CTU FEE Moodle
Acoustic Applications
B241 - Winter 24/25
Acoustic Applications - A5M02AKA
Credits | 4 |
Semesters | Summer |
Completion | Graded Assessment |
Language of teaching | undefined |
Extent of teaching | 2P+2L |
Annotation
Lecture summarize applications in physical acoustics, room and building acoustics, environmental acoustics, noise and vibration control, physiological acoustics, diagnostics, and ultrasound.
Study targets
None
Course outlines
1. Basic characteristics of a sound field.
2. Sound pressure, measurement, sound level meter and its properties.
3. Radiation characteristics of sound sources.
4. Non-stationary and impulse sound fields, measurement and evaluation.
5. Noise control, basic principles.
6. Vibration measurement and control.
7. Active noise and vibration control.
8. Architectural acoustics, measures and parameters.
9. Materials for room and building acoustics.
10. Measurements for architectural acoustics
11. Standardization in acoustics, calibration methods.
12. Fundamental of electroacoustics.
13. Sound studio technology.
14. Sound quality evaluation.
2. Sound pressure, measurement, sound level meter and its properties.
3. Radiation characteristics of sound sources.
4. Non-stationary and impulse sound fields, measurement and evaluation.
5. Noise control, basic principles.
6. Vibration measurement and control.
7. Active noise and vibration control.
8. Architectural acoustics, measures and parameters.
9. Materials for room and building acoustics.
10. Measurements for architectural acoustics
11. Standardization in acoustics, calibration methods.
12. Fundamental of electroacoustics.
13. Sound studio technology.
14. Sound quality evaluation.
Exercises outlines
1. Introductions, decibels.
2. Measurement of sound pressure, sound level meter.
3. Measurement of sound power.
4. Measurement of frequency and radiation characteristics sources of sound.
5. Reverberation measurement.
6. Measurement of acoustical properties of materials.
7. Measurement of noise.
8. Vibration measurement and analysis.
9. Audio technology practice.
10. Measurement of electroacoustic transducers
11. Room acoustics calculations.
12. Measurement of sound insulation.
13. Sound quality evaluation
2. Measurement of sound pressure, sound level meter.
3. Measurement of sound power.
4. Measurement of frequency and radiation characteristics sources of sound.
5. Reverberation measurement.
6. Measurement of acoustical properties of materials.
7. Measurement of noise.
8. Vibration measurement and analysis.
9. Audio technology practice.
10. Measurement of electroacoustic transducers
11. Room acoustics calculations.
12. Measurement of sound insulation.
13. Sound quality evaluation
Literature
1. Vér, I.L., Beranek, L.L.: Noise and vibration control engineering, John Wiley & Sons, Inc., 2006.
2. Bies D.A., Hansen C.H.: Engineering Noise Control, E& FN Spon, 1997
3. Fahy F.: Sound Intensity, E&FN Spon, 1995.
2. Bies D.A., Hansen C.H.: Engineering Noise Control, E& FN Spon, 1997
3. Fahy F.: Sound Intensity, E&FN Spon, 1995.
Requirements
Measuring results, test.