Abstract
Any automated production, at the current stage, must have systems or control modules that serve to coordinate the subsystems of the entire enterprise. Control in this case occurs through the use of separate modules responsible for monitoring each individual subprocess. Software modules are being developed for such processes, which combine monitoring and operational regulation under the processes, which allows to one degree or another to reduce the risk of damage or failure of all production links. Thus, the creation of a computer-integrated management system for coordinating the functioning of the subsystems of the enterprise is an urgent and timely task. This paper analyzes the basics of building a production subsystem control system. Algorithms for the operation of such systems are also considered.
References
1. Basiuk, V., & et al. (2024). Command System for Movement Control Development. Multidisciplinary Journal of Science and Technology, 4(6), 248-255.
2. Matarneh, R., & et al. (2018). Voice control for flexible medicine robot. International Journal of Computer Trends and Technology (IJCTT), 55(1), 1-5.
3. Chala, O., & et al. (2024). Switching Module Basic Concept. Multidisciplinary Journal of Science and Technology, 4(7), 87-94.
4. Attar, H., Abu-Jassar, A. T., Amer, A., Lyashenko, V., Yevsieiev, V., & Khosravi, M. R. (2022). Control System Development and Implementation of a CNC Laser Engraver for Environmental Use with Remote Imaging. Computational Intelligence and Neuroscience, 2022, 9140156.
5. Nevliudov, I., Yevsieiev, V., Baker, J. H., Ahmad, M. A., & Lyashenko, V. (2020). Development of a cyber design modeling declarative Language for cyber physical production systems. J. Math. Comput. Sci., 11(1), 520-542.
6. Abu-Jassar, A. T., Attar, H., Yevsieiev, V., Amer, A., Demska, N., Luhach, A. K., & Lyashenko, V. (2022). Electronic user authentication key for access to HMI/SCADA via unsecured internet networks. Computational intelligence and neuroscience, 2022, 5866922.
7. Mustafa, S. K., Yevsieiev, V., Nevliudov, I., & Lyashenko, V. (2022). HMI Development Automation with GUI Elements for Object-Oriented Programming Languages Implementation. SSRG International Journal of Engineering Trends and Technology, 70(1), 139-145.
8. Omarov, M., Tikhaya, T., & Lyashenko, V. (2019). Internet marketing metrics visualization methodology for related search queries. International Journal of Advanced Trends in Computer Science and Engineering, 8(5), 2277-2281.
9. Matarneh, R., Tvoroshenko, I., & Lyashenko, V. (2019). Improving Fuzzy Network Models For the Analysis of Dynamic Interacting Processes in the State Space. International Journal of Recent Technology and Engineering, 8(4), 1687-1693.
10. Lyashenko, V. V., Deineko, Z. V., & Ahmad, M. A. Properties of wavelet coefficients of self-similar time series. In other words, 9, 16.
11. Vizir, Y., Chala, O., Maksymova, S., & Alkhalaileh, A. (2023). Lighting Control Module Development. Journal of Universal Science Research, 1(12), 645–657.
12. Yevsieiev, V., & et al. (2022) Development of A System for the Production Process Monitoring Using Telegram Bot. The Current State of Development of World Science. Characteristics and Features : proceedings of the III International Scientific and Theoretical Conference, Lisbon, Portuguese Republic, 70-72.
13. Zharikova, I., & et al. (2023). Automatic Machine of Plastic Bottles and Aluminum Cans Collection for Recycling. Journal of Universal Science Research, 1(11), P. 169–178.
14. Maksymova, S., & Chala, O. (2023). Defect Engineering: Application in Automation System Components Production Technological Processes. Multidisciplinary Journal of Science and Technology, 3(3), 243-251.
15. Vizir, Y., & et al. (2024). Lighting Control Module Software Development. Journal of Universal Science Research, 2(2), 29–42.
16. Maksymova, S., & Yevsieiev, V. V. (2024). Coin Counting Device Kinematic Diagram Development. Journal of Universal Science Research, 2(1), 159–168.
17. Ahmad, M. A., Baker, J. H., Tvoroshenko, I., & Lyashenko, V. (2019). Modeling the structure of intellectual means of decision-making using a system-oriented NFO approach. International Journal of Emerging Trends in Engineering Research, 7(11), 460-465.
18. Babker, A. M., Abd Elgadir, A. A., Tvoroshenko, I., & Lyashenko, V. (2019). Information technologies of the processing of the spaces of the states of a complex biophysical object in the intellectual medical system health. International Journal of Advanced Trends in Computer Science and Engineering, 8(6), 3221-3227.
19. Abu-Jassar, A. T., Attar, H., Amer, A., Lyashenko, V., Yevsieiev, V., & Solyman, A. (2024). Remote Monitoring System of Patient Status in Social IoT Environments Using Amazon Web Services (AWS) Technologies and Smart Health Care. International Journal of Crowd Science.
