns the result of postmultiplying d × this × m (if
toTranspose = false
) or d × this × mT (if toTranspose = true) |
RealMatrix |
DecomposedSymmetricPositiveMatrix.multiply(RealMatrix m,
boolean toTranspose,
double d)
Returns the result of postmultiplying d × this × m (if
toTranspose = false
) or d × this × mT (if toTranspose = true) |
RealMatrix |
RealMatrix.multiply(RealMatrix m,
boolean toTranspose,
double d)
Returns the result of postmultiplying d × this × m (if
toTranspose = false
) or d × this × mT (if toTranspose = true) |
RealMatrix |
DiagonalMatrix.multiply(RealMatrix m,
boolean toTranspose,
double d)
Returns the result of postmultiplying d × this × m (if
toTranspose = false
) or d × this × mT (if toTranspose = true) |
RealMatrix |
AbstractRealMatrix.multiply(RealMatrix m,
boolean toTranspose,
double d)
Returns the result of postmultiplying d × this × m (if
toTranspose = false
) or d × this × mT (if toTranspose = true) |
RealMatrix |
BlockRealMatrix.multiply(RealMatrix m,
boolean toTranspose,
double d)
Returns the result of postmultiplying d × this × m (if
toTranspose = false
) or d × this × mT (if toTranspose = true) |
RealMatrix |
DecomposedSymmetricPositiveMatrix.multiply(SymmetricMatrix m,
boolean toTranspose,
double d)
Returns the result of postmultiplying d × this × m (independently from the
toTranspose parameter value as we use diagonal matrix). |
static RealMatrix |
MatrixUtils.multiplyByTranspose(double alpha,
RealMatrix matrixL,
RealMatrix matrixR)
Multiplies the matrix L by RT and by a scalar factor α.
|
static RealMatrix |
MatrixUtils.multiplyByTranspose(RealMatrix matrixL,
RealMatrix matrixR)
Multiplies the matrix L by RT.
|
RealMatrix |
ArrayRealVector.outerProduct(RealVector v)
Compute the outer product.
|
RealMatrix |
RealVector.outerProduct(RealVector v)
Compute the outer product.
|
RealMatrix |
RealMatrixFormat.parse(String source)
Parse a string to produce a
RealMatrix object. |
RealMatrix |
RealMatrixFormat.parse(String source,
ParsePosition pos)
Parse a string to produce a
RealMatrix object. |
RealMatrix |
RealMatrix.power(int p)
Returns the result of multiplying
this with itself p times. |
RealMatrix |
AbstractRealMatrix.power(int p)
Returns the result of multiplying
this with itself p times. |
RealMatrix |
RealMatrix.preMultiply(RealMatrix m)
Returns the result of premultiplying
this by m. |
RealMatrix |
AbstractRealMatrix.preMultiply(RealMatrix m)
Returns the result of premultiplying
this by m. |
static RealMatrix |
MatrixUtils.resize(RealMatrix matrix,
int rowDim,
int colDim)
Resizes the provided matrix to a NxM matrix.
|
RealMatrix |
RealMatrix.scalarAdd(double d)
Returns the result of adding
d to each entry of this. |
RealMatrix |
AbstractRealMatrix.scalarAdd(double d)
Returns the result of adding
d to each entry of this. |
RealMatrix |
RealMatrix.scalarMultiply(double d)
Returns the result of multiplying each entry of
this by d. |
RealMatrix |
AbstractRealMatrix.scalarMultiply(double d)
Returns the result of multiplying each entry of
this by d. |
RealMatrix |
DecompositionSolver.solve(RealMatrix b)
Solve the linear equation A × X = B for matrices A.
|
RealMatrix |
DecomposedSymmetricPositiveMatrix.subtract(RealMatrix m)
Returns
this minus m. |
RealMatrix |
RealMatrix.subtract(RealMatrix m)
Returns
this minus m. |
RealMatrix |
DiagonalMatrix.subtract(RealMatrix m)
Returns
this minus m. |
RealMatrix |
AbstractRealMatrix.subtract(RealMatrix m)
Returns
this minus m. |
RealMatrix |
ArrayRowSymmetricMatrix.subtract(RealMatrix m)
Returns
this minus m. |
RealMatrix |
RealMatrix.transpose()
Returns the transpose of this matrix.
|
RealMatrix |
AbstractRealMatrix.transpose()
Returns the transpose of this matrix.
