NAME
    MaxEntropy - Perl5 module for Maximum Entropy Modeling and
    Feature Induction

SYNOPSIS
      use Statistics::MaxEntropy;

      # debugging messages; default 0
      $Statistics::MaxEntropy::debug = 0;

      # maximum number of iterations for IIS; default 100
      $Statistics::MaxEntropy::NEWTON_max_it = 100;

      # minimal distance between new and old x for Newton's method; 
      # default 0.001
      $Statistics::MaxEntropy::NEWTON_min = 0.001;

      # maximum number of iterations for Newton's method; default 100
      $Statistics::MaxEntropy::KL_max_it = 100;

      # minimal distance between new and old x; default 0.001
      $Statistics::MaxEntropy::KL_min = 0.001;

      # the size of Monte Carlo samples; default 1000
      $Statistics::MaxEntropy::SAMPLE_size = 1000;

      # creation of a new event space from an events file
      $events = Statistics::MaxEntropy::new($vectype, $file);

      # Generalised Iterative Scaling, "corpus" means no sampling
      $events->scale("corpus", "gis");

      # Improved Iterative Scaling, "mc" means Monte Carlo sampling
      $events->scale("mc", "iis");

      # Feature Induction algorithm, also see Statistics::Candidates POD
      $candidates = Statistics::Candidates->new($candidates_file);
      $events->fi("iis", $candidates, $nr_to_add, "mc");

      # writing new events, candidates, and parameters files
      $events->write($some_other_file);
      $events->write_parameters($file);
      $events->write_parameters_with_names($file);

      # dump/undump the event space to/from a file
      $events->dump($file);
      $events->undump($file);

DESCRIPTION
    This module is an implementation of the Generalised and Improved
    Iterative Scaling (GIS, IIS) algorithms and the Feature
    Induction (FI) algorithm as defined in (Darroch and Ratcliff
    1972) and (Della Pietra et al. 1997). The purpose of the scaling
    algorithms is to find the maximum entropy distribution given a
    set of events and (optionally) an initial distribution. Also a
    set of candidate features may be specified; then the FI
    algorithm may be applied to find and add the candidate
    feature(s) that give the largest `gain' in terms of Kullback
    Leibler divergence when it is added to the current set of
    features.

    Events are specified in terms of a set of feature functions
    (properties) f_1...f_k that map each event to {0,1} or to the
    natural numbers: an event is a string of bits. In addition, the
    frequency of each event is given. We assume the event space to
    have a probability distribution that can be described by

    p(x) = 1/Z e^{sum_i alpha_i f_i(x)}

    If you have a Perl earlier than 5.005, then you need
    `Data::Dumper' module by Gurusamy Sarathy. It can be obtained
    from CPAN just like this module.

  CONFIGURATION VARIABLES

    `$Statistics::MaxEntropy::debug'
        If set to `1', lots of debug information, and intermediate
        results will be output. Default: `0'

    `$Statistics::MaxEntropy::NEWTON_max_it'
        Sets the maximum number of iterations in Newton's method.
        Newton's method is applied to find the new parameters
        \alpha_i of the features `f_i'. Default: `100'.

    `$Statistics::MaxEntropy::NEWTON_min'
        Sets the minimum difference between x' and x in Newton's
        method (used for computing parameter updates in IIS); if
        either the maximum number of iterations is reached or the
        difference between x' and x is small enough, the iteration
        is stopped. Default: `0.001'. Sometimes features have
        Infinity or -Infinity as a solution; these features are
        excluded from future iterations.

    `$Statistics::MaxEntropy::KL_max_it'
        Sets the maximum number of iterations applied in the IIS
        algorithm. Default: `100'.

    `$Statistics::MaxEntropy::KL_min'
        Sets the minimum difference between KL divergences of two
        distributions in the IIS algorithm; if either the maximum
        number of iterations is reached or the difference between
        the divergences is enough, the iteration is stopped.
        Default: `0.001'.

    `$Statistics::MaxEntropy::SAMPLE_size'
        Determines the number of (unique) events a sample should
        contain. Only makes sense if for sampling "mc" is selected
        (see below). Its default is `1000'.

  METHODS

    `new'
         $vectype = "binary"; # or "integer"
         $events = Statistics::MaxEntropy::new($vectype, $events_file);

        A new event space is created, and the events are read from
        `$file'. The events file is not required. The syntax of
        events files is described in the section on "FILE SYNTAX".
        The `$vectype' parameter specifies how nonzero feature
        values should be interpreted as binary values or not.

    `write'
         $events->write($file);

        Writes the events to a file. Its syntax is described in the
        section on "FILE SYNTAX".

    `scale'
         $events->scale($sample, $scaler);

        If `$scaler' equals `"gis"', the Generalised Iterative
        Scaling algorithm (Darroch and Ratcliff 1972) is applied on
        the event space; `$scaler' equals `"iis"', the Improved
        Iterative Scaling Algorithm (Della Pietra et al. 1997) is
        used. If `$sample' is `"corpus"', there is no sampling done
        to re-estimate the parameters (the events previously read
        are considered a good sample); if it equals `"mc"' Monte
        Carlo (Metropolis-Hastings) sampling is performed to obtain
        a random sample; if `$sample' is `"enum"' the complete event
        space is enumerated.

