Difference between revisions of "Manuals/calci/KSTESTCORE"

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==Ks
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<div style="font-size:30px">'''KSTESTCORE (XRange,ObservedFrequency,Test,someconfidence,NewTableFlag)'''</div><br/>
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*<math>n_1,n_2,n_3...</math> are any real numbers.
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==Description==
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*This function gives the test statistic of the K-S test.
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*K-S test is indicating the Kolmogorov-Smirnov test.
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*It is one of the non parametric test.
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*This test is the equality of continuous one dimensional probability distribution.
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*It can be used to compare sample with a reference probability distribution or to compare two samples.
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*This test statistic measures a distance between the empirical distribution function of the sample and the cumulative distribution function of the reference distribution, or between the empirical distribution functions of two samples.
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*The two-sample KS test is one of the most useful and general nonparametric methods for comparing two samples.
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*It is sensitive to differences in both location and shape of the empirical cumulative distribution functions of the two samples.
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*This test can be modified to serve as a goodness of fit test.
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*The assumption of the KS test is:
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*Null Hypothesis(H0):The sampled population is normally distributed.
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*Alternative hypothesis(Ha):The sampled population is not  normally distributed.
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*The Kolmogorov-Smirnov test to compare a data set to a given theoretical distribution is as follows:
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*1.Data set sorted into increasing order and denoted as <math>x_i</math>, where i=1,...,n.
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*2.Smallest empirical estimate of fraction of points falling below <math>x_i</math>, and computed as <math>\frac{(i-1)}{n}</math> for i=1,...,n.
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*3.Largest empirical estimate of fraction of points falling below <math>x_i</math> and computed as <math>\frac{i}{n}</math> for i=1,...,n.
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*4.Theoretical estimate of fraction of points falling below <math>x_i</math> and computed as <math>F(x_i)</math>, where    F(x) is the theoretical distribution function being tested.
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*5.Find the absolute value of difference of Smallest and largest empirical value  with the theoretical estimation of points.
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*This is a measure of "error" for this data point.
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*6.From the largest error, we can compute the test statistic.
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*The Kolmogorov-Smirnov test statistic for the cumulative distribution F(x) is:<math> D_n=Sup_x|F_n(x)-F(x)|</math>where <math>sup_x</math> is the supremum of the set of distances.
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*<math>F_n(x)</math> is the empirical distribution function for n,with the observations <math>X_i</math> is defined as:<math>F_n(x)= Refer Wikipedia I_{X_i\le x}</math>where <math>I_{X_i\le x}</math> is the indicator function, equal to 1 if <math>X_i\le x</math> and equal to 0 otherwise.
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==Examples==

Revision as of 13:50, 14 December 2016

KSTESTCORE (XRange,ObservedFrequency,Test,someconfidence,NewTableFlag)


  • are any real numbers.

Description

  • This function gives the test statistic of the K-S test.
  • K-S test is indicating the Kolmogorov-Smirnov test.
  • It is one of the non parametric test.
  • This test is the equality of continuous one dimensional probability distribution.
  • It can be used to compare sample with a reference probability distribution or to compare two samples.
  • This test statistic measures a distance between the empirical distribution function of the sample and the cumulative distribution function of the reference distribution, or between the empirical distribution functions of two samples.
  • The two-sample KS test is one of the most useful and general nonparametric methods for comparing two samples.
  • It is sensitive to differences in both location and shape of the empirical cumulative distribution functions of the two samples.
  • This test can be modified to serve as a goodness of fit test.
  • The assumption of the KS test is:
  • Null Hypothesis(H0):The sampled population is normally distributed.
  • Alternative hypothesis(Ha):The sampled population is not normally distributed.
  • The Kolmogorov-Smirnov test to compare a data set to a given theoretical distribution is as follows:
  • 1.Data set sorted into increasing order and denoted as , where i=1,...,n.
  • 2.Smallest empirical estimate of fraction of points falling below , and computed as for i=1,...,n.
  • 3.Largest empirical estimate of fraction of points falling below and computed as for i=1,...,n.
  • 4.Theoretical estimate of fraction of points falling below and computed as , where F(x) is the theoretical distribution function being tested.
  • 5.Find the absolute value of difference of Smallest and largest empirical value with the theoretical estimation of points.
  • This is a measure of "error" for this data point.
  • 6.From the largest error, we can compute the test statistic.
  • The Kolmogorov-Smirnov test statistic for the cumulative distribution F(x) is:where is the supremum of the set of distances.
  • is the empirical distribution function for n,with the observations is defined as:where is the indicator function, equal to 1 if and equal to 0 otherwise.

Examples