|
| Modifier and Type | Method and Description |
|---|---|
RealMatrix |
DecomposedSymmetricPositiveMatrix.add(RealMatrix m)
Returns the sum of
this and m. |
RealMatrix |
RealMatrix.add(RealMatrix m)
Returns the sum of
this and m. |
RealMatrix |
DiagonalMatrix.add(RealMatrix m)
Returns the sum of
this and m. |
RealMatrix |
AbstractRealMatrix.add(RealMatrix m)
Returns the sum of
this and m. |
BlockRealMatrix |
BlockRealMatrix.add(RealMatrix m)
Returns the sum of
this and m. |
RealMatrix |
ArrayRowSymmetricMatrix.add(RealMatrix m)
Returns the sum of
this and m. |
static RealMatrix |
MatrixUtils.blockInverse(RealMatrix m,
int splitIndex)
Computes the inverse of the given matrix by splitting it into
4 sub-matrices.
|
static void |
MatrixUtils.checkSymmetric(RealMatrix matrix,
double eps)
Checks whether a matrix is symmetric.
|
static void |
MatrixUtils.checkSymmetry(RealMatrix matrix,
double absTol,
double relTol)
Check if the matrix is symmetric.
|
RealMatrix |
RealMatrix.concatenateDiagonally(RealMatrix matrix,
boolean lowerRightMatrix)
Concatenate
this and matrix vertically. |
RealMatrix |
AbstractRealMatrix.concatenateDiagonally(RealMatrix matrix,
boolean lowerRightMatrix)
Concatenate
this and matrix vertically. |
RealMatrix |
RealMatrix.concatenateHorizontally(RealMatrix matrix,
boolean rightMatrix)
Concatenate
this and matrix horizontally. |
RealMatrix |
AbstractRealMatrix.concatenateHorizontally(RealMatrix matrix,
boolean rightMatrix)
Concatenate
this and matrix horizontally. |
static RealMatrix |
MatrixUtils.concatenateHorizontally(RealMatrix left,
RealMatrix right)
Concatenates two matrices horizontally.
|
RealMatrix |
RealMatrix.concatenateVertically(RealMatrix matrix,
boolean lowerMatrix)
Concatenate
this and matrix vertically. |
RealMatrix |
AbstractRealMatrix.concatenateVertically(RealMatrix matrix,
boolean lowerMatrix)
Concatenate
this and matrix vertically. |
static RealMatrix |
MatrixUtils.concatenateVertically(RealMatrix upper,
RealMatrix lower)
Concatenates two matrices vertically.
|
void |
SingularValueDecomposition.decompose(RealMatrix matrix)
Run the decomposition process on the input matrix.
|
void |
CholeskyDecomposition.decompose(RealMatrix matrix)
Run the decomposition process on the input matrix.
|
void |
Decomposition.decompose(RealMatrix matrix)
Run the decomposition process on the input matrix.
|
void |
LUDecomposition.decompose(RealMatrix matrix)
Run the decomposition process on the input matrix.
|
void |
UDDecompositionImpl.decompose(RealMatrix matrix)
Run the decomposition process on the input matrix.
|
void |
EigenDecomposition.decompose(RealMatrix matrix)
Run the decomposition process on the input matrix.
|
void |
QRDecomposition.decompose(RealMatrix matrix)
Run the decomposition process on the input matrix.
