AES Paris 2016 Presenter or Author
Massimo Garai
Primary Affiliation: University of Bologna - Bologna, Italy
AES Member Type: Member
View AES Member Profile
Laurea degree in Physics (honors) in 1983 at University of Bologna. Ph.D. in Technical Physics in 1991 at University of Bologna.
Native language: Italian. Foreign languages: English and French.
Full Professor, affiliated with the Department of Industrial Engineering (DIN) of the School of Engineering an Architecture of the University of Bologna.
Courses: “Applied Acoustics and Lighting” and “Environmental Technical Physics”.
President of the “Acoustics and Vibrations” committee of UNI (Italian Standardisation Organisation) and convenor of the working groups “Noise screens” and “Determination of uncertainty in acoustics”.
Convenor of CEN/TC 256/SC 1/WG 40 “Noise barriers for rail infrastructure”.
Italian national representative in CEN/TC 226/WG 6 “Road traffic noise reducing devices”.
Full member, past-treasurer and member of the board of AIA (Italian Acoustics Association), full member of EAA (European Acoustics Association), INCE-USA (Institute of Noise Control Engineering of the USA), AES (Audio Engineering Society) and ASA (Acoustical Society of America).
Authors of more than 200 papers. His scientific interests include: outdoor sound propagation, acoustic barriers, environmental impact assessment, building acoustics, room acoustics, industrial noise control, digital signal processing, properties of materials, sustainability.
Best Paper Award at the International Building Physics Conference IBPC 2015.
Congratulated by Elsevier Publisher for being one of the most cited authors of Applied Acoustics for the years 2002-2005. “Outstanding Reviewer” for the journal Applied Acoustics for the years 2013 and 2015.
More Info: http://www.aes.org/member/profile.cfm?ID=690686714
Session List
Jun 4:
P4: Room Acoustics
Room Acoustic Measurements Using a High SPL Dodecahedron (Author)
Jun 5:
P12: Perception Part 1 and Audio Signal Processing Part 2
An Innovative Structure for the Approximation of Stereo Reverberation Effect Using Mixed FIR/IIR Filters (Author)