public abstract class AbstractCurveFitter extends Object
y = f(pi;x)
, where x
is
the independent variable and the pi
are the
parameters.
N
observed points (xk, yk)
,
0 <= k < N
.
∑yk - f(xk)2,
which is actually a least-squares problem.
This class contains boilerplate code for calling the
fit(Collection)
method for obtaining the parameters.
The problem setup, such as the choice of optimization algorithm
for fitting a specific function is delegated to subclasses.Modifier and Type | Class and Description |
---|---|
protected static class |
AbstractCurveFitter.TheoreticalValuesFunction
Vector function for computing function theoretical values.
|
Constructor and Description |
---|
AbstractCurveFitter() |
Modifier and Type | Method and Description |
---|---|
double[] |
fit(Collection<WeightedObservedPoint> points)
Fits a curve.
|
protected LeastSquaresOptimizer |
getOptimizer()
Creates an optimizer set up to fit the appropriate curve.
|
protected abstract LeastSquaresProblem |
getProblem(Collection<WeightedObservedPoint> points)
Creates a least squares problem corresponding to the appropriate curve.
|
public double[] fit(Collection<WeightedObservedPoint> points)
points
- Observations.protected LeastSquaresOptimizer getOptimizer()
The default implementation uses a Levenberg-Marquardt
optimizer.
points
.protected abstract LeastSquaresProblem getProblem(Collection<WeightedObservedPoint> points)
points
- Sample points.points
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