See: Description
| Interface | Description |
|---|---|
| BurdenFairesAdaptiveQuadrature.Integrand.Function |
A functional interface for the containing delegate type.
|
| IDoubleFunctionSampler |
An interface to an object that controls how a function of a
double is sampled. |
| IDurationFunctionSampler |
An interface to an object that controls how a function of a
Duration is sampled. |
| IJulianDateFunctionSampler |
An interface to an object that controls how a function of a
JulianDate is sampled. |
| IPartialDifferentiable |
Classes that implement this interface represent values which have partial derivatives associated with them,
and contain the method
IPartialDifferentiable.getPartialDerivativesEvaluator(java.util.List<agi.foundation.numericalmethods.advanced.IPartialDifferentiable>, agi.foundation.EvaluatorGroup) to produce an evaluator to calculate those
partial derivatives. |
| OrdinaryDifferentialEquationFunction.Function |
A functional interface for the containing delegate type.
|
| Class | Description |
|---|---|
| AdaptiveNumericalIntegrator |
Base class for all
NumericalIntegrator objects who can use error information
produced during integration to adapt the size of the step in order to adjust the amount of
error introduced into the dependent variables over successive integration steps. |
| BrentFindExtremum |
Locates a local extremum (minimum or maximum) of a function using the Brent algorithm.
|
| BrentFindRoot |
Locates the root of a function using the Van Wijngaarden, Dekker, Brent algorithm.
|
| BurdenFairesAdaptiveQuadrature |
An adaptive quadrature numerical integration utility based on Simpson's method.
|
| BurdenFairesAdaptiveQuadrature.Integrand |
The function to be integrated.
|
| Combinatorics |
A tool for computing various quantities associated with combinations of objects associated with a
finite or countable set of discrete items.
|
| DependentVariableDerivatives |
Defines a set of first order differential equations used by a
NumericalIntegrator
to advance a set of dependent variables over an independent variable step. |
| DependentVariableDifferentialEquation |
An adapter for an
OrdinaryDifferentialEquationSystem for use with a
NumericalIntegrator. |
| DoubleFunctionCollection |
A collection of functions to be explored by
DoubleFunctionExplorer. |
| DoubleFunctionExplorerProgress |
Contains additional information reported to
ITrackCalculationProgress.reportProgress(int, java.lang.Object) by
DoubleFunctionExplorer.explore(double,double,ITrackCalculationProgress). |
| DoubleFunctionExtremumFound |
A finding by
DoubleFunctionExplorer that a function has a local
extremum at a specific Variable. |
| DoubleFunctionExtremumIndicated |
A finding by
DoubleFunctionExplorer that a function has a local extremum
indicated by three samples. |
| DoubleFunctionFinding |
The base class for findings of the
DoubleFunctionExplorer, such as a threshold
crossing or an extremum. |
| DoubleFunctionThresholdCollection |
A collection of function thresholds.
|
| DoubleFunctionThresholdCrossingFound |
A finding by
DoubleFunctionExplorer that a function crossed
a threshold at a specific Variable. |
| DoubleFunctionThresholdCrossingIndicated |
A finding by
DoubleFunctionExplorer that a threshold crossing is
indicated somewhere between two Variables, because the function values are on opposite sides of the
threshold at the two Variables. |
| DurationFunctionCollection |
A collection of functions to be explored by
DurationFunctionExplorer. |
| DurationFunctionExplorerProgress |
Contains additional information reported to
ITrackCalculationProgress.reportProgress(int, java.lang.Object) by
DurationFunctionExplorer.explore(Duration,Duration,ITrackCalculationProgress). |
| DurationFunctionExtremumFound |
A finding by
DurationFunctionExplorer that a function has a local
extremum at a specific duration. |
| DurationFunctionExtremumIndicated |
A finding by
DurationFunctionExplorer that a function has a local extremum
indicated by three samples. |
| DurationFunctionFinding |
The base class for findings of the
DurationFunctionExplorer, such as a threshold
crossing or an extremum. |
| DurationFunctionThresholdCollection |
A collection of function thresholds.
|
| DurationFunctionThresholdCrossingFound |
A finding by
DurationFunctionExplorer that a function crossed
a threshold at a specific duration. |
| DurationFunctionThresholdCrossingIndicated |
A finding by
DurationFunctionExplorer that a threshold crossing is
indicated somewhere between two durations, because the function values are on opposite sides of the
threshold at the two durations. |
| GoldenSectionFindExtremum |
Locates a local extremum (minimum or maximum) of a function using the Golden section algorithm.
|
| HermitePolynomialApproximation |
A technique for polynomial interpolation and extrapolation using a general form of Hermite's algorithm
that is valid for any input order.