|
String |
RealMatrixFormat.format(RealMatrix m)
This method calls
RealMatrixFormat.format(RealMatrix,StringBuffer,FieldPosition). |
StringBuffer |
RealMatrixFormat.format(RealMatrix matrix,
StringBuffer toAppendTo,
FieldPosition pos)
Formats a
RealMatrix object to produce a string. |
RealMatrix |
Array2DRowRealMatrix.multiply(RealMatrix m)
Returns the result of postmultiplying
this by m. |
RealMatrix |
DecomposedSymmetricPositiveMatrix.multiply(RealMatrix m)
Returns the result of postmultiplying
this by m. |
RealMatrix |
RealMatrix.multiply(RealMatrix m)
Returns the result of postmultiplying
this by m. |
RealMatrix |
DiagonalMatrix.multiply(RealMatrix m)
Returns the result of postmultiplying
this by m. |
RealMatrix |
AbstractRealMatrix.multiply(RealMatrix m)
Returns the result of postmultiplying
this by m. |
RealMatrix |
BlockRealMatrix.multiply(RealMatrix m)
Returns the result of postmultiplying
this by m. |
RealMatrix |
Array2DRowRealMatrix.multiply(RealMatrix m,
boolean toTranspose)
Returns the result of postmultiplying this × m (if
isTranspose = false)
or this × mT (if isTranspose = true) |
RealMatrix |
DecomposedSymmetricPositiveMatrix.multiply(RealMatrix m,
boolean toTranspose)
Returns the result of postmultiplying this × m (if
isTranspose = false)
or this × mT (if isTranspose = true) |
RealMatrix |
RealMatrix.multiply(RealMatrix m,
boolean isTranspose)
Returns the result of postmultiplying this × m (if
isTranspose = false)
or this × mT (if isTranspose = true) |
RealMatrix |
DiagonalMatrix.multiply(RealMatrix m,
boolean toTranspose)
Returns the result of postmultiplying this × m (if
isTranspose = false)
or this × mT (if isTranspose = true) |
RealMatrix |
AbstractRealMatrix.multiply(RealMatrix m,
boolean toTranspose)
Returns the result of postmultiplying this × m (if
isTranspose = false)
or this × mT (if isTranspose = true) |
RealMatrix |
BlockRealMatrix.multiply(RealMatrix m,
boolean toTranspose)
Returns the result of postmultiplying this × m (if
isTranspose = false)
or this × mT (if isTranspose = true) |
RealMatrix |
Array2DRowRealMatrix.multiply(RealMatrix m,
boolean toTranspose,
double d)
Returns the result of postmultiplying d × this × m (if
toTranspose = false
) or d × this × mT (if toTranspose = true) |
RealMatrix |
DecomposedSymmetricPositiveMatrix.multiply(RealMatrix m,
boolean toTranspose,
double d)
Returns the result of postmultiplying d × this × m (if
toTranspose = false
) or d × this × mT (if toTranspose = true) |
RealMatrix |
RealMatrix.multiply(RealMatrix m,
boolean toTranspose,
double d)
Returns the result of postmultiplying d × this × m (if
toTranspose = false
) or d × this × mT (if toTranspose = true) |
RealMatrix |
DiagonalMatrix.multiply(RealMatrix m,
boolean toTranspose,
double d)
Returns the result of postmultiplying d × this × m (if
toTranspose = false
) or d × this × mT (if toTranspose = true) |
RealMatrix |
AbstractRealMatrix.multiply(RealMatrix m,
boolean toTranspose,
double d)
Returns the result of postmultiplying d × this × m (if
toTranspose = false
) or d × this × mT (if toTranspose = true) |
RealMatrix |
BlockRealMatrix.multiply(RealMatrix m,
boolean toTranspose,
double d)
Returns the result of postmultiplying d × this × m (if
toTranspose = false
) or d × this × mT (if toTranspose = true) |
static RealMatrix |
MatrixUtils.multiplyByTranspose(double alpha,
RealMatrix matrixL,
RealMatrix matrixR)
Multiplies the matrix L by RT and by a scalar factor α.
|
static RealMatrix |
MatrixUtils.multiplyByTranspose(RealMatrix matrixL,
RealMatrix matrixR)
Multiplies the matrix L by RT.
|
RealMatrix |
RealMatrix.preMultiply(RealMatrix m)
Returns the result of premultiplying
this by m. |
RealMatrix |
AbstractRealMatrix.preMultiply(RealMatrix m)
Returns the result of premultiplying
this by m. |
SymmetricMatrix |
SymmetricMatrix.quadraticMultiplication(RealMatrix m)
Gets the result of the quadratic multiplication M×S×MT, where S is
this matrix and M is the provided matrix.
|
DecomposedSymmetricPositiveMatrix |
DecomposedSymmetricPositiveMatrix.quadraticMultiplication(RealMatrix m)
Gets the result of the quadratic multiplication M×S×MT, where S is
this matrix and M is the provided matrix.
|
SymmetricMatrix |
DiagonalMatrix.quadraticMultiplication(RealMatrix m)
Gets the result of the quadratic multiplication M×S×MT, where S is
this matrix and M is the provided matrix.
|
SymmetricPositiveMatrix |
SymmetricPositiveMatrix.quadraticMultiplication(RealMatrix m)
Gets the result of the quadratic multiplication M×S×MT, where S is
this matrix and M is the provided matrix.
