Development of a high-level design of an analytical software complex for an enterprise that provides end-to-end planning
Abstract
Currently, many companies engaged in the production of medium-term turnover goods, are faced with the need to create a high-level design of a software complex that allows them to support a full cycle of sales planning, production, logistics and marketing campaigns. This is due to the economic development of the enterprise and the integration of independent software systems/modules that allow for the implementation of limited business processes without connection with related functions and business processes of the enterprise. Thus, enterprises find themselves in a situation where various departments have implemented a disparate set of information systems and software modules within which local accounting and analytics of various operations are carried out, while the software and analytical complex as a whole does not provide a complete, connected and cyclical planning process. This paper presents a model of requirements for functions, information objects and data flows, providing end-to-end planning, as well as an approach to identify missing objects of the existing information complex of the enterprise. An analytical network consisting of missing elements has been developed, taking into account the dependencies and interrelationships of information objects and software modules, which makes it possible to form a priority vector of the relative importance of software components. This vector represents a set of priorities for improvements to the enterprise software package and allows you to more effectively allocate the resources of the development team for the software implementation of missing functions, information objects and integration data flows between software modules.
Downloads
References
Yankovskaya V.V. (2023) Planning at an enterprise. Moscow: INFRA-M (in Russian).
Ilyin A.I. (2014) Planning at an enterprise. 9th ed. Moscow: INFRA-M; Minsk: New Knowledge (in Russian).
Telnov Yu.F., Kazakov V.A., Danilov A.V. (2021) Technology for designing innovative processes for creating products and services of a network enterprise using a knowledge-based i4.0 system. Business Informatics, vol. 15, no. 4, pp. 76–92. https://doi.org/10.17323/2587-814X.2021.4.76.92
Danilochkina N.G. (2019) Concept of end-to-end planning at industrial enterprises. Current Problems of Socio-economic Development of Russia, no. 4. pp. 38–41 (in Russian).
Hahn D. (1999) Planning and control. The concept of controlling. Moscow, Finance and Statistics (in Russian).
Bragina A.V., Vertakova Yu.V., Evchenko A.V. (2020) Development of end-to-end technologies for planning the activities of an industrial enterprise in the context of digitalization of the economy. Production Organizer, vol. 28, no. 1, pp. 24¬–35 (in Russian).
Minaev V.A., Mazin A.V., Zdiruk K.B., Kulikov L.S. (2019) Digital twins of objects in solving control problems. Radio Industry, vol. 29, no. 3, pp. 68–78. https://doi.org/10.21778/2413-9599-2019-29-3-68-78 (in Russian).
Kopeliovich D.I., Kurguz M.A., Lebedev V.V. (2022) Microservice architecture as a type of service-oriented architecture. Scienceosphere, no. 4-2, pp. 230–235 (in Russian).
Ibatulin M.Yu., Terentyev V.A. (2018) Application of microservice architectures for building enterprise business architecture in the era of digital transformation. Proceedings of the XXI Russian scientific conference on Enterprise Engineering and Knowledge Management (EEKM 2018). Moscow, April 26–28, 2018. Vol. 1, pp. 376–381 (in Russian).
Ford N., Richards M. (2020) Fundamentals of software architecture: An engineering approach. O’Reilly Media.
Kurzova Yu.A. (2022) Overview of the 1C program: Integrated automation //1C-Business Architect. Available at: https://www.1ab.ru/blog/detail/1s-kompleksnaya-avtomatizatsiya-obzor/ (accessed 06 July 2024) (in Russian).
Certificate of state registration of a computer program No. 2022665892 Russian Federation. SSC. System-2 of business planning and budgeting based on the Oracle Hyperion Planning 11.1.2.4, software package No. 2022664704, application 08/03/2022, publ. 08/23/2022; applicant Joint Stock Company “Siberian Service Company (in Russian).
Minyailo A.S. (2020) Study of information risks of Russian industrial companies in budget process management systems. Corporate Economics, no. 4(24), pp. 4–21 (in Russian).
Pirogov M.V., Abdulganiev A.N., Martinovich D.A. (2022) Application of multidimensional data warehouse technology (OLAP) based on the system for managing financial performance and enterprise activity IBM Planning Analytics. Regional Economy Issues, no. 4 (53), pp. 144–162 (in Russian).
