Abstract
Modern enterprise of high-tech industries of the Russian Federation has traditionally presented a set of technological objects. Whose activities are characterized by multiple and usually non-linear relationships, as well as validation of the raw materials and products, which determines the impossibility of forming once certain systems to improve the efficiency of enterprises with assessment and control of the progressive technological development of business units through the introduction of lean thinking principles in production. The purpose of research is to evaluate the development of corporate systems for domestic production in the context of the formation of a systematic approach to continuous improvement. As well as the implementation of a system of evaluation and monitoring of the effectiveness of their work. Also, to draw conclusions about the rationality of used solutions, and to form reserves assessment of further development for companies. Materials and methods: Systematization and generalization of the experience in continuous improvements of the company on the example of the business sector identified in the study; assessment of continuous improvement system potential in the context of monitoring business parameters, the effectiveness of continuous improvement, and the achievability of strategic goals. Results: The toolkit for assessing the development of systems for improving efficiency in the context of the practical application of the system management model through continuous improvement was determined on the example of “Processing” business sector of a domestic company. Features of managing the environment of changes or attributes that determine the degree of their output from the introduction of a system of continuous improvements are highlighted. The object of the study is a separate business unit of the “Processing” sector of the fuel and energy complex of the Russian Federation. The practical significance lies in the possibility of using the highlighted solutions as a tool for effective management for an industrial enterprise or corporate agglomerations.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Bredillet, C. N. (2010). Blowing hot and cold on project management. Project Management Journal, 41(3), 4–20.
Browning, T. R., Fricke, E., & Negele, H. (2006). Key concepts in modeling product development processes. Published online in Wiley InterScience (www.interscience.wiley.com). https://doi.org/10.1002/sys.20047.
Davis, F. D., & Venkatesh, V. (1996). A critical assessment of potential measurement biases in the technology acceptance model: Three experiments. International Journal of Human-Computer Studies, 45(1), 19–45.
Garina, E. P. (2017). Design of conditions for efficient organization of technological process for productive maintenance of equipment at industry enterprises. Bulletin of NGIEI, 1(68), 91–101.
Kochnev, A. F. (2020). BSC, KPI. http://www.kpilib.ru/article.php?page=635. Accessed 12 April 2020.
Kuznetsov, V., Garina, E., Bardakov, A., Kornilov, D., & Lapaev, D. (2019). Re-engineering the business process of sales in view of life cycle stage and the company organisational structure. International Journal of Trade and Global Markets, 12(3–4), 412–423.
Parshina, A. A., Levchuk, V. V., Shpilevskaya, E. V., Garina, E. P., & Garin, A. P. (2018, April). The study of modern approaches to development of economic systems through managing their complexity. In International conference project “the future of the global financial system: Downfall of harmony” (pp. 726–733). Springer.
Potashnik, Y. S., Garina, E. P., Romanovskaya, E. V., Garin, A. P., & Tsymbalov, S. D. (2017, July). Determining the value of own investment capital of industrial enterprises. In Advances in Intelligent Systems and Computing (pp. 170–178). Springer.
Ren, Y., & Yeo, K. T. (2006). Research challenges on complex product systems innovation. Journal of the Chinese Institute of Industrial Engineers, 23, 519–529.
Tolstykh, T. O., Shkarupeta, E. V., Malkova, T. B., Alpeeva, E. A., & Garina, E. P. (2020). Algorithm for assessing the efficiency of innovational technologies of industrial enterprises. In Growth poles of the global economy: Emergence, changes and future perspectives (pp. 463–471). Springer.
Usmanov, M. R., Podvintsev, I. B., & Gimaletdinov, R. R. (2018). Improving productivity and operating efficiency of production assets. Technological support of oil refining, petrochemical and gas processing (p. 304). Peter.
Usmanov, M. R., Only, I. S., Gimaletdinov, R. R., & Firsov, A. V. (2019). Increased productivity and operational efficiency of production assets. Implementation of a system of continuous improvements at manufacturing enterprises and in research and design complexes (Vol. 2, p. 224). Quartz.
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2021 The Author(s), under exclusive license to Springer Nature Switzerland AG
About this chapter
Cite this chapter
Usmanov, M.R., Garina, E.P., Romanovskaya, E.V., Andryashina, N.S., Vatletsov, D.P. (2021). Evaluation of Management Effectiveness of the System Based on the Use of Management Indicators. In: Popkova, E.G., Sergi, B.S. (eds) Economic Issues of Social Entrepreneurship. Palgrave Macmillan, Cham. https://doi.org/10.1007/978-3-030-77291-8_8
Download citation
DOI: https://doi.org/10.1007/978-3-030-77291-8_8
Published:
Publisher Name: Palgrave Macmillan, Cham
Print ISBN: 978-3-030-77290-1
Online ISBN: 978-3-030-77291-8
eBook Packages: Economics and FinanceEconomics and Finance (R0)