Services

  1. Vibration of mechanical systems, machines and structures (numerical and experimental determination of stress, strain acceleration and displacement fields).
  2. Optimal design, dynamic analysis of vehicles, aeral vehicles, structures and mechanical systems in general using Finite Element and Multibody Analysis.
  3. Dynamics, vibration and stability of multi-body systems and mechanisms.
  4. Experimental measurement, modal analysis, parametric modal identification and evaluation of vibration characteristics (natural frequencies, mode shapes, damping ratios).
  5. Noise, vibration and harshness (NVH) of vehicle models – automatic determination of passenger fatigue limits.
  6. Damage diagnosis and prognosis, fault detection and structural health monitoring of structures and machines.
  7. Fluid-structure interaction in liquid-filled tanks, liquid fuel vehicles and aerial vehicles.
  8. Multi-objective optimization and vibration control of complex dynamical systems.
  9. Optimization of mechanical dynamic systems and process systems.
  10. Dynamics of geared rotor-bearing systems, (coupled bending-torsional vibrations, balancing, alignment, flywheels).
  11. Rotordynamic analysis.
  12. Response and stability of systems with impacting components and friction.
  13. Design of vibration absorbers for vibration and noise reduction.
  14. Vibration isolation of mechanical and seismically excited ground-supported structures.
  15. Prediction and elimination of self-excited vibration.
  16. Bio-kinematics and dynamics of human body models.
  17. Vibration control and noise reduction by design of damping systems.
  18. Dynamic calculation of mechanical device foundations. Seismic response of structures.
  19. Design of automatic control systems for mechanical and electrical systems.
  20. Optimal design and control of carbon dioxide capture systems from flue gases and industrial gas streams.
  21. Navigation and control systems for air and ground vehicles.