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Designing and optimization of vibratory machines: stationary and transient resonance, self-synchronizing of inertial vibrators, dynamics of suspended systems, effects of collisions and restitution of bodies, determination of dynamic and operational properties of vibratory machines.
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Designing and optimization of vibroinsulation systems and reduction of vibrations: synthesis of multimass systems of passive vibroinsulation, automatic balancing, vibro-compensation and off-axial elimination of vibrations, optimization of structures of vibroinsulation systems.
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Designing and optimization of machines constructions: development of concepts and new solutions according to the requirements, selection of structure and drive parameters, optimization of structures according to the required criteria, investigations of a feed influence on operations of devices.
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Numerical modelling of machines and devices of a cyclic motion: modelling of vibratory and rotational machines and their influence on bracketing structures, for which the gyroscopic effect is essential, modelling of vibrations of pipelines with liquids and the influence of supplying sources.
- Measuring technique, structure monitoring systems: application of geometrically continuous fiber optics measurements for measuring deformations on long distances (of several dozen kilometers), application of vibrating wire sensors in static and dynamic measurements of physical values.
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