Abstract
This chapter deals with advanced concepts for the configuration and management of business process variants. Typically, for a particular business process, different variants exist. Each of them constitutes an adjustment of a master process (e.g., a reference process) to specific requirements building the process context. Contemporary Business Process Management tools do not adequately support the modeling and management of such process variants. Either the variants have to be specified in separate process models or they are expressed in terms of conditional branches within the same process model. Both methods can result in high model redundancies, which make model adaptations a time-consuming and error-prone task. In this chapter, we discuss advanced concepts of our Provop approach, which provides a flexible and powerful solution for managing business process variants along their lifecycle. Such variant support will foster more systematic process configuration as well as process maintenance.
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Notes
- 1.
If only single elements are affected by a particular change operation, their process element IDs may be used alternatively.
- 2.
Note that this example indicates that we need more advanced change support considering the special semantics of adjustment points. Generally, the user should be able to define whether adjustment points may be deleted when applying certain change operations or shall be kept in the intermediate model. In the latter case, the deleted activities and nodes respectively are replaced by silent activities without associated actions. Generally, silent activities and adjustment points are removed after application of all selected options.
- 3.
For a formal semantics of respective change patterns, we refer to (Rinderle-Ma et al. 2008).
- 4.
Note that every change operation supported by Provop requires specific considerations here.
References
Bachmann F, Bass L (2001) Managing variability in software architectures. In: Proceedings of symposium on software reusability, New York, ACM Press, pp 126–132
Bayer J, Buhl W, Giese C, Lehner T, Ocampo A, Puhlmann F, Richter E, Schnieders A, Weiland J, Weske M (2005) PESOA – process family engineering – modeling variant-rich processes. TR 18/2005, Hasso-Plattner-Institute, Potsdam, Germany
Becker M, Geyer L, Gilbert A, Becker K (2001) Comprehensive variability modeling to facilitate efficient variability treatment. In: Proceedings of 4th international workshop of product family engineering (PFE’01), LNCS 2290, Bilbao, Spain, pp 294–303
Becker J, Lis L, Pfeiffer D, Räckers M (2007) A process modeling language for the public sector – the PICTURE approach. In: Wybrane Problemy Elektronicznej Gospodarki, pp 271–281
Gottschalk F, van der Aalst WMP, Jansen-Vullers MH, la Rosa M (2007) Configurable workflow models. Int J Cooper Inform Syst 17(2):177–221
Hallerbach A, Bauer T, Reichert M (2008a) Modellierung und darstellung von prozessvarianten in provop. In: Proceedings of modellierung’08 (in German), Berlin, Germany, LNI P-127, pp 41–56
Hallerbach A, Bauer T, Reichert M (2008b) Context-based configuration of process variants. In: Proceedings 3rd international workshop on context-aware business process management (TCoB’08), Barcelona, Spain, pp 31–40
Hallerbach A, Bauer T, Reichert M (2008c) Managing process variants in the process life cycle. In: Proceedings of 10th international conference on enterprise information systems (ICEIS’08), Barcelona, Spain, pp 154–161
Hallerbach A, Bauer T, Reichert M (2008d) Issues in modeling process variants with provop. In: Proceedings of BPM’08 workshops, Milan, Italy
Hallerbach A, Bauer T, Reichert M (2008e) Anforderungen an die modellierung und ausführung von prozessvarianten. Datenbank Spektrum 24:48–58
Halmans G, Pohl K (2003) Communicating the variability of a software-product family to customers. Software Syst Model 2(1):15–36
IDS Scheer (2008) ARIS platform method 7.1
La Rosa M, Lux J, Seidel S, Dumas M, ter Hofstede AHM (2007) Questionnaire-driven configuration of reference process models. In: Proceedings of the 19th international conference on advanced information systems engineering, LNCS 4495, Trondheim, Norway, pp 424–438
