public class FirstOrderConverter extends Object implements FirstOrderDifferentialEquations
This class is a wrapper around a SecondOrderDifferentialEquations
which allow to use a
FirstOrderIntegrator
to integrate it.
The transformation is done by changing the n dimension state vector to a 2n dimension vector, where the first n components are the initial state variables and the n last components are their first time derivative. The first time derivative of this state vector then really contains both the first and second time derivative of the initial state vector, which can be handled by the underlying second order equations set.
One should be aware that the data is duplicated during the transformation process and that for each call to
computeDerivatives
, this wrapper does copy 4n scalars : 2n before the call to
computeSecondDerivatives
in order to dispatch the y state vector into z and zDot, and 2n after the call to gather
zDot and zDDot into yDot. Since the underlying problem by itself perhaps also needs to copy data and dispatch the
arrays into domain objects, this has an impact on both memory and CPU usage. The only way to avoid this duplication
is to perform the transformation at the problem level, i.e. to implement the problem as a first order one and then
avoid using this class.
FirstOrderIntegrator
,
FirstOrderDifferentialEquations
,
SecondOrderDifferentialEquations
Constructor and Description |
---|
FirstOrderConverter(SecondOrderDifferentialEquations equationsIn)
Simple constructor.
|
Modifier and Type | Method and Description |
---|---|
void |
computeDerivatives(double t,
double[] y,
double[] yDot)
Get the current time derivative of the state vector.
|
int |
getDimension()
Get the dimension of the problem.
|
public FirstOrderConverter(SecondOrderDifferentialEquations equationsIn)
equationsIn
- second order equations set to convertpublic int getDimension()
The dimension of the first order problem is twice the dimension of the underlying second order problem.
getDimension
in interface FirstOrderDifferentialEquations
public void computeDerivatives(double t, double[] y, double[] yDot)
computeDerivatives
in interface FirstOrderDifferentialEquations
t
- current value of the independent time variabley
- array containing the current value of the state vectoryDot
- placeholder array where to put the time derivative of the state vectorCopyright © 2019 CNES. All rights reserved.