URN zum Zitieren der Version auf EPub Bayreuth: urn:nbn:de:bvb:703-epub-5095-9
Titelangaben
Kratsch, Wolfgang ; Manderscheid, Jonas ; Röglinger, Maximilian ; Seyfried, Johannes:
Machine Learning in Business Process Monitoring : A Comparison of Deep Learning and Classical Approaches Used for Outcome Prediction.
In: Business & Information Systems Engineering.
(2020)
.
ISSN 1867-0202
DOI der Verlagsversion: https://doi.org/10.1007/s12599-020-00645-0
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Abstract
Predictive process monitoring aims at forecasting the behavior, performance, and outcomes of business processes at runtime. It helps identify problems before they occur and re-allocate resources before they are wasted. Although deep learning (DL) has yielded breakthroughs, most existing approaches build on classical machine learning (ML) techniques, particularly when it comes to outcome-oriented predictive process monitoring. This circumstance reflects a lack of understanding about which event log properties facilitate the use of DL techniques. To address this gap, the authors compared the performance of DL (i.e., simple feedforward Deep Neural Networks and Long Short Term Memory Networks) and ML tech-niques (i.e., Random Forests and Support Vector Machines) based on five publicly available event logs. It could be observed that DL generally outperforms classical ML techniques. Moreover, three specific propositions could be inferred from further observations: First, the outperformance of DL techniques is particularly strong for logs with a high variant-to-instance ratio (i.e., many non-standard cases). Sec-ond, DL techniques perform more stably in case of imbalanced target variables, especially for logs with a high event-to-activity ratio (i.e., many loops in the control flow). Third, logs with a high activity-to-instance payload ratio (i.e., input data is predominantly generated at runtime) call for the application of Long Short Term Memory Networks. Due to the purposive sampling of event logs and techniques, these findings also hold for logs outside this study.