|
ArrayRowSymmetricMatrix |
ArrayRowSymmetricMatrix.quadraticMultiplication(RealMatrix m)
Gets the result of the quadratic multiplication M×S×MT, where S is
this matrix and M is the provided matrix.
|
SymmetricMatrix |
SymmetricMatrix.quadraticMultiplication(RealMatrix m,
boolean isTranspose)
Gets the result of the quadratic multiplication M×S×MT, where S is
this matrix and M or MT is the provided matrix.
|
DecomposedSymmetricPositiveMatrix |
DecomposedSymmetricPositiveMatrix.quadraticMultiplication(RealMatrix m,
boolean isTranspose)
Gets the result of the quadratic multiplication M×S×MT, where S is
this matrix and M or MT is the provided matrix.
|
SymmetricMatrix |
DiagonalMatrix.quadraticMultiplication(RealMatrix m,
boolean isTranspose)
Gets the result of the quadratic multiplication M×S×MT, where S is
this matrix and M or MT is the provided matrix.
|
SymmetricPositiveMatrix |
SymmetricPositiveMatrix.quadraticMultiplication(RealMatrix m,
boolean isTranspose)
Gets the result of the quadratic multiplication M×S×MT, where S is
this matrix and M or MT is the provided matrix.
|
ArrayRowSymmetricMatrix |
ArrayRowSymmetricMatrix.quadraticMultiplication(RealMatrix m,
boolean isTranspose)
Gets the result of the quadratic multiplication M×S×MT, where S is
this matrix and M or MT is the provided matrix.
|
static RealMatrix |
MatrixUtils.resize(RealMatrix matrix,
int rowDim,
int colDim)
Resizes the provided matrix to a NxM matrix.
|
static void |
MatrixUtils.serializeRealMatrix(RealMatrix matrix,
ObjectOutputStream oos)
Serialize a
RealMatrix. |
void |
RealMatrix.setColumnMatrix(int column,
RealMatrix matrix)
Sets the specified
column of this matrix to the entries
of the specified column matrix. |
void |
AbstractRealMatrix.setColumnMatrix(int column,
RealMatrix matrix)
Sets the specified
column of this matrix to the entries
of the specified column matrix. |
void |
BlockRealMatrix.setColumnMatrix(int column,
RealMatrix matrix)
Sets the specified
column of this matrix to the entries
of the specified column matrix. |
void |
RealMatrix.setRowMatrix(int row,
RealMatrix matrix)
Sets the specified
row of this matrix to the entries of
the specified row matrix. |
void |
AbstractRealMatrix.setRowMatrix(int row,
RealMatrix matrix)
Sets the specified
row of this matrix to the entries of
the specified row matrix. |
void |
BlockRealMatrix.setRowMatrix(int row,
RealMatrix matrix)
Sets the specified
row of this matrix to the entries of
the specified row matrix. |
void |
ArrayRowSymmetricMatrix.setSubMatrix(RealMatrix subMatrix,
int row,
int column)
Method setSubMatrix using a RealMatrix for subMatrix instead of an array
|
RealMatrix |
DecompositionSolver.solve(RealMatrix b)
Solve the linear equation A × X = B for matrices A.
|
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. |
RealMatrix |
DecomposedSymmetricPositiveMatrix.subtract(RealMatrix m)
Returns
this minus m. |
RealMatrix |
RealMatrix.subtract(RealMatrix m)
Returns
this minus m. |
RealMatrix |
DiagonalMatrix.subtract(RealMatrix m)
Returns
this minus m. |
RealMatrix |
AbstractRealMatrix.subtract(RealMatrix m)
Returns
this minus m. |
BlockRealMatrix |
BlockRealMatrix.subtract(RealMatrix m)
Returns
this minus m. |
RealMatrix |
ArrayRowSymmetricMatrix.subtract(RealMatrix m)
Returns
this minus m. |
| Constructor and Description |
|---|
ArrayRowSymmetricMatrix(ArrayRowSymmetricMatrix.SymmetryType symmetryType,
RealMatrix matrix)
Builds a new
ArrayRowSymmetricMatrix from the provided matrix, using the default
symmetry thresholds. |
ArrayRowSymmetricMatrix(ArrayRowSymmetricMatrix.SymmetryType symmetryType,
RealMatrix matrix,
Double absoluteSymmetryThreshold,
Double relativeSymmetryThreshold)
Builds a new
ArrayRowSymmetricMatrix from the provided matrix, using the specified
symmetry thresholds. |
CholeskyDecomposition(RealMatrix matrix)
Calling this constructor is equivalent to call
CholeskyDecomposition.CholeskyDecomposition(RealMatrix, double, double) with
the thresholds set to the default values CholeskyDecomposition.DEFAULT_RELATIVE_SYMMETRY_THRESHOLD and
CholeskyDecomposition.DEFAULT_ABSOLUTE_POSITIVITY_THRESHOLD
The decomposition is directly computed on the input matrix. |
CholeskyDecomposition(RealMatrix matrix,
double relativeSymmetryThreshold,
double absolutePositivityThreshold)
Constructor used to set the relative & absolute thresholds.
