• Education of students in the field of mechanical engineering and 3D technologies (conducting lecture and laboratory exercises);

• Improving the process of product development and design;• Models, basic principles and methods in RP (Product Development);

• Modeling of technical systems in the area of ​​function, physical effects and forms;

• Rules, principles as well as the place and role of shaping in product development;

• Calculation and structural analysis of structures for operational conditions;

• Structuring problems in RP;

• Development and construction of variant products;

• Ecological aspects in product development;

• Methodological approach to product development from the aspect of technologicality;

• Visualization and interaction in product development;

• Product life cycle (PLM) and information systems;

• Life cycle of knowledge systems and software packages for knowledge systems;

• Methods of modeling and optimization of product development processes;

• Innovation and technology management in RP;

• Organization of learning as a focus of knowledge management;

• Human resource management in the product development process;

• Knowledge transfer and efficient use of available knowledge. Teamwork. Evaluation of team participants’ competencies;

• Management of innovative cooperative projects;
• Development and application of decision-making methods in RP;
• Application of methods to ensure goal achievement;
• Development and design of power transmissions (reducers and multipliers – gear, worm, chain, belt, friction, planetary transmissions, variators, gearboxes, combined transmissions);
• Reliability calculation of power transmissions and structures;
• Testing and diagnostics of machine systems and structures;
• Development and application of application software for design;
• Using software tools to create 3D models, technical drawings and simulations;
• Creating digital 3D models for various purposes, from prototypes to final products;
• Reversible engineering; Digitization of physical objects using 3D scanners.
• Creating physical prototypes, tools and functional parts using 3D printers;
• Measuring and analyzing stresses and deformations;
• Simulating the behavior of structures under different loads.
• Designing and analyzing machine joints;

• Cooperation with individual work organizations on the research and development of machines for various purposes according to industry requirements;
• Cooperation with scientific research centers around the world on the development of joint projects;
• Cooperation with scientific research centers around the world in terms of global product development; • Initiating the development of an economic system in accordance with world standards for the development of high-quality, market-competitive products in state institutions and local authorities;
• Proposing and developing conceptual solutions for the introduction of world standards for sustainable development for existing and newly established economic and service entities into their business system;
• Organizing CAD/CAE seminars for users of application software in the field of modeling, preparation of construction documentation, simulations, application of the finite element method in the analysis of the stress-strain state of structures;
• Managing projects for the development of innovative products, in national and international frameworks;
• Organizing educational activities (training, courses, training, seminars, conferences) for students of other higher education institutions and practicing engineers, in the center’s premises or on site (in enterprises or companies).