Automatic identification of structural process weaknesses in flow chart diagrams

Purpose - Financial institutions have been engaged in numerous business process reengineering (BPR) projects to make their organizations more efficient. However, the success of BPR projects in banks varies significantly and it remains a challenge to systematically discover weaknesses in business pro...

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Bibliographic Details
Published in:Business process management journal 2011-09, Vol.17 (5), p.787-807
Main Authors: Winkelmann, Axel, Weiß, Burkhard
Format: Article
Language:English
Subjects:
Automation
Banking industry
Business
Business process management
Business process reengineering
Control
Design engineering
Flow charts
Graphs
Information systems
Landscapes
Language
Law
Ontology
Reengineering
Semantics
Studies
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Summary:Purpose - Financial institutions have been engaged in numerous business process reengineering (BPR) projects to make their organizations more efficient. However, the success of BPR projects in banks varies significantly and it remains a challenge to systematically discover weaknesses in business process landscapes. Based on the flow chart notation language this paper seeks to argue for the definition of weakness patterns in order to automatically identify potential process weaknesses.Design methodology approach - The authors developed weakness patterns in the flow chart notation language based on design science principles. To systematically derive process weaknesses that can be formalized, they analyzed each element of the flow chart notation as it was used in a real-life case. They furthermore tested the identified patterns in reality in order to evaluate their validity.Findings - The authors identified various potential weakness patterns that helped in automatically identifying weaknesses in process models. To some extent these findings are generalizable and transferable to other process modeling languages.Research limitations implications - The pattern-based approach depends upon how well structural weakness patterns are defined and formalized. Identified problems remain "potential" weaknesses until a manual analysis reveals that the identified potential weaknesses are actually real weaknesses or not, e.g. due to law regulations.Practical implications - Using weakness patterns allows for automatically identifying potential process weaknesses in existing flow chart models. This way, this research helps in improving the so far manual analysis of process model landscapes.Originality value - The approach is a new way of looking for process weaknesses through process weakness patterns.
ISSN:1463-7154
1758-4116
DOI:10.1108/14637151111166187