La Rosa M, Dumas M, ter Hofstede AHM, Mendling J, Gottschalk F (2008) Beyond control-flow: extending business process configuration to roles and objects. In: Proceedings of ER’08, pp 199–215
Lenz R, Reichert M (2007) IT support for healthcare processes – premises, challenges, perspectives. Data Knowl Eng 61(1):39–58
Li C, Reichert M, Wombacher A (2008) Mining process variants: goals and issues. In: IEEE 5th international conference on services computing (SCC’08), pp 573–576
Li C, Reichert M, Wombacher A (2008a) Discovering reference process models by mining process variants. In: Proceedings of 6th international conference on web services (ICWS’08), Beijing, China, IEEE Computer Society Press, pp 45–53
Lu R, Sadiq S (2006) On managing process variants as an information resource. Technical report no. 464, University of Queensland, Australia
Müller D, Herbst J, Hammori M, Reichert M (2006) IT support for release management processes in the automotive industry. In: Proceedings of 4th international conference on business process management (BPM’06), LNCS 4102, Vienna, Austria, pp 368–377
Mutschler B, Reichert N, Bumiller J (2008) Unleashing the effectiveness of process-oriented information systems: problem analysis, critical success factors and implications. IEEE Trans Syst Man Cyberm C 38(3):280–291
Puhlmann F, Schnieders A, Weiland J, Weske M (2005) PESOA – variability mechanisms for process models. Hasso-Plattner-Institute, Potsdam, Germany
Rinderle-Ma S, Reichert M, Weber B (2008) On the formal semantics of change patterns in process-aware information systems. In: Proceedings 27th international conference on conceptual modeling (ER’08), LNCS 5231, Barcelona, Spain, pp 279–293
Rosemann M, van der Aalst W (2007) A configurable reference modeling language. Inform Syst 32:1–23
van der Aalst W, Basten T (2002) Inheritance of workflows: an approach to tackling problems related to change. Theor Comput Sci 270(1–2):125–203
van der Aalst W, Dumas M, Gottschalk F, ter Hofstede AHM, La Rosa M, Mendling J (2008) Correctness-preserving configuration of business process models. In: Proceedings of fundamental approaches to software engineering, LNCS 4961, Budapest, pp 46–61
VDA (2005) Engineering change management (ECM) – Part 1: engineering change request (ECR) Version 1.1, Recommendation 4965 T1
vom Brocke J (2007) Design principles for reference modelling. Reusing information models by means of aggregation, specialisation, instantiation, and analogy. In: Fettke P, Loos P (eds) Reference modelling for business systems analysis. Idea Group Publishing, Hershey, PA, USA, pp 47–75
Weber B, Reichert M (2008b): Refactoring process models in large process re-positories. In: Proceedings of the 20th international conference on advanced information systems engineering (CAiSE’08), LNCS 5074, Montpellier, France, pp 124–139
Weber B, Reichert M, Rinderle S, Wild W (2006) Towards a framework for the agile mining of business processes. In: Proceedings of BPM’05 Workshop, LNCS 3812, pp 191–202
Weber B, Rinderle S, Reichert M (2007) Change patterns and change support features in process-aware information systems. In: Proceedings of 11th international conference on advanced information systems engineering (CAiSE’07), LNCS 4495, Trondheim, Norway, pp 574–588
Weber B, Rinderle S, Reichert M (2008) Change patterns and change support features – enhancing flexibility in process-aware information systems. Data Knowl Eng 66(3):438–466
Weber B, Reichert M, Wild W, Rinderle-Ma S (2009) Providing integrated life-cycle support in process-aware information systems. Int J Cooper Inform Syst (IJCIS) 18(1):115–165
Wyner GM, Lee J (2003) Defining specialization for process models. In: Malone TW, Crowston K, Herman GA (eds) Organizing business knowledge – the MIT process handbook. MIT Press, Cambridge, MA, pp 131–174
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Hallerbach, A., Bauer, T., Reichert, M. (2010). Configuration and Management of Process Variants. In: Brocke, J.v., Rosemann, M. (eds) Handbook on Business Process Management 1. International Handbooks on Information Systems. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-00416-2_11
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