Automated generation of a complete data model of production facilities in a unified information environment

The article examines the problem of developing an integration platform to facilitate end-to-end business processes supporting the life cycle of heterogeneous information objects. The platform topology is chosen according to the functionality of the integrated systems and the structure of the information object. To create a unified enterprise information environment, various topologies are considered, including peer-to-peer, message broker, centralized, and hybrid topologies. The basis for the description of an object is a complete data model, including defining attributes and transformation rules corresponding to each of the integrated systems. Using the object model of the information support system for digital products and special templates, a methodology for forming policies, methods and documents (PMD) and organizing a unified digital environment of the enterprise is proposed. However, to solve this problem, the development of a specialized integration platform is required which is capable of processing data from production facilities on a centralized basis and facilitating their interaction in a unified information environment. Such a platform must take into account the characteristics of each system component and ensure the security of information exchange; it also should be able to scale and adapt to the changing needs of the enterprise. In addition, this article discusses in detail various topologies for creating a unified enterprise information space. Peer-to-peer, message brokered, centralized, and hybrid topologies are included. Each of these topologies has its own characteristics and advantages, and the choice of the optimal one depends on the requirements and characteristics of a particular enterprise. To successfully implement integration and create a unified digital environment of the enterprise, it is suggested to use an object model of an information support system for digital products. This model helps to structure information and determine the relationships between various components of the system. Furthermore, the article proposes a methodology for the formation of PMD, which is the basis for organizing a unified digital environment of the enterprise. This methodology takes into account the requirements for security, consistency and efficiency of the system and also ensures standardization and consistency of processes within the enterprise.

1. Bagautdinov K.Sh. Methods of information information systems based on universal analysis of online information. Vestnik kibernetiki. 2019;35(3):52–60. (In Russ.).

2. Volkov A.I. Problems of providing data warehouses with disclosure and provision of data and approaches to their solution. Proceedings of international scientific conference CPT2014, 11–18 May 2015, Larnaca, Cyprus. Protvino, ANE “ICPT”; 2015. p. 18–32. (In Russ.).

3. Drozd O.V. Network-centric model and architecture of complex information space “Design to order” of complex technical products. Vestnik MGTU im. N.E. Baumana. Ser. Priborostroenie. 2023;143(2):74–89. DOI: 10.18698/0236-3933-2023-2-74-89. (In Russ.).

4. Stepashkina E.V., Gorbachev I.V., Grishin M.V. Information systems at an aircraft instrument manufacturing enterprise. Izvestiya Samarskogo nauchnogo tsentra RAN. 2019;21(1):129–135. (In Russ.).

5. Yablochnikov E.I., Pirogov A.V., Andreev Yu.S. Automation of technological preparation of production in instrument making. Saint Petersburg, SPbGITMO; 2002. 2008 p. (In Russ.).

6. Petrov A.N. Principles of structuring the field of knowledge in the aspect of constructing a standard information space. Novoe v rossiiskoi elektroenergetike. 2012;10:5–16. (In Russ.).

7. Vekker A.I. In Information modeling of industrial and urban construction objects. Shag v nauku. 2021;4:40–45. (In Russ.).

8. Safronov V.V. Integration solutions when building information information systems. Izvestiya Samarskogo nauchnogo tsentra Rossiiskoi akademii nauk. 2016;18(4-3):646–654. (In Russ.).

9. Govorkov A.S., Ch'en Kh.V. Development of an automated system for designing technological processes for manufacturing mechanical engineering products based on a three-dimensional model. Sovremennye tekhnologii. Sistemnyi analiz. Modelirovanie. 2016;52(4);48–56. (In Russ.).

10. Mokretsov Y.V. et al. Basic directions of digital production development on the basis of a unified information model. Russian Conference on Digital Economy and Knowledge Management. Atlantis Press; 2020. p. 38–41.

11. Zatsarinnyy A.A., Shabanov A.P. Innovations in digital platforms: project scripts for forming a unified information environment. In: Semenov A.V., Sokolov I.A. (eds) Sustainable Development: Society, Ecology, Economy. Earth and Environmental Sciences Library. Springer, Cham; 2021. p. 85–99. DOI: 10.1007/978-3-030-73110-6_10.