Development of systemological model of the problem of structural and topological reengineering of large scale monitoring systems

Authors

  • Владимир Валентинович Бескоровайный Kharkiv National University of Radioelectronics Lenin Ave, 14, Kharkov, Ukraine, 61166, Ukraine
  • Ксения Евгеньевна Подоляка Kharkiv National University of Radioelectronics Lenin Ave, 14, Kharkov, Ukraine, 61166, Ukraine https://orcid.org/0000-0002-6334-1537

DOI:

https://doi.org/10.15587/1729-4061.2015.43471

Keywords:

large-scale monitoring system, reengineering, systemological model, optimization, decomposition, methodology

Abstract

The paper deals with developing the systemological model of the problem of structural and topological reengineering of large-scale monitoring systems. Based on the analysis of the life cycle stages of geographically distributed systems, the place of reengineering in the structure of the life cycle of large-scale monitoring systems was defined, the analysis of the factors that determine their efficiency was performed. Formalization of the description of large-scale monitoring systems has allowed to identify subsets of elements, relationships, topologies and properties that will be included and (or) excluded in the system re-engineering process. This allows to form a set of feasible system reengineering solutions.

To reduce the reengineering problem complexity, a three-level scheme of its decomposition was proposed, the compo­sition and the relation schematic of problem-related tasks by the input and output data were determined. This allows to create effective technologies for structural and topological reengineering.

Practical application of the results obtained allows to reduce the time for solving reengineering problems, improve the quality of solutions through joint problem solving and on this basis improve the cost and functional characteristics of the restructured systems. 

Author Biographies

Владимир Валентинович Бескоровайный, Kharkiv National University of Radioelectronics Lenin Ave, 14, Kharkov, Ukraine, 61166

Doctor of Technical Sciences, Professor

Department of System Engineering

Ксения Евгеньевна Подоляка, Kharkiv National University of Radioelectronics Lenin Ave, 14, Kharkov, Ukraine, 61166

Postgraduate student

Department of System Engineering

References

  1. Hammer, M., Champy, S. (1997). Reengineering the Corporation: Manifesto for Business Revolution, SPB: Publisher St. Petersburg University, 332.
  2. Davenport, T. H. (2013). Process innovation: reengineering work through information technology. Chicago: Harvard Business Press, 352.
  3. Morris, D. C., Brandon, J. (1993). Re-engineering your business. London: McGraw Hill, 247.
  4. Manganelli, R. L., Klein, M. K. (1994). The reengineering handbook: a step-by-step guide to business transformation. New York : Amacom, 318.
  5. Hess, T., Brecht, L. (2013). State of the art of business process redesign: Presentation and comparison of existing methods. Wiesbaden : Springer-Verlag, 117.
  6. Bergey, J., Hefley, W., Lamia, W., Smith, D. (1996). A Reengineering Process Framework. Pittsburgh: Carnegie Mellon University, 13.
  7. Kazman, R., Woods, S. G., Carriere, S. (1998). Requirements for integrating software architecture and reengineering models: CORUM II: Reverse Engineering, 1998. Proceedings. Fifth Working Conference, 154–163. doi: 10.1109/wcre.1998.723185
  8. Comella-Dorda, S., Wallnau, K., Seacord, R. C., Robert, J. (2000). A survey of legacy system modernization approaches (No. CMU/SEI-2000-TN-003). Carnegie-Mellon univ pittsburgh pa Software engineering inst, 1–17.
  9. Ahtyrchenko, K. V. (2003). Metody i tegnologii reinginiringa IS. Trudy Instituta sistemnogo programmirovaniya RAN, 4, 116–128.
  10. Eric, S. K. (2011). Social modeling for requirements engineering. London : The MIT Press, 717.
  11. Beskorovainyi, V. V. (2002). Systemological analysis of the problem of structural synthesis of distributed systems. ACS and automation devices, 120, 29–37.
  12. Tarasyuk, V. P. (2004). Mathematical modeling of technical systems. Minsk: Design PRO, 320.
  13. Borschev, A. V. (2004). Prakticheskoe agentnoe modelirovanie i ego mesto v arsenale analitica. Exponenta Pro, 3-4, 38–47.
  14. Lickin, N. (2009). Retrospectiva i perspective sistemnoy dinamiki. Analiz dinamiki razvitiya. Biznes-Informatica, 3, 55–67.
  15. Beskorovainyi, V. V., Soboleva, E. V. (2012). Komposicionnaya model’ dinamicheskoy raspredelennoy zadachi structurnogo sinteza territorial’no-raspredelennyh objectov. Vistnyk NTU «KhPI», 2 (976), 60–76.

Published

2015-06-29

How to Cite

Бескоровайный, В. В., & Подоляка, К. Е. (2015). Development of systemological model of the problem of structural and topological reengineering of large scale monitoring systems. Eastern-European Journal of Enterprise Technologies, 3(3(75), 37–42. https://doi.org/10.15587/1729-4061.2015.43471

Issue

Section

Control processes