Audio
EE-548
Media
5-1, audio_Chapter 5_1-In class explanations
25.11.2020, 11:41
4-2, Audio_Chapter 4-2 Introduction
30.10.2020, 13:39
6, Room modes equalization with Active Electroacoustic Absorbers - 1. Introduction
10.12.2020, 11:53
5-1, Audio_Chapter 5-1 - 1. Introduction
22.11.2020, 19:41
4-1, Audio_Chapter4_1 1. Electrical-mechanical analogies
26.10.2020, 15:23
3-4, Audio_chapter3_4 - 2 Reverberation time measurements
18.10.2020, 12:28
3-1, Audio_Chapter 3_1 - 4 Characteristics of room modes
09.10.2020, 14:32
1, Audio_Chapter1
22.09.2021, 11:50
3-4, Audio_Chapter3_4 - 1 Sabine's law
18.10.2020, 12:19
4-3, Audio Chapter 4-3_COMSOL example 5: the cardioid source
24.11.2021, 15:37
5-2, audio_Chapter5_2 - 2. Electrodynamic loudspeaker acoustic scheme
30.11.2020, 16:14
4-3, Audio Chapter 4-3_COMSOL example 3: The dipole
22.11.2021, 16:28
4-4, Audio_Chapter 4-4 Antenna and arrays - 3. Arrays
15.11.2020, 17:50
5-3, audio_Chapter5-3_Loudspeaker systems
02.12.2020, 13:27
4-3, Audio_Chapter4_3 - 2. Doublets and dipoles
08.11.2020, 11:58
4-3, Audio Chapter 4-3_COMSOL example 3: The dipole
22.11.2021, 16:28
4-3, Audio Chapter 4-3_COMSOL Example 2: The monopole
22.11.2021, 15:17
5-2, audio_Chapter5_2 - 1. Introduction on loudspeaker radiation
30.11.2020, 16:12
2-3, Audio_Chapter2_3-4 Averaged Levels
02.10.2020, 18:32
4-4, Audio Chapter 4-4_COMSOL example 2: phased linear antenna
24.11.2021, 15:52
3-4, Audio_chapter3_4 - 4 Reverberated level
19.10.2020, 10:46
3-3, Audio_Chapter 3_3 - 1 Introduction
15.10.2020, 14:26
2-3, Audio_Chapter2_3-1 Introduction.mp4
02.10.2020, 18:28
6, audio_chapter 6 - Electroacoustic absorbers - 4. Performance evaluation and conclusions
05.12.2020, 17:23
3-1, Audio_Chapter 3_1 - 2 Room modes
09.10.2020, 14:30
4-2, Audio_Chapter 4-2a 2. Electrodynamic tranducer equations and analogue schemes
30.10.2020, 14:36
6, Room modes equalization with Active Electroacoustic Absorbers - 1. Introduction
10.12.2020, 11:53
3-1, Audio_Chapter 3_1-1 Duct modes
09.10.2020, 12:08
4-3, Audio_Chapter 4-3 - COMSOL Example 8: Piston on a box
18.11.2020, 18:54
0, Audio - Presentation of the semester and virtual visit of the acoustic facilities
19.09.2020, 15:15
6, Room modes equalization with Electroacoustic Absorbers - 2. Frequency response of the room
10.12.2020, 12:03
3-3, Audio_Chapter 3_3 - 1 Introduction
15.10.2020, 14:26
4-4, Audio_Chapter 4-4 Antenna and arrays - 2. Phased linear antenna
15.11.2020, 17:49
3-1, Audio_Chapter 3_1 - 4 Characteristics of room modes
09.10.2020, 14:32
4-4, Audio_Chapter 4-4 Antenna and arrays - 3. Arrays
15.11.2020, 17:50
3-3, Audio_Chapter 3_3 - 3 Reflectogram
15.10.2020, 14:28
4-2, Audio_Chapter 4-2b 2. Electrostatic transduction equations and analogue scheme
06.11.2020, 11:17
4-2, Audio_Chapter 4-2a 1. Electrodynamic tranducer presentation
