AIMS AND CONTENT

LEARNING OUTCOMES

The course provides the students with the theoretical foundation and operational tools for the dynamic identification of structures, by means of time- and frequency-domain methods, the bases of passive control techniques and seismic isolation.

The main learning outcomes of the Couse are:

• Acquisition of the bases for the characterization of the dynamic response of structures to a random excitation
• Ability to analyse and manipulate random quantities
• Acquisition of the theoretical bases of dynamic identification of civil engineering structures
• Ability to apply methods for the dynamic identification of civil engineering structures
• Knowledge of the main methods for vibration control of structures
• Knowledge of the bases of seismic isolation

AIMS AND LEARNING OUTCOMES

The course provides the students with the theoretical foundation and operational tools for the dynamic identification of structures, by means of time- and frequency-domain methods, the bases of passive control techniques and seismic isolation.

The main learning outcomes of the Couse are:

• Acquisition of the bases for the characterization of the dynamic response of structures to a random excitation
• Ability to analyse and manipulate random quantities
• Acquisition of the theoretical bases of dynamic identification of civil engineering structures
• Ability to apply methods for the dynamic identification of civil engineering structures
• Knowledge of the main methods for vibration control of structures
• Knowledge of the bases of seismic isolation

TEACHING METHODS

The course is organized in class teaching (approximately 31 hours), computer lab (approximately 15 hours) and experimental laboratory (approximately 4 hours).

SYLLABUS/CONTENT

Dynamic Identification: Experimental Modal Analysis (EMA) e Operational Modal Analysis (OMA). EMA: transducers, excitation mechanisms, identification methods, signal processing. Probability theory and statistics: random variables, random vectors and probabilistic models. Random processes and stationarity. Stationary random dynamic response of linear elastic structures. OMA: frequency and time domain identification techniques. Passive vibration control and seismic isolation.

RECOMMENDED READING/BIBLIOGRAPHY

Brincker R. Ventura C. (2015).Introduction to Operational Modal Analysis, Wiley

Elishakoff, I. (1999). Probabilistic theory of structures, Dover.

Ewins D.J. (2000). Modal testing: theory, practice and application, Second Edition, Research Studies Press LTD

Muscolino, G. (2002). Dinamica delle strutture, McGraw-Hill.

Rainieri C., Fabbrocino G. (2014). Operational Modal Analysis of Civil Engineering Structures- An Introduction and Guide for Applications-Springer-Verlag New York

Tubino, F. (2012). Dispense del corso (in inglese).

TEACHERS AND EXAM BOARD

Exam Board

FEDERICA TUBINO (President)

GIUSEPPE PICCARDO

SERGIO LAGOMARSINO (President Substitute)

LESSONS

LESSONS START

https://corsi.unige.it/10799/p/studenti-orario

Class schedule

The timetable for this course is available here: Portale EasyAcademy

EXAMS

Exam schedule