923 research outputs found
Towards a semantic and statistical selection of association rules
The increasing growth of databases raises an urgent need for more accurate
methods to better understand the stored data. In this scope, association rules
were extensively used for the analysis and the comprehension of huge amounts of
data. However, the number of generated rules is too large to be efficiently
analyzed and explored in any further process. Association rules selection is a
classical topic to address this issue, yet, new innovated approaches are
required in order to provide help to decision makers. Hence, many interesting-
ness measures have been defined to statistically evaluate and filter the
association rules. However, these measures present two major problems. On the
one hand, they do not allow eliminating irrelevant rules, on the other hand,
their abun- dance leads to the heterogeneity of the evaluation results which
leads to confusion in decision making. In this paper, we propose a two-winged
approach to select statistically in- teresting and semantically incomparable
rules. Our statis- tical selection helps discovering interesting association
rules without favoring or excluding any measure. The semantic comparability
helps to decide if the considered association rules are semantically related
i.e comparable. The outcomes of our experiments on real datasets show promising
results in terms of reduction in the number of rules
On Objective Measures of Rule Surprisingness
Most of the literature argues that surprisingness is an inherently subjective aspect of the discovered knowledge, which cannot be measured in objective terms. This paper departs from this view, and it has a twofold goal: (1) showing that it is indeed possible to define objective (rather than subjective) measures of discovered rule surprisingness; (2) proposing new ideas and methods for defining objective rule surprisingness measures
Guided Interaction Exploration in Artifact-centric Process Models
Artifact-centric process models aim to describe complex processes as a
collection of interacting artifacts. Recent development in process mining allow
for the discovery of such models. However, the focus is often on the
representation of the individual artifacts rather than their interactions.
Based on event data we can automatically discover composite state machines
representing artifact-centric processes. Moreover, we provide ways of
visualizing and quantifying interactions among different artifacts. For
example, we are able to highlight strongly correlated behaviours in different
artifacts. The approach has been fully implemented as a ProM plug-in; the CSM
Miner provides an interactive artifact-centric process discovery tool focussing
on interactions. The approach has been evaluated using real life data sets,
including the personal loan and overdraft process of a Dutch financial
institution.Comment: 10 pages, 4 figures, to be published in proceedings of the 19th IEEE
Conference on Business Informatics, CBI 201
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