Workshop Proceedings Workshop on Algorithms & Theories for the Analysis of Event Data (ATAED’2016) Toruń, Poland, June 20-21, 2016 Satellite event of the conferences 16th International Conference on Application of Concurrency to System Design (ACSD 2016) 37th International Conference on Application and Theory of Petri Nets and Concurrency (PN 2016) Edited by Wil van der Aalst, Robin Bergenthum, and Josep Carmona . These proceedings are published online by the editors as Volume 1592 at CEUR Workshop Proceedings http://ceur-ws.org/Vol-1592 Copyright c 2016 for the individual papers is held by the papers’ authors. Copying is permitted only for private and academic purposes. This volume is published and copyrighted by its editors. Preface Ehrenfeucht and Rozenberg defined regions about 20 years ago as sets of nodes of a finite transition system. Every region relates to potential conditions that enable or disable transition occurrences in an associated elementary net system. Later, similar concepts were used to define regions for Petri nets from languages as well. Both state-based and language-based approaches aim to con- strain a Petri net by adding places deduced from the set of regions. By now, many variations have been proposed, e.g., approaches dealing with multiple to- kens in a place, region definitions for Petri nets with inhibitor arcs, extensions to partial languages, regions for infinite languages, etc. Initially, region theory focused on synthesis. We require the input and the behavior of the resulting Petri net to be equivalent. Recently, region-based re- search started to focus on process mining as well where the goal is not to create an equivalent model but to infer new knowledge from the input. Process min- ing examines observed behavior rather than assuming a complete description in terms of a transition system or prefix-closed language. For this reason, one needs to deal with new problems such as noise and incompleteness. Equivalence notions are replaced by trade-offs between fitness, simplicity, precision, and gen- eralization. A model with good fitness allows for most of the behavior seen in the event log. A model that does not generalize is “overfitting”. Overfitting is the problem that a very specific model is generated whereas it is obvious that the log only holds example behavior. A model that allows for “too much behavior” lacks precision. Simplicity is related to Occam’s Razor which states that “one should not increase, beyond what is necessary, the number of entities required to explain anything”. Following this principle, we look for the simplest process model that can explain what was observed in the event log. Process discovery from event logs is very challenging because of these and many other trade-offs. Clearly, there are many theoretical process-mining challenges with a high practical relevance that need to be addressed urgently. All these challenges and opportunities are the motivation for organizing the Algorithms & Theories for the Analysis of Event Data (ATAED) workshop. The workshop first took place in 2015 as a succession of the Applications of Region Theory (ART) workshop series. After the success of the initial workshop, it is only natural to bring together researchers working on region-based synthesis and process mining again. The ATAED’2016 workshop took place in Toruń on June 20-21, 2016 and was a satellite event of both the 37th International Conference on Application and Theory of Petri Nets and Concurrency (Petri Nets 2016) and the 16th In- ternational Conference on Application of Concurrency to System Design (ACSD 2016). Papers related to process mining, region theory and other synthesis tech- niques were presented at ATAED’2016. These techniques have in common that “lower level” behavioral descriptions (event logs, partial languages, transition systems, etc.) are used to create “higher level” process models (e.g., various classes of Petri nets, BPMN, or UML activity diagrams). In fact, all techniques that aim at learning or checking concurrent behavior from transition systems, runs, or event logs were welcomed. The workshop was supported by the IEEE Task Force on Process Mining (www.win.tue.nl/ieeetfpm/). After a careful reviewing process, eleven papers were accepted for the work- shop. Overall, the quality of the submitted papers was good and most submis- sions matched the workshop goals very well. We thank the reviewers for providing the authors with valuable and constructive feedback. Moreover, we were honored that Marco Montali was willing to give an invited talk on “Marrying data and processes”. We thank Marco, the authors, and the presenters for their wonderful contributions. Enjoy reading the proceedings! Wil van der Aalst, Robin Bergenthum, and Josep Carmona June 2016 Program committee of ATAED’2016 Wil van der Aalst, TU Eindhoven, The Netherlands (co-chair) Eric Badouel, INRIA Rennes, France Robin Bergenthum, FernUni Hagen, Germany (co-chair) Luca Bernardinello, Universitá degli studi di Milano-Bicocca, Italy Seppe vanden Broucke, KU Leuven, Belgium Andrea Burattin, University of Innsbruck, Austria Toon Calders, Université Libre de Bruxelles, Belgium Josep Carmona, UPC Barcelona, Spain (co-chair) Paolo Ceravolo, University of Milan, Italy Claudio Di Ciccio, Vienna University of Economics and Business, Austria Manuel Mucientes, University of Santiago de Compostela, Spain Benoı̂t Depaire, Hasselt University, Belgium Jörg Desel, FernUni Hagen, Germany Dirk Fahland, TU Eindhoven, The Netherlands Diogo Ferreira, Universidade de Lisboa, Portugal Luciano Garca-Bañuelos, University of Tartu, Estonia Stefan Haar, LSV CNRS & ENS de Cachan, France Gabriel Juhás, Slovak University of Technology, Slovak Republic Anna Kalenkova, Higher School of Economics NRU, Russia Jetty Kleijn, Leiden University, The Netherlands Robert Lorenz, Uni Augsburg, Germany Hernán Ponce de León, Aalto University, Finland Marta Pietkiewicz-Koutny, Newcastle University, GB Marcos Sepúlveda, Universidad Catolica de Chile, Chile Jochen De Weerdt, KU Leuven, Belgium Alex Yakovlev, Newcastle University, GB Table of Contents P. De Koninck, J. De Weerdt Determining the Number of Trace Clusters: a Stability-based Approach 1 - 15 B. Vázquez-Barreiros, D. Chapela, M. Mucientes, M. Lama, D. Berea Process Mining in IT Service Management: A Case Study 16 - 30 T. Tapia-Flores, E. Rodrı́guez-Pérez, E. López-Mellado Discovering Process Models from Incomplete Event Logs using Conjoint Occurrence Classes 31 - 46 B. Meis, R. Bergenthum, J. Desel Synthesis of Elementary Net Systems with Final Configurations 47 - 57 G. Juhás, R. Lorenz Synthesis of bounded Petri Nets from Prime Event Structures with Cutting Context 58 - 77 S. A. Shershakov, A. A. Kalenkova, I. A. Lomazova Transition Systems Reduction: Balancing between Precision and Simplicity 78 - 95 M. T. Gómez-López, D. Borrego, J. Carmona, R. M. Gasca Computing Alignments with Constraint Programming: The Acyclic Case 96 - 110 K. Barylska, E. Best Properties of Plain, Pure, and Safe Petri Nets - with some Applications to Petri Net Synthesis 111 - 125 J. Holderer, J. Carmona, G. Müller Security-Sensitive Tackling of Obstructed Workflow Executions 126 - 137 G. Janssenswillen, B. Depaire, T. Jouck Calculating the Number of Unique Paths in a Block-Structured Process Model 138 - 152 E. Rodrı́guez-Pérez, T. Tapia-Flores, E. López-Mellado Identification of Timed Discrete Event Processes. Building Input-Output Petri Net Models 153 - 167