|
DecomposedSymmetricPositiveMatrix(RealMatrix matrixB,
boolean isTranspose)
Builds a new
SymmetricPositiveMatrix by specifying a matrix B, or a matrix
BT which satisfies A = B×BT. |
EigenDecomposition(RealMatrix matrix)
Calculates the eigen decomposition of the given real matrix.
|
EigenDecomposition(RealMatrix matrix,
double relativeSymmetryThreshold)
Calculates the eigen decomposition of the given real matrix.
|
LUDecomposition(RealMatrix matrix)
Simple constructor.
|
LUDecomposition(RealMatrix matrix,
double singularityThreshold)
Constructor used to set the singularity threshold.
|
QRDecomposition(RealMatrix matrix)
Simple constructor.
|
QRDecomposition(RealMatrix matrix,
double thresholdIn)
Constructor used to set the singularity threshold.
|
RectangularCholeskyDecomposition(RealMatrix matrix)
Decompose a symmetric positive semidefinite matrix.
|
RectangularCholeskyDecomposition(RealMatrix matrix,
double small)
Decompose a symmetric positive semidefinite matrix.
|
SingularValueDecomposition(RealMatrix matrix)
Simple constructor.
|
UDDecompositionImpl(RealMatrix matrix)
Calling this constructor is equivalent to call
UDDecompositionImpl.UDDecompositionImpl(RealMatrix, double, double) with the
thresholds set to the default values UDDecompositionImpl.DEFAULT_RELATIVE_SYMMETRY_THRESHOLD and
UDDecompositionImpl.DEFAULT_ABSOLUTE_POSITIVITY_THRESHOLD. |
UDDecompositionImpl(RealMatrix matrix,
double relativeSymmetryThreshold,
double absolutePositivityThreshold)
Constructor used to set the relative & absolute thresholds.
|
| Constructor and Description |
|---|
LeastSquaresConverter(MultivariateVectorFunction functionIn,
double[] observationsIn,
RealMatrix scaleIn)
Builds a simple converter for correlated residuals with the
specified weights.
|
| Modifier and Type | Method and Description |
|---|---|
List<RealMatrix> |
CMAESOptimizer.getStatisticsDHistory() |
List<RealMatrix> |
CMAESOptimizer.getStatisticsMeanHistory() |
| Modifier and Type | Method and Description |
|---|---|
RealMatrix |
Weight.getWeight()
Gets the initial guess.
|
RealMatrix |
MultivariateVectorOptimizer.getWeight()
Gets the weight matrix of the observations.
|
| Constructor and Description |
|---|
Weight(RealMatrix weight) |
| Modifier and Type | Method and Description |
|---|---|
protected RealMatrix |
AbstractLeastSquaresOptimizer.computeWeightedJacobian(double[] params)
Computes the weighted Jacobian matrix.
|
RealMatrix |
AbstractLeastSquaresOptimizer.getWeightSquareRoot()
Gets the square-root of the weight matrix.
|
| Modifier and Type | Method and Description |
|---|---|
RealMatrix |
UniformlyCorrelatedRandomVectorGenerator.getRootMatrix()
Get the root of the correlation matrix.
|
RealMatrix |
CorrelatedRandomVectorGenerator.getRootMatrix()
Get the root of the covariance matrix.
|
| Constructor and Description |
|---|
CorrelatedRandomVectorGenerator(double[] meanIn,
RealMatrix covariance,
double small,
NormalizedRandomGenerator generatorIn)
Builds a correlated random vector generator from its mean
vector and covariance matrix.
|
CorrelatedRandomVectorGenerator(RealMatrix covariance,
double small,
NormalizedRandomGenerator generatorIn)
Builds a null mean random correlated vector generator from its
covariance matrix.
