10.5281/zenodo.19187
https://zenodo.org/records/19187
oai:zenodo.org:19187
Burattin, Andrea
Andrea
Burattin
University of Innsbruck
Artificial datasets for online Declare discovery
Zenodo
2015
process mining
event log
event stream
artificial dataset
2015-03-16
Creative Commons Zero v1.0 Universal
This file contains two datasets.
1. Periodical Sudden Drifts
For this case study, we have generated two synthetic logs (\(\mathcal{L}_1\) and \(\mathcal{L}_2\)) by modeling two variants of the insurance claim process described in [1] in CPN Tools and by simulating the models. \(\mathcal{L}_1\) contains 14,840 events and \(\mathcal{L}_2\) contains 16,438 events.
We merged the logs (eight alternations of \(\mathcal{L}_1\) and \(\mathcal{L}_2\)) using the Stream Package in ProM (the source code of the package is publicly available at https://svn.win.tue.nl/repos/prom/Packages/Stream/Trunk). The same package has been used to transform the resulting log into an event stream. The event stream contains 250,224 events and has several sudden concept drifts (one for every switch from \(\mathcal{L}_1\) to \(\mathcal{L}_2\)).
2. Gradual Drifts
We have considered two variants of the insurance claim process described in [1], \(\mathcal{M}_1'\) (with 21 activities) and \(\mathcal{M}_2'\) (with 19 activities). We have also designed 6 additional models \(\mathcal{M}_a,\dots, \mathcal{M}_f\) to represent the intermediate steps to go from \(\mathcal{M}_1'\) to \(\mathcal{M}_2'\). Therefore, \(\mathcal{M}_1'\) and \(\mathcal{M}_a\) are very similar and the same happens for \(\mathcal{M}_a\) compared to \(\mathcal{M}_b\), for \(\mathcal{M}_b\) compared to \(\mathcal{M}_c\), and so on. We have simulated these models generating 8 logs (\(\mathcal{L}_1', \mathcal{L}_a, \dots,\mathcal{L}_f, \mathcal{L}_2'\)). \(\mathcal{L}_1'\) contains 139,938 events, \(\mathcal{L}_2'\) contains 128,696 events and \(\mathcal{L}_a,\dots,\mathcal{L}_f\) contain 77,231 events (altogether).
Using the Stream Package, we have generated an event stream containing 345,865 events.
References
R. J. C. Bose, “Process Mining in the Large: Preprocessing, Discovery, and Diagnostics,” Ph.D. dissertation, Eindhoven University of Technology, 2012.