- Non-linear problems of the dynamics of vibratory machines
- Transient resonance in systems of a limited power. Energy balance method for systems in a general and continuous motion, nomogram method with taking into account external moments for systems in a plane motion.
- Self-synchronization, disturbances of self-synchronization due to: dimensional deviations, insufficient stiffness of vibrators placement, not total symmetry of the elastic support system, feed influence, etc.
- Dynamics of suspended systems.
- Collision and restitution effects. In systems in general motion: simultaneous collisions of bodies, influences in the system feed – vibratory machine. Dynamic and operational properties of anti-resonance machines.
- Vibroinsulation and reduction of vibrations
- Synthesis of multimass vibroinsulation systems.
- Vibro-compensation and off-axial elimination of vibrations.
- Optimization of synchronous ball eliminators in planar and spatial systems.
- Modelling of physical systems
- Measuring systems and systems of structure monitoring
- Energy-saving, intelligent vibratory transport in the context of Industry 4.0 program.
- Implementation of assumptions of Industry 4.0 in the control of vibratory machines.
- Decreasing production costs and energy-consumption of vibratory transport by the application of new materials, and by increasing the efficiency and range of the vibratory transport.