Mathematical modeling of the system of factors ensuring technological sovereignty of machine building enterprises

Ensuring technological sovereignty in mechanical engineering is a complex process and requires an equally complex engineering and technical system, including the training of qualified specialists, technological innovations, product research and development, production resources, industrial ecology and other aspects of the system. The enterprises of the machine-building complex are faced with the task of forming a range of key success factors in conditions of shortage of required resources, which should be integrated into programs and strategies for the development of machine-building enterprises, as well as the industry as a whole, which reflects the purpose of this study. The study conducted a simulation of success factors for enterprises in the engineering industry, taking into account resource constraints on production growth, innovation activity, labor productivity and energy efficiency, and investments. A set of principles of production management has been developed, which makes it possible to determine the directions of convergence of production systems and ensure the "soft" transformation of production processes into a single integrated system. The presented research results and the conclusions obtained on their basis can be used at enterprises of the machine-building industry in the development of programs for the modernization of the scientific and technological base with reference to key performance indicators, which will allow monitoring the quality of implementation of these programs and infrastructure projects in the industry, identify relationships between indicators of industrial and technological development, build a chain of development priorities in conditions of resource constraints on investment, productivity and production capacity.