Class LoessInterpolator
- java.lang.Object
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- org.apache.commons.math.analysis.interpolation.LoessInterpolator
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- All Implemented Interfaces:
java.io.Serializable
,UnivariateRealInterpolator
public class LoessInterpolator extends java.lang.Object implements UnivariateRealInterpolator, java.io.Serializable
Implements the Local Regression Algorithm (also Loess, Lowess) for interpolation of real univariate functions. For reference, see William S. Cleveland - Robust Locally Weighted Regression and Smoothing Scatterplots This class implements both the loess method and serves as an interpolation adapter to it, allowing to build a spline on the obtained loess fit.- Since:
- 2.0
- Version:
- $Revision: 990655 $ $Date: 2010-08-29 23:49:40 +0200 (dim. 29 août 2010) $
- See Also:
- Serialized Form
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Field Summary
Fields Modifier and Type Field Description static double
DEFAULT_ACCURACY
Default value for accuracy.static double
DEFAULT_BANDWIDTH
Default value of the bandwidth parameter.static int
DEFAULT_ROBUSTNESS_ITERS
Default value of the number of robustness iterations.
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Constructor Summary
Constructors Constructor Description LoessInterpolator()
Constructs a newLoessInterpolator
with a bandwidth ofDEFAULT_BANDWIDTH
,DEFAULT_ROBUSTNESS_ITERS
robustness iterations and an accuracy of {#link #DEFAULT_ACCURACY}.LoessInterpolator(double bandwidth, int robustnessIters)
Constructs a newLoessInterpolator
with given bandwidth and number of robustness iterations.LoessInterpolator(double bandwidth, int robustnessIters, double accuracy)
Constructs a newLoessInterpolator
with given bandwidth, number of robustness iterations and accuracy.
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Method Summary
All Methods Instance Methods Concrete Methods Modifier and Type Method Description PolynomialSplineFunction
interpolate(double[] xval, double[] yval)
Compute an interpolating function by performing a loess fit on the data at the original abscissae and then building a cubic spline with aSplineInterpolator
on the resulting fit.double[]
smooth(double[] xval, double[] yval)
Compute a loess fit on the data at the original abscissae.double[]
smooth(double[] xval, double[] yval, double[] weights)
Compute a weighted loess fit on the data at the original abscissae.
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Field Detail
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DEFAULT_BANDWIDTH
public static final double DEFAULT_BANDWIDTH
Default value of the bandwidth parameter.- See Also:
- Constant Field Values
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DEFAULT_ROBUSTNESS_ITERS
public static final int DEFAULT_ROBUSTNESS_ITERS
Default value of the number of robustness iterations.- See Also:
- Constant Field Values
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DEFAULT_ACCURACY
public static final double DEFAULT_ACCURACY
Default value for accuracy.- Since:
- 2.1
- See Also:
- Constant Field Values
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Constructor Detail
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LoessInterpolator
public LoessInterpolator()
Constructs a newLoessInterpolator
with a bandwidth ofDEFAULT_BANDWIDTH
,DEFAULT_ROBUSTNESS_ITERS
robustness iterations and an accuracy of {#link #DEFAULT_ACCURACY}. SeeLoessInterpolator(double, int, double)
for an explanation of the parameters.
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LoessInterpolator
public LoessInterpolator(double bandwidth, int robustnessIters) throws MathException
Constructs a newLoessInterpolator
with given bandwidth and number of robustness iterations.Calling this constructor is equivalent to calling {link
LoessInterpolator(bandwidth, robustnessIters, LoessInterpolator.DEFAULT_ACCURACY)
- Parameters:
bandwidth
- when computing the loess fit at a particular point, this fraction of source points closest to the current point is taken into account for computing a least-squares regression. A sensible value is usually 0.25 to 0.5, the default value isDEFAULT_BANDWIDTH
.robustnessIters
- This many robustness iterations are done. A sensible value is usually 0 (just the initial fit without any robustness iterations) to 4, the default value isDEFAULT_ROBUSTNESS_ITERS
.- Throws:
MathException
- if bandwidth does not lie in the interval [0,1] or if robustnessIters is negative.- See Also:
LoessInterpolator(double, int, double)
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LoessInterpolator
public LoessInterpolator(double bandwidth, int robustnessIters, double accuracy) throws MathException
Constructs a newLoessInterpolator
with given bandwidth, number of robustness iterations and accuracy.- Parameters:
bandwidth
- when computing the loess fit at a particular point, this fraction of source points closest to the current point is taken into account for computing a least-squares regression. A sensible value is usually 0.25 to 0.5, the default value isDEFAULT_BANDWIDTH
.robustnessIters
- This many robustness iterations are done. A sensible value is usually 0 (just the initial fit without any robustness iterations) to 4, the default value isDEFAULT_ROBUSTNESS_ITERS
.accuracy
- If the median residual at a certain robustness iteration is less than this amount, no more iterations are done.- Throws:
MathException
- if bandwidth does not lie in the interval [0,1] or if robustnessIters is negative.- Since:
- 2.1
- See Also:
LoessInterpolator(double, int)
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Method Detail
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interpolate
public final PolynomialSplineFunction interpolate(double[] xval, double[] yval) throws MathException
Compute an interpolating function by performing a loess fit on the data at the original abscissae and then building a cubic spline with aSplineInterpolator
on the resulting fit.- Specified by:
interpolate
in interfaceUnivariateRealInterpolator
- Parameters:
xval
- the arguments for the interpolation pointsyval
- the values for the interpolation points- Returns:
- A cubic spline built upon a loess fit to the data at the original abscissae
- Throws:
MathException
- if some of the following conditions are false:- Arguments and values are of the same size that is greater than zero
- The arguments are in a strictly increasing order
- All arguments and values are finite real numbers
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smooth
public final double[] smooth(double[] xval, double[] yval, double[] weights) throws MathException
Compute a weighted loess fit on the data at the original abscissae.- Parameters:
xval
- the arguments for the interpolation pointsyval
- the values for the interpolation pointsweights
- point weights: coefficients by which the robustness weight of a point is multiplied- Returns:
- values of the loess fit at corresponding original abscissae
- Throws:
MathException
- if some of the following conditions are false:- Arguments and values are of the same size that is greater than zero
- The arguments are in a strictly increasing order
- All arguments and values are finite real numbers
- Since:
- 2.1
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smooth
public final double[] smooth(double[] xval, double[] yval) throws MathException
Compute a loess fit on the data at the original abscissae.- Parameters:
xval
- the arguments for the interpolation pointsyval
- the values for the interpolation points- Returns:
- values of the loess fit at corresponding original abscissae
- Throws:
MathException
- if some of the following conditions are false:- Arguments and values are of the same size that is greater than zero
- The arguments are in a strictly increasing order
- All arguments and values are finite real numbers
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