Ricercatore TD ICAR/08 con Abilitazione Scientifica Nazionale a Professore di Seconda Fascia, settore concorsuale 08/B2 Scienza delle Costruzioni
PhD in Structural Engineering, Sapienza University of Rome Italy, 2007
Registered at the Professional Association of the Engineers, Rome Italy 2004
Degree in Civil Engineering, Sapienza University of Rome Italy, 2003
Dynamics and control of structures: modelling, experimentation, optimal design of the control system
Passive and semi active control: hysteretic devices, magnetorheological dampers, inerter devices, tuned mass damper
Earthquake engineering of strategic structures
Structural masonry retrofitting with textile reinforced mortars for seismic protection
Structural health monitoring with wireless sensor networks
The research activity involves the control and mitigation of the structural response by means of passive and semi active devices. The applications are mainly oriented to Civil and Mechanical Engineering. Aspects concerning theory, modelling, numerical analysis and experimental validation are treated.
The dynamical actions considered in the problems studied are: earthquake input, harmonic input, aerodynamic pressure produced by the train passage, stochastic input. Other research activity involves the structural retrofitting and strengthening of ancient masonry structures with innovative composite materials. Aspects related to modelling, numerical analysis, experimentation and monitoring for structural health integrity are investigated.
Basili, M., De Angelis, M., Pietrosanti, D. (2019). Defective two adjacent single degree of freedom systems linked by spring-dashpot-inerter for vibration control. Engineering Structures, 188, 480-492.
Basili, M., De Angelis, M., Pietrosanti, D. (2018). Modal analysis and dynamic response of a two adjacent single degree of freedom systems linked by spring-dashpot-inerter elements. Engineering Structures, 174, 736-752.
Pietrosanti, D., De Angelis, M., Basili, M. (2017). Optimal design and performance evaluation of systems with Tuned Mass Damper Inerter (TMDI). Earthquake Engineering & Structural Dynamics, 46(8), 1367-1388.
Marcari, G., Basili, M., Vestroni, F. (2017). Experimental investigation of tuff masonry panels reinforced with surface bonded basalt textile-reinforced mortar. Composites Part B: Engineering, 108, 131-142.
Basili, M., De Angelis, M. (2017). Vibration Analysis and Models of Adjacent Structures Controlled by Magnetorheological Dampers. Shock and Vibration, 2017.
Basili, M., Marcari, G., Vestroni, F. (2016). Nonlinear analysis of masonry panels strengthened with textile reinforced mortar. Engineering Structures, 113, 245-258.