org.apache.commons.math3.distribution.KolmogorovSmirnovDistribution
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java.lang.Object
public class KolmogorovSmirnovDistribution
Implementation of the Kolmogorov-Smirnov distribution.
Treats the distribution of the two-sided P(D_n < d) where
D_n = sup_x |G(x) - G_n (x)| for the theoretical cdf G and
the empirical cdf G_n.
This implementation is based on [1] with certain quick decisions for extreme values given in [2].
In short, when wanting to evaluate P(D_n < d), the method in [1] is
to write d = (k - h) / n for positive integer k and
0 <= h < 1. Then P(D_n < d) = (n! / n^n) * t_kk, where
t_kk is the (k, k)'th entry in the special matrix
H^n, i.e. H to the n'th power.
References:
| Constructor Summary | |
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KolmogorovSmirnovDistribution(int n)
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| Method Summary | |
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double |
cdf(double d)
Calculates P(D_n < d) using method described in [1] with quick
decisions for extreme values given in [2] (see above). |
double |
cdf(double d,
boolean exact)
Calculates P(D_n < d) using method described in [1] with quick
decisions for extreme values given in [2] (see above). |
double |
cdfExact(double d)
Calculates P(D_n < d) using method described in [1] with quick
decisions for extreme values given in [2] (see above). |
| Methods inherited from class java.lang.Object |
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clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait |
| Constructor Detail |
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public KolmogorovSmirnovDistribution(int n)
throws NotStrictlyPositiveException
n - Number of observations
NotStrictlyPositiveException - if n <= 0| Method Detail |
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public double cdf(double d)
throws MathArithmeticException
P(D_n < d) using method described in [1] with quick
decisions for extreme values given in [2] (see above). The result is not
exact as with
cdfExact(double) because
calculations are based on double rather than
BigFraction.
d - statistic
P(D_n < d)
MathArithmeticException - if algorithm fails to convert h
to a BigFraction in expressing
d as (k - h) / m for integer k, m and
0 <= h < 1.
public double cdfExact(double d)
throws MathArithmeticException
P(D_n < d) using method described in [1] with quick
decisions for extreme values given in [2] (see above). The result is
exact in the sense that BigFraction/BigReal is used everywhere at the
expense of very slow execution time. Almost never choose this in real
applications unless you are very sure; this is almost solely for
verification purposes. Normally, you would choose
cdf(double)
d - statistic
P(D_n < d)
MathArithmeticException - if algorithm fails to convert h
to a BigFraction in expressing
d as (k - h) / m for integer k, m and
0 <= h < 1.
public double cdf(double d,
boolean exact)
throws MathArithmeticException
P(D_n < d) using method described in [1] with quick
decisions for extreme values given in [2] (see above).
d - statisticexact - whether the probability should be calculated exact using
BigFraction everywhere at the
expense of very slow execution time, or if double should be used
convenient places to gain speed. Almost never choose true in real
applications unless you are very sure; true is almost solely for
verification purposes.
P(D_n < d)
MathArithmeticException - if algorithm fails to convert h
to a BigFraction in expressing
d as (k - h) / m for integer k, m and
0 <= h < 1.
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