The editorial policy of the "Journal of Kryvyi Rih National University" journal is based on the principles of objectivity and impartiality in the selection of articles for publication; high demands on the quality of scientific research; obligatory peer review of articles; collegiality in making decisions on the publication of articles; accessibility and efficiency in communicating with authors; strict compliance with copyright and related rights. The main criterion in the selection of materials for publication is their originality and relevance of ideas, the scientific and factual reliability of the presented material.
The purpose of "Journal of Kryvyi Rih National University" is to cover the results of scientific research on industrial, technical and engineering topics. The journal encourages research based on a rigorous scientific approach and state-of-the-art technologies. The main audience of the journal is Technical Researchers, Doctoral Students, Lecturers, Engineering and Technical Staff, as well as Government Officials interested in issues, processes and experiences related to industry.
Starting with Vol. 22, No. 2, 2024, “Journal of Kryvyi Rih National Universityy” has narrowed its focus. The journal publishes research on, but is not limited to, the following topics and fields:
- Computer Science in Industry: research into the use of artificial intelligence to optimise production processes, the use of machine learning to predict equipment failures, and the development of computer simulations for modelling industrial processes.
- Monitoring Systems for Industrial Transport: analysis of industrial transport tracking and monitoring systems in real time, research into the use of IoT to improve the safety and efficiency of material transportation, development of autonomous vehicle and logistics monitoring systems.
- Mechanical Engineering: researching new materials and structures to improve the durability of machines, modelling and optimising mechanisms to reduce energy consumption and increase efficiency, assessing the impact of innovative production processes on the performance and reliability of engineering products.
- Energy Saving Technologies in Heavy Industry: analysing the implementation of energy efficient technologies at plants, developing new energy management systems to minimise energy losses in production processes, and assessing the efficiency of renewable energy sources in the context of heavy industry.
- Robotics and Digitalisation in Construction: research on the use of robotic systems to automate construction processes, the impact of digital modelling technologies (BIM) on efficiency and control in construction, and the assessment of the effectiveness of introducing drones for monitoring and inspecting construction sites.
- Industrial Safety Technologies: research into automated safety systems at industrial facilities that reduce risks to personnel, development of technologies for monitoring and preventing accidents in production areas, and assessment of the impact of digital systems for monitoring hazardous working conditions on industrial safety.
- Innovations in Factory Equipment: researching new types of production equipment with increased productivity and energy efficiency, using innovative materials and technologies in the production of industrial machine tools, automation and digitalisation of production equipment to improve product quality.
- Automation of Quality Control in Production: research into the implementation of automated product quality control systems, the use of computer vision and machine learning to control defects in production.
- Energy Efficiency in Industrial Plants: researching technologies for reducing energy consumption at manufacturing enterprises, analysing the energy efficiency of production processes using renewable energy sources, developing and implementing energy monitoring systems to improve energy efficiency.
- Nanomaterials in Mechanical Engineering: studying the use of nanomaterials to increase the strength and lightness of machine structures, assessing the impact of nanotechnology on the wear resistance of parts and mechanisms of machine-building products, and using nanocoatings to reduce friction and increase the durability of machine components.
