Statistics::Test::Sequence(3pm) 			User Contributed Perl Documentation			   Statistics::Test::Sequence(3pm)

NAME

       Statistics::Test::Sequence - Sequence correlation test for random numbers

SYNOPSIS

	 use Statistics::Test::Sequence;
	 my $tester = Statistics::Test::Sequence->new();
	 $tester->set_data( [map {rand()} 1..1000000] );

	 my ($metric, $actual_freq, $expected_freq) = $tester->test();
	 use Data::Dumper;
	 print "$metric
";
	 print "Frequencies:
";
	 print Dumper $actual_freq;
	 print "Expected frequencies:
";
	 print Dumper $expected_freq;

DESCRIPTION

       This module implements a sequence correlation test for random number generators. It shows pairwise correlation between subsequent random
       numbers.

       The algorithm is as follows: (Following Blobel. Citation in SEE ALSO section.)

       o Given "N+1" random numbers "u_j".

       o For all "j", compare "u_j" with "u_j+1". If "u_j" is greater then "u_j+1", assign a 0-Bit to the number. Otherwise, assign a 1-Bit.

       o Find all sequences of equal Bits. For every sequence, increment a counter for the length "k" of that sequence. (Regardless of whether
	 it's a sequence of 1's or 0's.)

       o For uncorrelated random numbers, the number of sequences N(k) of length "k" in the set of "N+1" random numbers is expected to be:

	   N(k) = 2*((k^2+3*k+1)*N - (k^3+3*k^2-k-4)) / (k+3)!

METHODS

   new
       Creates a new random number tester.

   set_data
       Sets the random numbers to operate on. First argument must be either an array reference to an array of random numbers or a code reference.

       If the first argument is a code reference, the second argument must be an integer "n". The code reference is called "n"-times and its
       return values are used as random numbers.

       The code reference semantics are particularily useful if you do not want to store all random numbers in memory at the same time. You can
       write a subroutine that, for example, generates and returns batches of 100 random numbers so no more than 101 of these numbers will be in
       memory at the same time. Note that if you return 100 numbers at once and pass in "n=50", you will have a sequence of 5000 random numbers.

   test
       Runs the sequence test on the data that was previously set using "set_data".

       Returns three items: The first is the root mean square of the bin residuals divided by the number of random numbers. It could be used as a
       measure for the quality of the random number generator and should be as close to zero as possible. A better metric is to compare the
       following two return values.

       The second return value is a reference to the array of frequencies.  An example is in order here. Generating one million random numbers, I
       get:

	 [0, 416765, 181078, 56318, 11486, 1056, 150]

       This means there were no sequences of length 0 (obvious), 416765 sequences of length 1, etc. There were no sequences of length 7 or
       greater. This example is a bad random number generator! (It's a linear congruent generator with "(a*x_i+c)%m" and "a=421", "c=64773",
       "m=259200", and "x_0=4711").

       The third return value is similar in nature to the second in that it is a reference to an array containing sequence length frequencies.
       This one, however, contains the frequencies that would be expected for the given number of random numbers, were they uncorrelated.  The
       number of bins has the maximum length of an occurring sequence as an upper limit. In the given example, you would get: (Dumped with
       Data::Dumper)

	 $VAR1 = [
		   '0',
		   '416666.75',
		   '183333.1',
		   '52777.64722222222222222222222222222222222',
		   '11507.89523809523809523809523809523809524',
		   '2033.72068452380952380952380952380952381',
		   '303.1287808641975308641975308641975308642',
		   # ...
		 ];

       Note that where I put in a "# ...", you would really see a couple more lines of numbers until the numbers go below an expected frequency of
       0.1.  For "n=1000000" and "k=7", you get about 39 sequences, "k=8" is expected to be found 4-5 times, etc.

SUBROUTINES

   expected_frequency
       Returns the expected frequency of the sequence length "k" in a set of "n" random numbers assuming uncorrelated random numbers.

       Returns this as a Math::BigFloat.

       Expects "k" and "n" as arguments.

       This subroutine is memoized. (See Memoize.)

   faculty
       Computes the factulty of the first argument recursively as a Math::BigFloat. This subroutine is memoized. (See Memoize.)

SEE ALSO

       Math::BigFloat, Memoize, Params::Util

       Random number generators: Math::Random::MT, Math::Random, Math::Random::OO, Math::TrulyRandom, "/dev/random" where available

       The algorithm was taken from: (German)

       Blobel, V., and Lohrmann, E. Statistische und numerische Methoden der Datenanalyse. Stuttgart, Leipzig: Teubner, 1998

AUTHOR

       Steffen Mueller, <smueller@cpan.org>

COPYRIGHT AND LICENSE

       Copyright (C) 2007 by Steffen Mueller

       This library is free software; you can redistribute it and/or modify it under the same terms as Perl itself, either Perl version 5.6 or, at
       your option, any later version of Perl 5 you may have available.

perl v5.10.0							    2007-01-05					   Statistics::Test::Sequence(3pm)