The Swarm Computing Approach to Business Intelligence

• Autorzy: Andrew Schumann , Krzysztof Pancerz , Andrzej Szelc
• Języki publikacji: EN

Abstrakty

EN

We have proposed to use some features of swarm behaviours in modelling business processes. Due to these features we deal with a propagation of business processes in all accessible directions. This propagation is involved into our formalization instead of communicating sequential processes. As a result, we have constructed a business process diagram language based on the swarm behavior and an extension of that language in the form of reflexive management language. (original abstract)

Słowa kluczowe

EN

Business Intelligence systems; Business processes; Information structure diagram (ISD); Information language

PL

Systemy Business Intelligence; Procesy biznesowe; Diagram struktury informacji; Język informacyjny

• Czasopismo: Studia Humana
• Rocznik: 2015
• Tom: 4(3)
• Strony: 41--50

Twórcy

autor

Andrew Schumann

• University of Information Technology and Management in Rzeszow

autor

Krzysztof Pancerz

• University of Information Technology and Management in Rzeszow

autor

Andrzej Szelc

• University of Information Technology and Management in Rzeszow

Bibliografia

• 1. Aalst, W.M.P. van der, Hofstede, A.H.M. ter, Kiepuszewski, B., and Barros, A. P. Workflow Patterns, Distributed and Parallel Databases, 14(3), July 2003, 5-51.
• 2. Adamatzky, A. Physarum Machines: Computers from Slime Mould. World Scientific, 2010.
• 3. Adamatzky, A., Erokhin, V., Grube, M., Schubert, Th., Schumann A. Physarum Chip Project: Growing Computers From Slime Mould, International Journal of Unconventional Computing, 8(4), 2012, 319-323.
• 4. Ammarguellat, Z. A control-flow normalization algorithm and its complexity. IEEE Trans. Software Eng., 18(3), 1992, 237-251.
• 5. Becker, J., Kugeler, M., and Rosemann, M. (eds.). Process Management. A Guide for the Design of Business Processes. Springer-Verlag, 2003.
• 6. Brambilla, M., Ceri, S., Fraternali, P., and Manolescu, I. Process modeling in web applications, ACM Trans. Softw. Eng. Methodol., 15(4), 2006, 360-409.
• 7. Desel, J., and Esparza, J. (eds.). Free Choice Petri Nets, volume 40 of Cambridge Tracts in Theoretical Computer Science. Cambridge University Press, Cambridge, UK, 1995.
• 8. Gardner, T. UML Modelling of Automated Business Processes with a Mapping to BPEL4WS. In: Proceedings of the First European Workshop on Object Orientation and Web Services. Springer, 2003.
• 9. Johnson, R., Pearson, D., and Pingali, K. The Program Structure Tree: Computing control regions in linear time. [in:] Proceedings of the ACM SIGPLAN Conference on Programming Language Design and Implementation (PLDI), Orlando FL, USA, ACM Press, June 1994, 171-185.
• 10. Jordan, D., and Evdemon, J. Web Services Business Process Execution Language Version 2.0. Committee Specification. OASIS WS-BPEL TC, January 2007. Available via http://www.oasis-open.org/committees/download.php/22475/wsbpel-v2.0-CS01.pdf.
• 11. Kiepuszewski, B., Hofstede, A.H.M. ter, and Aalst, W.M.P. van der. Fundamentals of control flow in workflows. Acta Informatica, 39(3), 2003, 143-209.
• 12. Pancerz, K., Schumann, A. Principles of an Object-Oriented Programming Language for Physarum Polycephalum Computing. [in:] Proceedings of the 10th International Conference on Digital Technologies (DT'2014), Zilina, Slovak Republic, July 9-11, 2014, 273-280.
• 13. Rosemann, M. Preparation of Process Modeling. In J. Becker, M. Kugeler, and M. Rosemann, (eds.). Process Management. A Guide for the Design of Business Processes, pages 41-78. Springer-Verlag, 2003.
• 14. Schumann, A. Towards context-based concurrent formal theories, Parallel Processing Letters, 25, 2015, 1540008.
• 15. Schumann, A., Pancerz, K. Towards an Object-Oriented Programming Language for Physarum Polycephalum Computing. [in:] Szczuka, M., Czaja, L., Kacprzak, M. (eds.). Proceedings of the Workshop on Concurrency, Specification and Programming (CS&P'2013), Warsaw, Poland, September 25-27, 2013, 389-397.
• 16. Schumann, A., Pancerz, K. Timed Transition System Models for Programming Physarum Machines: Extended Abstract. [in:] Popova-Zeugmann, L. (ed.). Proceedings of the Workshop on Concurrency, Specification and Programming (CS&P'2014), Chemnitz, Germany, September 29 - October 1, 2014.
• 17. Schumann, A., Pancerz, K. Roughness in Timed Transition Systems Modeling Propagation of Plasmodium. [in:] Ciucci, D. et al. (eds.). Rough Sets and Knowledge Technology, Lecture Notes in Computer Science, 9436, 2015.
• 18. Zhao, W., Hauser, R., Bhattacharya, K., Bryant, B.R., and Cao, F. Compiling business processes: 50 untangling unstructured loops in irreducible flow graphs, Int. Journal of Web and Grid Services, 2(1), 2006, 68-91.

Identyfikatory

DOI

10.1515/sh-2015-0019