Nazarov D.M., Nazarov A.D., Kovtun D.B. (2020) Building technology and predictive analytics models in the SAP analytic cloud digital service. Proceedings of the 2020 IEEE Conference on Business Informatics (CBI 2020). Antwerp, June 22–24 2020. Vol. 2. pp. 106–110 (in Russian). https://doi.org/10.1109/CBI49978.2020.10067
Bragina A.V. (2021) Technological modernization of an industrial enterprise using end-to-end planning technology. Dissertation of a Cand. Sci. (Econ.). Kursk (in Russian).
Smirnov M. (2017) Microservice architecture in the corporate IT landscape. Open Systems. DBMS, no. 4, pp. 38–41 (in Russian).
Terentyev A.V., Polyakov Yu.N. (2020) Concept of design and construction of the basic algorithm of the business planning process in small and medium-sized businesses. Management: Theory and Practice, no. 1-3, pp. 99–105 (in Russian).
Shataeva O.V., Akimova E.N., Nikolaev M.V. (2021) Economics of an organization (enterprise), 2nd ed. Moscow, Berlin: Direct-Media (in Russian).
Telnov Yu.F. Fedorov I.G. (2017) Enterprise engineering and business process management. Methodology and technology. Moscow: UNITY-DANA (in Russian).
Telnov Yu.F. (2005) Business process reengineering: Component technology (2nd ed.). Moscow: Finance and Statistics (in Russian).
Saaty T.L. (2015) Decision making with dependence and feedback: The Analytic Network Process. Moscow: LENAND (in Russian).
Gusakov I.V. (2014) Analysis and planning of sales in FMCG market companies. Moscow: Nobel Press (in Russian).
Lehmann D.R. (2017) Product management. Moscow: UNITY-DANA (in Russian).
Zhukova T.N. (2021) Management and organization of marketing activities. Moscow: INFRA-M (in Russian).
Kotler P., Saunders D., Armstrong G., Veronica V. (2007) Fundamentals of marketing. Moscow: Williams (in Russian).
Toymentseva I.A., Mikhailov A.M. (2015) The influence of marketing and management decisions on the process of optimizing the enterprise budget. Bulletin of the Samara Economic University, no. 12(134), pp. 16–19 (in Russian).
Smurnov E.S. (2010) Automation of material accounting. Moscow: Laboratory of Books (in Russian).
Semenova N.V., Baygulova A.A. (2014) Fundamentals of production management: electronic training course. Ulyanovsk: UlSU (in Russian).
Farakhutdinov Sh.F. (2021) Modern trends and innovative methods in marketing research. Moscow: INFRA-M (in Russian).
Gorsky M.A., Khalikov M.A. (2020) Models and methods for assessing the optimal size of an enterprise’s production segment. Bulletin of the Altai Academy of Economics and Law, no. 1-1, pp. 23¬–32 (in Russian).
Oyner O.K. (2022) Marketing performance management, 2nd ed. Moscow: Urait (in Russian).
Petrova I.R., Fakhrtdinov R.H., Suleymanova A.A., Razzhivin I.O., Fazulzyanov A.G. (2018) Methodology of object-oriented modeling. The UML language. Kazan: Kazan University (in Russian).
Freeman E., Robson E., Sierra K., Bates B. (2024) Head First design patterns. Saint Petersburg: Piter (in Russian).
State Standard of Russia (2000) Methodology of functional modeling IDEF0. The guidance document. Moscow.
Nazarova O.B., Novikova T.B., Maslennikova O.E. (2023) ARIS: Theory and practice of business modeling. Moscow: FLINT (in Russian).
Pervukhin D.V., Isaev E.A., Rytikov G.O., Filyugina E.K., Airapetyan D.A. (2020) Comparative analysis of theoretical models of cascade, iterative and hybrid approaches to managing the life cycle of an IT project. Business Informatics, vol. 14, no. 1, pp. 32–40. https://doi.org/10.17323/2587-814X.2020.1.32.40
Matveev A.A., Novikov D.A., Tsvetkov A.V. (2005) Models and methods of project portfolio management. Moscow: PMSOFT (in Russian).
Saaty T.L. (1993) Decision making. The Analytic Hierarchy Process. Moscow: Radio and Communications (in Russian).
Latypova V.A. (2018) A comparative analysis and a choice of tools implementing analytic hierarchy process. Modeling, Optimization and Information Technologies, vol. 6, no. 4(23), pp. 322–347 (in Russian). https://doi.org/10.26102/2310-6018/2018.23.4.024
Saaty R.V. (2016) Decision making with dependencies and feedbacks. A tutorial for SuperDecisions software. Pittsburgh: Foundation for Creative Solutions.
Creative Decisions Foundation (2024) Super Decisions software. Available at: https://www.superdecisions.com/ (accessed 06 July 2024).
 site.jpg)
