Towards Green Business Process Management ( Pre-Publication Draft )

There is a global consensus on the need to reduce our collective carbon footprint. While much research attention has focused on developing alternative energy sources, automotive technologies or waste disposal techniques, we often ignore the fact that the ability to optimize (existing) operations to reduce their emissions impact is fundamental to this exercise. We believe that by transforming the problem into the domain of Business Process Management (BPM) we can leverage the rich expertise in this field to address issues associated with identifying areas for improvement, understanding the implication and performing carbon footprint minimization. We will use the term “Green BPM” to describe a novel class of technologies that leverage and extend existing BPM technology to enable process design, analysis, execution and monitoring in a manner informed by the carbon footprint of process designs and instances. This article describes the first steps in the development of this class of technologies.

[1]  Aditya K. Ghose,et al.  Process SEER: A Tool for Semantic Effect Annotation of Business Process Models , 2009, 2009 IEEE International Enterprise Distributed Object Computing Conference.

[2]  Julio Cesar Sampaio do Prado Leite,et al.  On Non-Functional Requirements in Software Engineering , 2009, Conceptual Modeling: Foundations and Applications.

[3]  Aditya K. Ghose,et al.  Towards an Enterprise Business Process Architecture Standard , 2008, 2008 IEEE Congress on Services - Part I.

[4]  Aditya K. Ghose,et al.  Auditing Business Process Compliance , 2007, ICSOC.

[5]  Aditya K. Ghose,et al.  Process Discovery from Model and Text Artefacts , 2007, 2007 IEEE Congress on Services (Services 2007).

[6]  Stefanie Rinderle-Ma,et al.  Change Patterns and Change Support Features in Process-Aware Information Systems , 2007, Seminal Contributions to Information Systems Engineering.

[7]  Stephan Reiff-Marganiec,et al.  Towards a Task-Oriented, Policy-Driven Business Requirements Specification for Web Services , 2006, Business Process Management.

[8]  R. Kaplan,et al.  Time-driven activity-based costing. , 2003, Harvard business review.

[9]  Leon J. Osterweil,et al.  Modeling Resources for Activity Coordination and Scheduling , 1999, COORDINATION.

[10]  P. R. Balasubramanian,et al.  Adding workflow analysis techniques to the IS development toolkit , 1998, Proceedings of the Thirty-First Hawaii International Conference on System Sciences.

[11]  Eric S. K. Yu,et al.  Towards modelling and reasoning support for early-phase requirements engineering , 1997, Proceedings of ISRE '97: 3rd IEEE International Symposium on Requirements Engineering.

[12]  Aditya K. Ghose,et al.  Business Process Integration: Method and Analysis , 2009, APCCM.

[13]  Christopher J. Pavlovski,et al.  Non-Functional Requirements in Business Process Modeling , 2008, APCCM.

[14]  Marta Indulska,et al.  Do Process Modelling Techniques Get Better? A Comparative Ontological Analysis of BPMN , 2005 .

[15]  van der Wmp Wil Aalst,et al.  Workflow resource patterns , 2004 .

[16]  W. J. Howe Organizational Management in Workflow Applications – Issues and Perspectives , 2003 .

[17]  Michael zur Muehlen,et al.  Resource Modeling in Workflow Applications , 1999 .