30.10.2020, 14:33
2-2, Audio_Chapter2_2 - 3 Pitch and frequency
25.09.2020, 15:57
2-2, Audio_Chapter2_2 - 2 Loudness and sound level
25.09.2020, 15:56
4-1, Audio_Chapter4_1 3. Analogue electrical schemes representing acoustic wave propagation
28.10.2020, 18:37
4-3, Audio_Chapter4_3 - 4. Radiation of the piston
09.11.2020, 15:59
4-4, Audio_Chapter 4-4 Antenna and arrays - 2. Phased linear antenna
15.11.2020, 17:49
5-2, audio_Chapter5_2 - 3. Electrodynamic loudspeaker electric scheme
30.11.2020, 17:28
4-1, Audio_Chapter4_1 2. Analogues electrical schemes of simple mechanical systems
27.10.2020, 10:26
2-2, Audio_Chapter2_2 - 3 Pitch and frequency
25.09.2020, 15:57
3-3, Audio_Chapter 3_3 - 3 Reflectogram
15.10.2020, 14:28
5-2, audio_Chapter5_2 - 4. Electrodynamic loudspeaker Thiele Small parameters
30.11.2020, 17:29
3-3, Audio_Chapter 3_3 - 1 Introduction
15.10.2020, 14:26
4-2, Audio_Chapter 4-2b 2. Electrostatic transduction equations and analogue scheme
06.11.2020, 11:17
6, Room modes equalization with Electroacoustic Absorbers - 3. Spatial distribution of pressure in the room
11.12.2020, 20:10
3-3, Audio_Chapter 3_3 - 5 Simulation, examples and conclusions
15.10.2020, 14:30
4-1, Audio_Chapter4_1 1. Electrical-mechanical analogies
26.10.2020, 15:23
2-1, Audio_Chapter2_1 - 1 The auditory system
19.09.2020, 15:23
6, audio_chapter 6 - Electroacoustic absorbers - 4. Performance evaluation and conclusions
05.12.2020, 17:23
5-2, audio_Chapter5_2 - 3. Electrodynamic loudspeaker electric scheme
30.11.2020, 17:28
6, Room modes equalization with Active Electroacoustic Absorbers - 1. Introduction
10.12.2020, 11:53
4-3, Audio_Chapter4_3 - 3. Randomly vibrating spheres
08.11.2020, 19:52
4-3, Audio_Chapter4_3 - 3. Randomly vibrating spheres
08.11.2020, 19:52
3-4, Audio_chapter3_4 - 2 Reverberation time measurements
18.10.2020, 12:28
4-1, Audio_Chapter4_1 3. Analogue electrical schemes representing acoustic wave propagation
28.10.2020, 18:37
4-4, Audio Chapter 4-4_COMSOL example 2: phased linear antenna
24.11.2021, 15:52
4-4, Audio_Chapter 4-4 Antenna and arrays - 3. Arrays
15.11.2020, 17:50
5-1, audio_Chapter 5_1-2. Microphone design generalities
22.11.2020, 20:01
2-2, Audio_Chapter2_2 - 1 Introduction
25.09.2020, 15:54
5-2, audio_Chapter5_2 - 1. Introduction on loudspeaker radiation
30.11.2020, 16:12
1, Audio_Chapter1
22.09.2021, 11:50
4-2, Audio_Chapter 4-2 Introduction
30.10.2020, 13:39
4-3, Audio_Chapter 4-3 - COMSOL Example 6: Piston in a screen
17.11.2020, 14:12
4-2, Audio_Chapter 4-2b 2. Electrostatic transduction equations and analogue scheme
06.11.2020, 11:17
4-2, Audio_Chapter 4-2a 2. Electrodynamic tranducer equations and analogue schemes
30.10.2020, 14:36
4-3, Audio_Chapter 4-3 - COMSOL Example 7: Free piston
17.11.2020, 15:23
