In this course explains all basic theory necessary for a whole acoustic design applied to any room or any place is treated.
The course is divided in two parts. In the first one acoustic treatment, room acoustic and isolation is explained. Noise control Environmental acoustics and aound reinforcement are treated in the second part. Noise control and environmental acoustics are explained, including laws and international legislation.
Titular Professors
Acoustics (basis).
Building and Room Acoustics alumni acquire following knowledge and skills:
1. General Knowledge about room acoustics and building acoustics
2. Know the applications of this knowledge for he profession
3. Solve problems concerning to acoustic design and noise control
4. Skill at acquiring own criterion
5. Environmental sensitivity
6. Take the acquired knowledge to a practical level
7. Skill at doing research tasks
8. Skill at learning
9. Learn to take own and new design decisions
1- Acoustic Design:
Statistic Theory
Sound absorbers
Using sound absorbers
Room acoustic design
Variable Acoustics
Ray tracing theory
Wave related theory
Sound quality parameters
2- Acoustic Isolation:
Simple wall isolation
Double wall isolation
Stiffness materials
Edification Law
Sound Transmission Isolation
Impact noise
Vibration control
3- Noise Control and Environmental Acoustics:
Noise barriers design
Mufflers design
Environmental acoustics
Noise Regulations, guidelines and Ordinances
4- Sound reinforcement
Open spaces
Confined spaces
Electrical power required
The course is based on lectures in class. Problems are suggested for students to solve at home and are later discussed in class. The chalkboard lectures are often accompanied with computer projections. During the course, demo sessions and visits to companies in the acoustic industry or concert and opera halls are organized.
Students have to carry out some practical work such as application of the knowledge acquired.
The course grade is calculated at the end of the course as the average of two parts that have to approve separately.
Students must do an assignment, based on research with a practical part based on acoustical simulations or outdoor measurements.
Final evaluation is calculated as:
70% Exam + 30% Continnuous evaluation
Final evaluation is calculated as:
70% Exam + 30% Continnuous evaluation
Notes from class and information placed in the e-Study.
- Acústica
Leo L. Beranek
- Principles and applications of room acoustics, Volume 1
Cremer, Müller & Schultz
-Principles and applications of room acoustics, Volume 2
Cremer, Müller & Schultz
-Room Acoustics
Heinrich Kuttruff
-Acoustical Design of Concert Halls and Theatres
David Jordan
-Music, acoustics and arquitecture
Leo.L.Beranek
-Architectural Acoustics
David Egan
-ABC de la acústica arquitectónica
Higini Arau
-Auditorium acoustics
M. Barron
-Diseño acústico de espacios arquitectónicos
A. Carrion
-Noise & Vibration Control
Leo. L. Beranek
-Noise, Its Measurement, Analysis, Rating & Control
J. S. Anderson & M. Bratos-Anderson
-The effects of Noise on Man
Karl D. Kryter
-Acoustic and Noise Control
B.J. Smith, R. J. Peters and S. Owen
-Noise Control
Cyril Harris