    `fi'
         fi($scaler, $candidates, $nr_to_add, $sampling);

        Calls the Feature Induction algorithm. The parameter
        `$nr_to_add' is for the number of candidates it should add.
        If this number is greater than the number of candidates, all
        candidates are added. Meaningfull values for `$scaler' are
        `"gis"' and `"iis"'; default is `"gis"' (see previous item).
        `$sampling' should be one of `"corpus"', `"mc"', `"enum"'.
        `$candidates' should be in the `Statistics::Candidates'
        class:

         $candidates = Statistics::Candidates->new($file);

        See the Statistics::Candidates manpage.

    `write_parameters'
         $events->write_parameters($file);

    `write_parameters_with_names'
         $events->write_parameters_with_names($file);

    `dump'
         $events->dump($file);

        `$events' is written to `$file' using `Data::Dumper'.

    `undump'
         $events = Statistics::MaxEntropy->undump($file);

        The contents of file `$file' is read and eval'ed into
        `$events'.

FILE SYNTAX
    Lines that start with a `#' and empty lines are ignored.

    Below we give the syntax of in and output files.

  EVENTS FILE (input/output)

    Syntax of the event file (`n' features, and `m' events); the
    following holds for features:

    *   each line is an event;

    *   each column represents a feature function; the co-domain of a
        feature function is N;

    *   constant features (i.e. columns that are completely 0 or 1) are
        forbidden;

    *   2 or more events should be specified (this is in fact a
        consequence of the previous requirement;

    The frequency of each event precedes the feature columns.
    Features are indexed from right to left. Each `f_ij' and each
    `freq_i' is an integer:

        name_1 <tab> name_2 ... name_n-1 <tab> name_n <cr>
        freq_1 <white> f_11 <white> f12 ... f_1n-1 <white> f_1n <cr>
          .                          .
          .                          .
          .                          .
        freq_i <white> f_i1 <white> fi2 ... f_in-1 <white> f_in <cr>
          .                          .
          .                          .
          .                          .
        freq_m <white> f_m1 <white> fm2 ... f_mn-1 <white> f_mn

    (`m' events, `n' features) The feature names are separated by
    tabs, not white space. The line containing the feature names
    will be split on tabs; this implies that (non-tab) white space
    may be part of the feature names. The distinction between binary
    and integer feature functions is a matter of interpretation. If
    vector type `"binary"' is used, nonzero values are interpreted
    as 1.

  PARAMETERS FILE (input/output)

    Syntax of the initial parameters file; one parameter per line:

        par_1 <cr>
         .
         .
         .
        par_i <cr>
         .
         .
         .
        par_n

    The syntax of the output distribution is the same. The
    alternative procedure for saving parameters to a file
    `write_parameters_with_names' writes files that have the
    following syntax

        n <cr>
        name_1 <tab> par_1 <cr>
         .
         .
         .
        name_i <tab> par_i <cr>
         .
         .
         .
        name_n <tab> par_n <cr>
        bitmask

    where bitmask can be used to tell other programs what features
    to use in computing probabilities. Features that were ignored
    during scaling or because they are constant functions, receive a
    `0' bit.

  DUMP FILE (input/output)

    A dump file contains the event space (which is a hash blessed
    into class `Statistics::MaxEntropy') as a Perl expression that
    can be evaluated with eval.

BUGS
    It's slow.

SEE ALSO
    the perl(1) manpage, the Statistics::Candidates manpage, the
    Statistics::SparseVector manpage, the POSIX manpage, the Carp
    manpage.

DIAGNOSTICS
    The module dies with an appropriate message if

    *   it cannot open a specified events file;

    *   if you specified a constant feature function (in the events file
        or the candidates file);

    *   If the events file, candidates file, or the parameters file is
        not consistent. Possible causes are (a.o.):

    *       insufficient or too many features for some event;

    *       inconsistent candidate lines;

    *       insufficient, or to many event lines in the candidates file.

    *   it is tried to do feature induction with integer feature
        functions.

    The module captures `SIGQUIT' and `SIGINT'. On a `SIGINT'
    (typically <CONTROL-C> it will dump the current event space(s)
    and die. If a `SIGQUIT' (<CONTROL-BACKSLASH>) occurs it dumps
    the current event space as soon as possible after the first
    iteration it finishes.

REFERENCES
    (Abney 1997)
        Steven P. Abney, Stochastic Attribute Value Grammar,
        Computational Linguistics 23(4).

    (Darroch and Ratcliff 1972)
        J. Darroch and D. Ratcliff, Generalised Iterative Scaling
        for log-linear models, Ann. Math. Statist., 43, 1470-1480,
        1972.

    (Jaynes 1983)
        E.T. Jaynes, Papers on probability, statistics, and
        statistical physics. Ed.: R.D. Rosenkrantz. Kluwer Academic
        Publishers, 1983.

    (Jaynes 1997)
        E.T. Jaynes, Probability theory: the logic of science, 1997,
        unpublished manuscript.
        `URL:http://omega.math.albany.edu:8008/JaynesBook.html'

    (Della Pietra et al. 1997)
        Stephen Della Pietra, Vincent Della Pietra, and John
        Lafferty, Inducing features of random fields, In:
        Transactions Pattern Analysis and Machine Intelligence,
        19(4), April 1997.

VERSION
    Version 1.0.

AUTHOR
Hugo WL ter Doest, terdoest@cs.utwente.nl

COPYRIGHT
    `Statistics::MaxEntropy' comes with ABSOLUTELY NO WARRANTY and
    may be copied only under the terms of the GNU Library General
    Public License (version 2, or later), which may be found in the
    distribution.