Business Process Generation by Leveraging Complete Search over a Space of Activities and Process Goals
Dipankar Deb, Nabendu Chaki, Aditya Ghose
2015
Abstract
An efficient and flexible business process not only helps an organization to meet the requirements of the evolving surroundings but also may facilitate a competitive advantage over other companies towards delivering the desired services. This is even more critical for an emerging paradigm like cloud based deployment. In this paper, we introduce a novel mechanism to generate the business process suitable for specific organizations. The approach provides an automated way to build the possible business processes for a given set of tasks that fulfills the goal and satisfies the constraints of an organization. In step 1, we show how to generate the finite space of all possible designs for a given set of tasks. Secondly, we accumulate the effect of each step to deduce the final effect of each possible process design and to ensure that the redesigned set of steps still realizes the service goal. The designs not meeting the service goals are eliminated from the space. In step 3, the rest of the designs are checked for the constraint satisfaction subject to some specific cases. The framework provides a comprehensive, both syntactically and semantically correct, consistent business process generation methodology that adheres to the target business goals and constraints.
References
- Alotaibi, Y. and Liu, F. (2013). Business process modelling towards derive and implement it goals. In Industrial Electronics and Applications (ICIEA), pages 1739- 1744. IEEE.
- BPMN (2006). Business process modeling notation specification. www.bpmi.org. Final Adopted Specification.
- Combi, C., Gambini, M., Migliorini, S., and Posenato, R. (2014). Representing business processes through a temporal data-centric workflow modeling language: An application to the management of clinical pathways. IEEE Transactions on Systems, Man, and Cybernetics: Systems, 44(9):1182 1203.
- Gao, J., Chen, W., Wang, Y., Zhao, D., Li, W., and Bo, Z. (2013). Verification of business process constraints based on xyz/z. In International Conference on Information Technology and Applications (ITA), page 479 482. IEEE.
- Hinge, K., Ghose, A., and Koliadis, G. (2009). Process seer: A tool for semantic effect annotation of business process models. In Enterprise Distributed Object Computing Conference, 2009. EDOC'09. IEEE International, pages 54-63. IEEE.
- Kumar, M. and Bhat, J. M. (2011). Process improvement by simplification of policy, and procedure and alignment of organizational structure. In AMCIS'11.
- Limam Mansar, S., Reijers, H. A., and Ounnar, F. (2009). Development of a decision-making strategy to improve the efficiency of bpr. Expert Systems with Applications, 36(2):3248-3262.
- Lodhi, A., Köppen, V., Wind, S., Saake, G., and Turowski, K. (2014). Business process modeling language for performance evaluation. In 47th Annual Hawaii International Conference on System Science (HICSS-47). IEEE.
- Macek, O. and Necasky, M. (2010). An extension of business process model for xml schema modeling. In Services (SERVICES-1), 2010 6th World Congress on, pages 383-390. IEEE.
- Malesevic, A. and Brdjanin, D.and Maric, S. (2013). Tool for automatic layout of business process model represented by uml activity diagram. In IEEE EUROCON, page 537 542. IEEE.
- Natalia, C., Alexandru, M.M.and Mihai, S., Stefan, S., and Munteanu, C. (2013). Medical services modelling based on business process model framework. In IEEE E-Health and Bioengineering Conference (EHB), page 1 4. IEEE.
- Papazoglou, M. (2008). The challenges of service evolution. In Advanced Information Systems Engineering, volume 5074 of LNCS, pages 1-15. Springer.
- Reijers, H. A. and Liman Mansar, S. (2005). Best practices in business process redesign: an overview and qualitative evaluation of successful redesign heuristics. Omega, 33(4):283-306.
- UML (2003). Uml 2.0 superstructure specification. www.omg.org. Final Adopted Specification.
- Weidmann, M., Alvi, M., Koetter, F., Leymann, F., Renner, T., and Schumm, D. (2011). Business process change management based on process model synchronization of multiple abstraction levels. In ServiceOriented Computing and Applications (SOCA), pages 1-4. IEEE.
- Wu, Z., Yao, S., He, G., and Xue, G. (2011). Rules oriented business process modeling. In IEEE International Conference on Internet Technology and Applications (iTAP), pages 1-4. IEEE.
- Yu, W., Yan, C., Ding, Z., Jiang, C., and Zhou, M. (2014). Modeling and validating e-commerce business process based on petri nets. Systems, Man, and Cybernetics: Systems, IEEE Transactions on, 44(3):327-341.
- Zhang, Y. and Perry, D. (2014). A goal-directed modeling technique towards business process. In IEEE 8th 7: 8: 9: 10: 11: 12: 13: 14: 15: 16: 17: 18: 19: 20: 21: 1: procedure EXHAUSTIVEMODELGENERATION() 2: Begin
- 3: mark all nodes in the tree as .NOT. REACHED; 4: count = n ? count stores number of nodes yet to be processed
- 5: repeat
Paper Citation
in Harvard Style
Deb D., Chaki N. and Ghose A. (2015). Business Process Generation by Leveraging Complete Search over a Space of Activities and Process Goals . In Proceedings of the 5th International Conference on Cloud Computing and Services Science - Volume 1: CLOSER, ISBN 978-989-758-104-5, pages 233-240. DOI: 10.5220/0005408702330240
in Bibtex Style
@conference{closer15,
author={Dipankar Deb and Nabendu Chaki and Aditya Ghose},
title={Business Process Generation by Leveraging Complete Search over a Space of Activities and Process Goals},
booktitle={Proceedings of the 5th International Conference on Cloud Computing and Services Science - Volume 1: CLOSER,},
year={2015},
pages={233-240},
publisher={SciTePress},
organization={INSTICC},
doi={10.5220/0005408702330240},
isbn={978-989-758-104-5},
}
in EndNote Style
TY - CONF
JO - Proceedings of the 5th International Conference on Cloud Computing and Services Science - Volume 1: CLOSER,
TI - Business Process Generation by Leveraging Complete Search over a Space of Activities and Process Goals
SN - 978-989-758-104-5
AU - Deb D.
AU - Chaki N.
AU - Ghose A.
PY - 2015
SP - 233
EP - 240
DO - 10.5220/0005408702330240