|
UniformlyCorrelatedRandomVectorGenerator(double[] aMean,
RealMatrix covariance,
double small,
NormalizedRandomGenerator aGenerator)
Builds a correlated random vector generator from its mean vector and covariance matrix.
|
UniformlyCorrelatedRandomVectorGenerator(RealMatrix covariance,
double small,
NormalizedRandomGenerator aGenerator)
Builds a null mean random correlated vector generator from its covariance matrix.
|
| Modifier and Type | Method and Description |
|---|---|
RealMatrix |
PearsonsCorrelation.computeCorrelationMatrix(double[][] data)
Computes the correlation matrix for the columns of the
input rectangular array.
|
RealMatrix |
SpearmansCorrelation.computeCorrelationMatrix(double[][] matrix)
Computes the Spearman's rank correlation matrix for the columns of the
input rectangular array.
|
RealMatrix |
PearsonsCorrelation.computeCorrelationMatrix(RealMatrix matrix)
Computes the correlation matrix for the columns of the
input matrix.
|
RealMatrix |
SpearmansCorrelation.computeCorrelationMatrix(RealMatrix matrix)
Computes the Spearman's rank correlation matrix for the columns of the
input matrix.
|
protected RealMatrix |
Covariance.computeCovarianceMatrix(double[][] data)
Create a covariance matrix from a rectangular array whose columns represent
covariates.
|
protected RealMatrix |
Covariance.computeCovarianceMatrix(double[][] data,
boolean biasCorrected)
Compute a covariance matrix from a rectangular array whose columns represent
covariates.
|
protected RealMatrix |
Covariance.computeCovarianceMatrix(RealMatrix matrix)
Create a covariance matrix from a matrix whose columns represent
covariates.
|
protected RealMatrix |
Covariance.computeCovarianceMatrix(RealMatrix matrix,
boolean biasCorrected)
Compute a covariance matrix from a matrix whose columns represent
covariates.
|
RealMatrix |
PearsonsCorrelation.covarianceToCorrelation(RealMatrix covarianceMatrix)
Derives a correlation matrix from a covariance matrix.
|
RealMatrix |
PearsonsCorrelation.getCorrelationMatrix()
Returns the correlation matrix
|
RealMatrix |
SpearmansCorrelation.getCorrelationMatrix()
Calculate the Spearman Rank Correlation Matrix.
|
RealMatrix |
PearsonsCorrelation.getCorrelationPValues()
Returns a matrix of p-values associated with the (two-sided) null
hypothesis that the corresponding correlation coefficient is zero.
|
RealMatrix |
PearsonsCorrelation.getCorrelationStandardErrors()
Returns a matrix of standard errors associated with the estimates
in the correlation matrix.
|
RealMatrix |
Covariance.getCovarianceMatrix()
Returns the covariance matrix
|
RealMatrix |
StorelessCovariance.getCovarianceMatrix()
Returns the covariance matrix
|
| Modifier and Type | Method and Description |
|---|---|
RealMatrix |
PearsonsCorrelation.computeCorrelationMatrix(RealMatrix matrix)
Computes the correlation matrix for the columns of the
input matrix.
|
RealMatrix |
SpearmansCorrelation.computeCorrelationMatrix(RealMatrix matrix)
Computes the Spearman's rank correlation matrix for the columns of the
input matrix.
|
protected RealMatrix |
Covariance.computeCovarianceMatrix(RealMatrix matrix)
Create a covariance matrix from a matrix whose columns represent
covariates.
|
protected RealMatrix |
Covariance.computeCovarianceMatrix(RealMatrix matrix,
boolean biasCorrected)
Compute a covariance matrix from a matrix whose columns represent
covariates.
|
RealMatrix |
PearsonsCorrelation.covarianceToCorrelation(RealMatrix covarianceMatrix)
Derives a correlation matrix from a covariance matrix.
|
| Constructor and Description |
|---|
Covariance(RealMatrix matrix)
Create a covariance matrix from a matrix whose columns
represent covariates.
|
Covariance(RealMatrix matrix,
boolean biasCorrected)
Create a covariance matrix from a matrix whose columns
represent covariates.
|
PearsonsCorrelation(RealMatrix matrix)
Create a PearsonsCorrelation from a RealMatrix whose columns
represent variables to be correlated.
