- Health monitoring
- Aeroelasiticty and FSI
- Signal processing
- Finite element analysis
- Rezaei, M. M., Zohoor, H., & Haddadpour, H. (2018). Aeroelastic modeling and dynamic analysis of a wind turbine rotor by considering geometric nonlinearities. Journal of Sound and Vibration, 432, 653-679.
- Rezaei, M. M., Behzad, M., Haddadpour, H., & Moradi, H. (2017). Aeroelastic analysis of a rotating wind turbine blade using a geometrically exact formulation. Nonlinear Dynamics, 89, 2367-2392.
- Rezaei, M. M., Behzad, M., Moradi, H., & Haddadpour, H. (2016). Modal-based damage identification for the nonlinear model of modern wind turbine blade. Renewable energy, 94, 391-409.
- Rezaei, M. M., Behzad, M., Haddadpour, H., & Moradi, H. (2015). Development of a reduced order model for nonlinear analysis of the wind turbine blade dynamics. Renewable energy, 76, 264-282.
- Rezaei, M. M., Movahhedy, M. R., Moradi, H., & Ahmadian, M. T. (2012). Extending the inverse receptance coupling method for prediction of tool-holder joint dynamics in milling. Journal of Manufacturing Processes, 14(3), 199-207.
- Ahmadian, M. T., Movahhedy, M. R., & Rezaei, M. M. (2011). Design and application of a new tapered superelement for analysis of revolving geometries. Finite elements in analysis and design, 47(11), 1242-1252.
- Mechanical Vibration
- Automatic Control
- Robotics
- Advanced Mathematics I
- Advanced Dynamics
- Dynamics and Vibration Laboratory