|
| InterpolationAlgorithm |
An algorithm for computing the interpolated value of a function for a new independent variable value
from a list of known values of the function at different independent variable values.
|
| Interpolator |
Computes the interpolated value of a function for a new independent variable value
from a list of known values of the function at different independent variable values.
|
| JulianDateFunctionCollection |
A collection of functions to be explored by
JulianDateFunctionExplorer. |
| JulianDateFunctionExplorerProgress |
Contains additional information reported to
ITrackCalculationProgress.reportProgress(int, java.lang.Object) by
JulianDateFunctionExplorer.explore(JulianDate,JulianDate,ITrackCalculationProgress). |
| JulianDateFunctionExtremumFound |
A finding by
JulianDateFunctionExplorer that a function has a local
extremum at a specific date. |
| JulianDateFunctionExtremumIndicated |
A finding by
JulianDateFunctionExplorer that a function has a local extremum
indicated by three samples. |
| JulianDateFunctionFinding |
The base class for findings of the
JulianDateFunctionExplorer, such as a threshold
crossing or an extremum. |
| JulianDateFunctionThresholdCollection |
A collection of function thresholds.
|
| JulianDateFunctionThresholdCrossingFound |
A finding by
JulianDateFunctionExplorer that a function crossed
a threshold at a specific date. |
| JulianDateFunctionThresholdCrossingIndicated |
A finding by
JulianDateFunctionExplorer that a threshold crossing is
indicated somewhere between two dates, because the function values are on opposite sides of the
threshold at the two dates. |
| LagrangeOrbitVariationOfParameters |
Uses variation of parameters (VOP) with a two-body propagator to interpolate orbital positions.
|
| LagrangePolynomialApproximation |
An algorithm that performs polynomial interpolation using Lagrange's algorithm.
|
| LinearApproximation |
A technique for Linear Interpolation.
|
| LineSearchSettings |
The settings for a line search used by a
MultivariableFunctionDifferentialSolver
or ActiveSetSequentialQuadraticProgrammingOptimizer. |
| MultipleStepIntegrator |
A subtype of integrator which saves multiple steps of derivative data for more accurate
integration.
|
| MultivariableFunctionSolverWarning |
When a
MultivariableFunctionSolver for some reason doesn't succeed or encounters another
issue that is not critical enough to throw an RuntimeException, one of these warning objects can be created
to let the user know what happened. |
| MultivariableFunctionWarning |
A warning for when a
SolvableMultivariableFunction being run in a
MultivariableFunctionSolver encounters a problem due to a solver nested in the
function having a problem. |
| NewtonFindRoot |
Locates the root of a function using the Newton-Raphson method.
|
| OrdinaryDifferentialEquationFunction |
A multivariate, vector function representing a set of ordinary differential equations.
|
| OrdinaryDifferentialEquationSystem |
Describes a system of ordinary differential equations.
|
| PartialDerivativesEvaluator |
An interface for an evaluator that takes a
JulianDate, order, and list of
inputs and returns the partial derivatives of itself with respect to those inputs. |
| PartialDerivativesFixed |
An object with fixed partial derivatives.
|
| PartialDerivativesSum |
An
IPartialDifferentiable which produces an evaluator which calculates the resulting partial derivative from a summation of a list of
additional IPartialDifferentiable. |
| RealPolynomial |
Represents a polynomial function of one variable with only real coefficients.
|
| RungeKuttaAdaptiveStepIntegrator |
Defines a Runge-Kutta integrator which can adapt the size of its steps based on the integration error.
|
| RungeKuttaAlgorithm |
The basic Runge-Kutta integration algorithm used by the integrators, it's Butcher Tableau, and the derivative information
computed during integration.
|
| RungeKuttaFixedStepIntegrator |
Defines a Runge-Kutta integrator with a fixed step size.
|
| SolvableMultivariableFunctionOperations |
A set of common methods for using a
SolvableMultivariableFunction. |
| TimeIntervalFinderProgress |
Contains additional information reported to
ITrackCalculationProgress.reportProgress(int, java.lang.Object) by TimeIntervalFinder (get). |
| Enum | Description |
|---|---|
| BehaviorWhenOnThreshold |
Indicates the behavior of a function explorer such as
JulianDateFunctionExplorer
when a function value exactly equals a threshold value. |
| BracketToward |
Defines the behavior of a root finder such as
BrentFindRoot when a sampled
function value exactly equals zero and the root finder's ConvergenceCriteria
requires convergence on the independent variable. |
| BrentSolutionType |
Indicates on which side of zero a solution must be found.
|
| ConvergenceCriteria |
Specifies the criteria to be used in determining convergence.
|
| ExtremumKind |
Enumerates possible extremum types.
|
| NewtonRootType | |
| ThresholdCrossingSolutionType |
Indicates on which side of threshold crossing a solution must be found.
|