Copyright	(c) 2011 Bryan O'Sullivan
License	BSD3
Maintainer	bos@serpentine.com
Stability	experimental
Portability	portable
Safe Haskell	None
Language	Haskell98

Statistics.Sample.KernelDensity

Contents

Estimation functions
References

Description

Kernel density estimation. This module provides a fast, robust, non-parametric way to estimate the probability density function of a sample.

This estimator does not use the commonly employed "Gaussian rule of thumb". As a result, it outperforms many plug-in methods on multimodal samples with widely separated modes.

Synopsis

Estimation functions

kde Source #

Arguments

:: (Vector v CD, Vector v Double, Vector v Int)
=> Int	The number of mesh points to use in the uniform discretization of the interval `(min,max)`. If this value is not a power of two, then it is rounded up to the next power of two.
-> v Double
-> (v Double, v Double)

Gaussian kernel density estimator for one-dimensional data, using the method of Botev et al.

The result is a pair of vectors, containing:

The coordinates of each mesh point. The mesh interval is chosen to be 20% larger than the range of the sample. (To specify the mesh interval, use kde_.)
Density estimates at each mesh point.

kde_ Source #

Arguments

:: (Vector v CD, Vector v Double, Vector v Int)
=> Int	The number of mesh points to use in the uniform discretization of the interval `(min,max)`. If this value is not a power of two, then it is rounded up to the next power of two.
-> Double	Lower bound (`min`) of the mesh range.
-> Double	Upper bound (`max`) of the mesh range.
-> v Double
-> (v Double, v Double)

Gaussian kernel density estimator for one-dimensional data, using the method of Botev et al.

The result is a pair of vectors, containing:

The coordinates of each mesh point.
Density estimates at each mesh point.

References

Botev. Z.I., Grotowski J.F., Kroese D.P. (2010). Kernel density estimation via diffusion. Annals of Statistics 38(5):2916–2957. http://arxiv.org/pdf/1011.2602