Paper Info
Title
Synchronization-Core-Based Discovery of Processes with Decomposable Cyclic Dependencies.
Abstract
Traditional process discovery techniques mine process models based upon event traces giving little consideration to workflow relevant data recorded in event logs. The neglect of such information usually leads to incorrect discovered models, especially when activities have decomposable cyclic dependencies. To address this problem, the recorded workflow relevant data and decision tree learning technique are utilized to classify cases into case clusters. Each case cluster contains causality and concurrency activity dependencies only. Then, a set of activity ordering relations are derived based on case clusters. And a synchronization-core-based process model is discovered from the ordering relations and composite cases. Finally, the discovered model is transformed to a BPMN model. The proposed approach is validated with a medical treatment process and an open event log. Meanwhile, a prototype system is presented.
Year
DOI
Venue
2016
10.1145/2845086
TKDD
Keywords
Field
DocType
Process mining,process discovery,decision tree,BPMN
Data mining,Decision tree,Concurrency,Computer science,Process modeling,Artificial intelligence,Business process discovery,Workflow,Machine learning,Decision tree learning,Business Process Model and Notation,Process mining
Journal
Volume
Issue
ISSN
10
3
1556-4681
Citations 
PageRank 
References 
2
0.41
15
Authors
3
Name
Order
Citations
PageRank
Faming Lu120.41
Qingtian Zeng224243.67
Hua Duan311019.58