In Russia, comprehensive programs are being developed and implemented to stimulate research and development in the field of AI, create human resources and form a legislative framework that will facilitate the integration of artificial intelligence into key sectors of the economy. But this is not always reflected in practical application in production. One of the factors is the low level of awareness of the capabilities of AI technologies. The article examines the current level of implementation of artificial intelligence-based solutions in the industrial sector, analyzes practical cases of AI application in different areas of work and describes the main advantages of implementation. Particular attention is paid to how AI can improve the performance of industrial enterprises and increase their economic efficiency.
This article examines the possibility of replacing humans with artificial intelligence (AI) in the industrial sector. The author analyzed current achievements in this area and studied their impact on the productivity and economic efficiency of enterprises. Particular attention is paid to the social and ethical aspects of AI implementation, including occupational safety and the replacement of people with robots. In addition, the article examines the prospects for the development of technologies and their potential for industrial transformation. Based on current data, the author concluded that tasks that can be transferred to AI and which still require human participation.
Conducting voluntary certification for compliance of food production with conditions and standards that exclude the presence of carcinogens in finished products will allow the enterprise to reach a different level of production, safer for the consumer. This will significantly expand the range of manufactured products, and increase the target audience of its products not only in the Russian market, but also in other countries where there is a problem of growing oncology. The described advantages of certification of products that do not contain carcinogens increase the investment attractiveness of the enterprise both from private investors and from funds of various focuses. The article provides the main definitions of the certification process, the organizational structure diagram for certification, requirements for raw materials and processes of production (manufacturing), storage, transportation of products that do not contain carcinogens.
The article discusses general issues of application of engineering calculations in modern manufacturing in various fields, advantages of using numerical modeling at early stages of product design, main solution methods used in modern CAE systems, types of calculations used in design (strength, hydrogasdynamic, electromagnetic, thermal) and technological (modeling of casting processes, welding, heat treatment, metal pressure processing, production of composite materials) development. Examples of foreign and domestic modeling systems are given. The principles of operation of system (1D-modeling) programs for assessing the operation of complex hydraulic, pneumatic, electrical and other systems at an early stage of preliminary design are considered. The principles of automatic optimization of processes and products using integrator programs of various CAE solutions are analyzed. Examples of engineering calculations performed by Nova-Engineering are considered: a crash test of a passenger bus with an assessment of possible injuries to virtual dummies, an analysis of the spread of the Covid-19 virus in an office workspace, and a calculation of welding spans of a bridge across the Volga River.
Information security at an industrial enterprise is a key aspect that requires special attention in the context of an increasing cyber threat. Industrial facilities are attractive targets for hackers, since their hacking can lead to significant economic losses, disruptions in production, and even a threat to human life. This article discusses the main products and solutions for ensuring information security at industrial enterprises, as well as the advantages of their use.
The article examines the key trends in the transformation of the information security landscape of industrial enterprises. The reasons for the aggravation of cyber threats, including the digitalization of production, geopolitical factors and changes in the regulatory environment are analyzed. A conceptual model for the transition to a proactive paradigm of information protection in the face of new challenges is proposed. Practical recommendations for upgrading information security systems are provided, taking into account the specifics of the industrial sector.
The article discusses modern methods of employee incentives aimed at creating a motivated and productive team. The main focus is on the formation of a clear and inspiring vision of the company's future, taking into account the personal ambitions of employees, as well as the importance of a fair wage system, where the bonus part plays a key role. Specific examples and recommendations for developing a motivation system are given, including gamification, which makes the work process more interesting and exciting.
In the modern world, an effective economy of any field of activity cannot exist without the digitalization of business processes. We use electronic calendars, mobile applications for paying bills, we see the routes a child takes to school, we study in web rooms, we use cash-back and electronic money. In his article, the author shares cases and trends in the digitalization of labor protection, industrial safety, as well as their effectiveness.
The purpose of the study is to identify typical risks of an industrial enterprise at the stages of the product life cycle. The risk management process at industrial enterprises was chosen as the object of the study. The subject of the study is risks and factors affecting the likelihood of their occurrence. The article discusses the main stages and elements of the risk management process at an industrial enterprise. By the method of analytical research and synthesis, the relationship between the main stages and elements of the risk management process of a manufacturing enterprise has been established. The main elements of the risk management process are defined. A context diagram has been compiled in IDEF0 notation. The passport of the risk management process is presented, which includes a description of such elements of the risk management process as: planned process goals; inputs and outputs; process manager; responsible executors and participants in the process; main process resources; monitoring method; observed parameters during process monitoring; measurement method; process indicator measured for process management; records when process monitoring; responsible for recording and evaluating the effectiveness of the process. Based on the analysis, the objectives of such stages of the product life cycle of a manufacturing enterprise are formulated as: analysis and conclusion of contracts; design and development; logistics; production preparation; production; product control and testing; packaging and storage. The risks and factors affecting the probability of their occurrence for each of the analyzed stages are determined.
In the era of digitalization, the educational sector of Russia is faced with the need to integrate the latest technologies to improve the quality and accessibility of education. TEGRATECH, a major player in the field of system integration and implementation of complex IT and multimedia solutions, shares its experience in implementing solutions aimed at developing professional education in the country. The purpose of this article is to review the current state and prospects for the development of professional education in Russia with an emphasis on the introduction of digital technologies, the use of simulators and training equipment, as well as the practice of project-based learning. We will consider the implemented projects of TEGRATECH, such as equipping Lyceum No. 369 in St. Petersburg and the introduction of VR simulators for Muravlenkov College, demonstrating how innovative solutions contribute to improving the quality of education and training specialists who meet the requirements of the modern labor market.