|
PearsonsCorrelation(RealMatrix covarianceMatrix,
int numberOfObservations)
Create a PearsonsCorrelation from a covariance matrix.
|
SpearmansCorrelation(RealMatrix dataMatrix)
Create a SpearmansCorrelation from the given data matrix.
|
SpearmansCorrelation(RealMatrix dataMatrix,
RankingAlgorithm rankingAlgorithmIn)
Create a SpearmansCorrelation with the given input data matrix
and ranking algorithm.
|
| Modifier and Type | Method and Description |
|---|---|
RealMatrix |
MultivariateSummaryStatistics.getCovariance()
Returns the covariance matrix of the values that have been added.
|
RealMatrix |
StatisticalMultivariateSummary.getCovariance()
Returns the covariance of the available values.
|
RealMatrix |
SynchronizedMultivariateSummaryStatistics.getCovariance()
Returns the covariance matrix of the values that have been added.
|
| Modifier and Type | Method and Description |
|---|---|
RealMatrix |
VectorialCovariance.getResult()
Get the covariance matrix.
|
| Modifier and Type | Method and Description |
|---|---|
protected abstract RealMatrix |
AbstractMultipleLinearRegression.calculateBetaVariance()
Calculates the beta variance of multiple linear regression in matrix
notation.
|
protected RealMatrix |
OLSMultipleLinearRegression.calculateBetaVariance()
Calculates the variance-covariance matrix of the regression parameters.
|
protected RealMatrix |
GLSMultipleLinearRegression.calculateBetaVariance()
Calculates the variance on the beta.
|
RealMatrix |
OLSMultipleLinearRegression.calculateHat()
Compute the "hat" matrix.
|
protected RealMatrix |
GLSMultipleLinearRegression.getOmegaInverse()
Get the inverse of the covariance.
|
protected RealMatrix |
AbstractMultipleLinearRegression.getX() |
| Modifier and Type | Method and Description |
|---|---|
RealMatrix |
Orbit.getJacobian(OrbitType numerator,
OrbitType denominator)
Get coordinate conversion jacobian.
|
RealMatrix |
Orbit.getJacobian(OrbitType numerator,
OrbitType denominator,
PositionAngle positionAngle)
Get coordinate conversion jacobian.
|
RealMatrix |
Orbit.getKeplerianTransitionMatrix(double dt)
Get keplerian transition matrix.
|
| Modifier and Type | Method and Description |
|---|---|
static boolean |
Orbit.isPositiveDefinite(RealMatrix matrix,
double small)
Test the positivity of a matrix.
|
| Modifier and Type | Method and Description |
|---|---|
static RealMatrix |
CovarianceInterpolation.createDiagonalMatrix(int dim,
double coef)
Creates a diagonal square matrix of dimension dim equals to coef * identity (dim)
|
RealMatrix |
CovarianceInterpolation.getFirstCovarianceMatrix() |
RealMatrix |
CovarianceInterpolation.getSecondCovarianceMatrix() |
RealMatrix |
CovarianceInterpolation.interpolate(AbsoluteDate t)
Computes the interpolation of a covariance matrix based on its two surrounding covariance matrices which define
the interpolation interval allowed.
|
| Modifier and Type | Method and Description |
|---|---|
void |
CovarianceInterpolation.setFirstCovarianceMatrix(RealMatrix covMatrix,
AbsoluteDate t)
Allows to change the CovarianceMatrix standing for the lower bound of the
interpolation interval, associated with t1.
|
void |
CovarianceInterpolation.setSecondCovarianceMatrix(RealMatrix covMatrix,
AbsoluteDate t)
Allows to change the CovarianceMatrix standing for the upper bound of the
interpolation interval, associated with t2.
|
| Constructor and Description |
|---|
CovarianceInterpolation(AbsoluteDate t1In,
RealMatrix matrix1,
AbsoluteDate t2In,
RealMatrix matrix2,
int order,
Orbit orbitSatellite,
double muValue)
Constructor of the class CovarianceInterpolation
|
OrbitCovariance(AbsoluteDate covDate,
Frame refFrame,
OrbitType coordType,
RealMatrix covMat)
Simple constructor
|
OrbitCovariance(Orbit orbit,
OrbitType coordType,
RealMatrix covMat)
Simple constructor.
|
OrbitCovariance(Orbit orbit,
RealMatrix covMat)
Simple constructor.
|
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