Decision-tree classification for GNU Guile.

Eric Bavier bdfcb149a7 Update TODO. 10 年 前
classification d793976650 decision-trees: Rewrite without goops. 10 年 前
README 79381b1034 data-mining: notes/doc and namespace move 10 年 前
TODO bdfcb149a7 Update TODO. 10 年 前
attributes.scm 371c1a1b7b attributes: Dissector fixes. 10 年 前
dataset.scm 14b546cdff dataset: dataset->delimited and dataset-label-idx. 10 年 前
hash-util.scm 055a74f934 Rewrite dataset without goops. 10 年 前
indexed-matrix.scm 055a74f934 Rewrite dataset without goops. 10 年 前
test-util.scm 055a74f934 Rewrite dataset without goops. 10 年 前
type-conversions.scm b0e266379e Initial commit. 10 年 前
util.scm 3aab6857ba util: Documentation and combinatorial procedures. 10 年 前
wttree.scm a4fb898a91 Fix typo in wttree procedure name. 10 年 前

README

========
Design
========

Use cases (or, the reason I wrote this code instead of using someone
else's code):

1. Construct a dataset programmatically, by adding new entries one by one::

(define d (make-dataset-from-arff "/path/to/arff/file"))
=> #
(dataset-derive-new-attribute! d '(/ rows cols))

2. Output classifiers as code. E.g. so that a decision tree can be
included in C source. This extends the usefulness of the
data-mining results and also acts as a sort of visual documentation
of the results.

3. Be able to easily plug into and manipulate how parts of the mining
process is carried out. This is much easier to do in a language
like scheme, but quite a bit harder in something like C/C++ which
many of the other decision-tree codes are written in.


===============
TODO/Wishlist
===============

1. Support using the "Gain Ratio" measure for determining a split's goodness.
This should be as easy as dividing the normal gain measure by::

-sum(i,1,k){ P(v_i) log2(P(v_i)) }

where P(v_i) is the fraction of records that where put into split i.