4-3, Audio_Chapter 4-3 - COMSOL Example 8: Piston on a box
18.11.2020, 18:54
2-3, Audio_Chapter2_3-3 Sound Pressure Level-meter
02.10.2020, 18:30
6, Room modes equalization with Electroacoustic Absorbers - 3. Spatial distribution of pressure in the room
11.12.2020, 20:10
2-2, Audio_Chapter2_2 - 3 Pitch and frequency
25.09.2020, 15:57
5-3, audio_Chapter5-3_Loudspeaker systems
02.12.2020, 13:27
3-3, Audio_Chapter 3_3 - 1 Introduction
15.10.2020, 14:26
1, Audio_Chapter1
22.09.2021, 11:50
5-2, audio_Chapter5_2 - 4. Electrodynamic loudspeaker Thiele Small parameters
30.11.2020, 17:29
4-1, Audio_Chapter4_1 1. Electrical-mechanical analogies
26.10.2020, 15:23
6, audio_chapter 6 - Electroacoustic absorbers - 1. Introduction
05.12.2020, 17:20
2-2, Audio_Chapter2_2 - 1 Introduction
25.09.2020, 15:54
4-1, Audio_Chapter4_1 3. Analogue electrical schemes representing acoustic wave propagation
28.10.2020, 18:37
3-3, Audio_Chapter 3_3 - 5 Simulation, examples and conclusions
15.10.2020, 14:30
3-1, Audio_Chapter 3_1-1 Duct modes
09.10.2020, 12:08
3-1, Audio_Chapter 3_1 - 0 Room modes
13.10.2020, 15:25
6, Room modes equalization with Electroacoustic Absorbers - 4. Time decay of room modes
11.12.2020, 21:33
4-4, Audio_Chapter 4-4 Antenna and arrays - 3. Arrays
15.11.2020, 17:50
4-3, Audio Chapter 4-3_COMSOL example 5: the cardioid source
24.11.2021, 15:37
4-3, Audio_Chapter 4-3 - COMSOL Example 6: Piston in a screen
17.11.2020, 14:12
5-2, audio_Chapter5_2 - 6. Electrodynamic loudspeaker electric response and high frequency behaviour
30.11.2020, 23:44
6, audio_chapter 6 - Electroacoustic absorbers - 4. Performance evaluation and conclusions
05.12.2020, 17:23
2-3, Audio_Chapter2_3-2 Factors impacting noise
02.10.2020, 18:30
4-4, Audio Chapter 4-4_COMSOL example 2: phased linear antenna
24.11.2021, 15:52
5-1, audio_Chapter 5_1-2. Microphone design generalities
22.11.2020, 20:01
3-1, Audio_Chapter 3_1 - 3 Solutions of the wave equation in 3D
09.10.2020, 14:31
3-4, Audio_chapter3_4 - 4 Reverberated level
19.10.2020, 10:46
3-3, Audio_Chapter 3_3 - 3 Reflectogram
15.10.2020, 14:28
4-3, Audio Chapter 4-3_COMSOL example 4: the doublet
23.11.2021, 10:46
3-4, Audio_Chapter3_4 - 1 Sabine's law
18.10.2020, 12:19
2-3, Audio_Chapter2_3-2 Factors impacting noise
02.10.2020, 18:30
5-1, Audio_Chapter 5-1 - 1. Introduction
22.11.2020, 19:41
4-4, Audio Chapter 4-4_COMSOL example 1: uniform linear antenna
23.11.2021, 16:07
4-3, Audio Chapter 4-3_COMSOL example 5: the cardioid source
24.11.2021, 15:37
3-4, Audio_chapter3_4 - 2 Reverberation time measurements
18.10.2020, 12:28
5-3, audio_Chapter5-3_Loudspeaker systems
02.12.2020, 13:27
4-1, Audio_Chapter4_1 2. Analogues electrical schemes of simple mechanical systems
27.10.2020, 10:26
5-2, audio_Chapter5_2 - 5. Electrodynamic loudspeaker acoustic response