20. Babker, A. M., Suliman, R. S., Elshaikh, R. H., Boboyorov, S., & Lyashenko, V. (2024). Sequence of Simple Digital Technologies for Detection of Platelets in Medical Images. Biomedical and Pharmacology Journal, 17(1), 141-152.
21. Pyrohova, S., Gudymenko, V., & Lyashenko, V. (2024). Dynamics of commodity indices and shares of manufacturing companies as a factor in managing the assortment and inventory of an enterprise. Multidisciplinary Journal of Science and Technology, 4(3), 176-185.
22. Yevstratov, M., Lyubchenko, V., Amer, A. J., & Lyashenko, V. (2024). Color correction of the input image as an element of improving the quality of its visualization. Technical science research in Uzbekistan, 2(4), 79-88.
23. Tahseen A. J. A., & et al.. (2023). Binarization Methods in Multimedia Systems when Recognizing License Plates of Cars. International Journal of Academic Engineering Research (IJAER), 7(2), 1-9.
24. Lyubchenko, V., Veretelnyk, K., Kots, P., & Lyashenko, V. (2024). Digital image segmentation procedure as an example of an NP-problem. Multidisciplinary Journal of Science and Technology, 4(4), 170-177.
25. Drugarin, C. V. A., Lyashenko, V. V., Mbunwe, M. J., & Ahmad, M. A. (2018). Pre-processing of Images as a Source of Additional
26. Information for Image of the Natural Polymer Composites. Analele Universitatii'Eftimie Murgu', 25(2).
27. Attar, H., Abu-Jassar, A. T., Lyashenko, V., Al-qerem, A., Sotnik, S., Alharbi, N., & Solyman, A. A. (2023). Proposed synchronous electric motor simulation with built-in permanent magnets for robotic systems. SN Applied Sciences, 5(6), 160.
28. Boboyorov Sardor Uchqun o‘g‘li, Lyubchenko Valentin, & Lyashenko Vyacheslav. (2023). Image Processing Techniques as a Tool for the Analysis of Liver Diseases. Journal of Universal Science Research, 1(8), 223–233.
29. Lyashenko V, Matarneh R, Sotnik S. Modeling of Machine Design with Numerical Control in UG NX 7.5 System. The International Journal of Engineering and Science (IJES), 2018, 7(7), pp. 28-37.
30. Abd Elgadir, A. A., Babker, A. M., Osman, A. L., Ismail, M., & Lyashenk, V. (2019). New approach for analysis the correlation of some oxidative markers in type 2 diabetes mellitus by data wavelet analysis. Indian Journal of Public Health Research and Development, 10(11), 2449-2455.
31. Kuzemin, A., & Lyashenko, V. (2009). Some aspects of comparative analysis of banks functioning. Intenational Book Series «Information science and computing».–2009.–Book, (10), 31-38.
32. Omarov, M., Muradova, V., & Lyashenko, V. (2020). Model of accumulation and loss of knowledge in computerization systems of education with remote access. International Journal of Emerging Trends in Engineering Research, 8(3), 847-852.
33. Matarneh, R., Sotnik, S., Belova, N., & Lyashenko, V. (2018). Automated modeling of shaft leading elements in the rear axle gear. International Journal of Engineering and Technology (UAE), 7(3), 1468-1473.
34. Sotnik, S. Analysis of Systems for Development of 3D Models / S. Sotnik, V. Lyashenko, T. Sinelnikova // International Journal of Academic Information Systems Research (IJAISR). – 2021. – Vol. 5, Issue 10. – 2021. – P. 17-22.
35. Vasiurenko, O., Baranova, V., & Lyashenko, V. (2024). Probability distributions of interest rates on loans and deposits in a study of banking activities. Multidisciplinary Journal of Science and Technology, 4(1), 49-56.
36. Hou, C., & et al. (2022). Coupling and coordination of China's economy, ecological environment and health from a green production perspective. International Journal of Environmental Science and Technology, 19(5), 4087-4106.
37. Malik, A. I., & Kim, B. S. (2021). Coordination supply chain management under flexible cleaner production system and stochastic conditions. Annals of Operations Research, 1-42.
38. Yan, B. R., & et al. (2021). A study on the coupling and coordination between logistics industry and economy in the background of high-quality development. Sustainability, 13(18), 10360.
39. Deflorin, P., & et al. (2021). The influence of IIoT on manufacturing network coordination. Journal of Manufacturing Technology Management, 32(6), 1144-1166.
40. Omicini, A. (2020). Towards a notion of agent coordination context. In Process coordination and ubiquitous Computing, CRC Press, 187-200.
41. Gu, W., & et al. (2020). Manufacturing resources coordination organisation and tasks allocation approach inspired by the endocrine regulation principle. IET Collaborative Intelligent Manufacturing, 2(2), 37-44.
This work is licensed under a Creative Commons Attribution 4.0 International License.