30.11.2020, 17:29
4-3, Audio_Chapter4-3 - 1.The pulsating sphere and the monopole
08.11.2020, 11:44
3-4, Audio_chapter3_4 - 3 Absorbing materials
19.10.2020, 10:45
3-3, Audio_Chapter 3_3 - 2 Effects of reflections
15.10.2020, 14:27
4-3, Audio_Chapter4-3 - 1.The pulsating sphere and the monopole
08.11.2020, 11:44
3-4, Audio_Chapter3_4 - 1 Sabine's law
18.10.2020, 12:19
6, Room modes equalization with Active Electroacoustic Absorbers - 1. Introduction
10.12.2020, 11:53
4-2, Audio_Chapter 4-2a 1. Electrodynamic tranducer presentation
30.10.2020, 14:33
5-2, audio_Chapter5_2 - 5. Electrodynamic loudspeaker acoustic response
30.11.2020, 17:29
4-2, Audio_Chapter 4-2a 1. Electrodynamic tranducer presentation
30.10.2020, 14:33
4-3, Audio Chapter 4-3_COMSOL Example 2: The monopole
22.11.2021, 15:17
5-1, audio_Chapter 5_1-In class explanations
25.11.2020, 11:41
2-1, Audio_Chapter2_1 - 1 The auditory system
19.09.2020, 15:23
4-3, Audio_Chapter 4-3 - COMSOL Example 6: Piston in a screen
17.11.2020, 14:12
4-1, Audio_Chapter4_1 3. Analogue electrical schemes representing acoustic wave propagation
28.10.2020, 18:37
5-2, audio_Chapter5_2 - 3. Electrodynamic loudspeaker electric scheme
30.11.2020, 17:28
6, Room modes equalization with Electroacoustic Absorbers - 2. Frequency response of the room
10.12.2020, 12:03
2-2, Audio_Chapter2_2 - 3 Pitch and frequency
25.09.2020, 15:57
5-1, audio_Chapter 5_1-3. Microphone theory
22.11.2020, 21:12
4-3, Audio_Chapter 4-3 - COMSOL Example 8: Piston on a box
18.11.2020, 18:54
4-4, Audio_Chapter 4-4 Antenna and arrays - 2. Phased linear antenna
15.11.2020, 17:49
4-4, Audio_Chapter 4-4 Antenna and arrays - 1. Uniform Linear Antenna
15.11.2020, 17:48
3-3, Audio_Chapter 3_3 - 4 Room acoustics quality criteria
15.10.2020, 14:29
4-3, Audio_Chapter4_3 - 3. Randomly vibrating spheres
08.11.2020, 19:52
5-1, audio_Chapter 5_1-3. Microphone theory
22.11.2020, 21:12
5-2, audio_Chapter5_2 - 1. Introduction on loudspeaker radiation
30.11.2020, 16:12
4-3, Audio_Chapter4_3 - 4. Radiation of the piston
09.11.2020, 15:59
3-1, Audio_Chapter 3_1 - 3 Solutions of the wave equation in 3D
09.10.2020, 14:31
3-1, Audio_Chapter 3_1 - 2 Room modes
09.10.2020, 14:30
1, Audio_Chapter1
22.09.2021, 11:50
4-3, Audio_Chapter 4-3 - COMSOL Example 7: Free piston
17.11.2020, 15:23
2-2, Audio_Chapter2_2 - 2 Loudness and sound level
25.09.2020, 15:56
5-2, audio_Chapter5_2 - 1. Introduction on loudspeaker radiation
30.11.2020, 16:12
6, audio_chapter 6 - Electroacoustic absorbers - 1. Introduction
05.12.2020, 17:20
2-3, Audio_Chapter2_3-4 Averaged Levels
02.10.2020, 18:32
3-3, Audio_Chapter 3_3 - 3 Reflectogram
15.10.2020, 14:28
4-3, Audio Chapter 4-3 COMSOL example 1: The pulsating sphere (2021)
10.11.2021, 15:42
6, audio_chapter 6 - Electroacoustic absorbers - 2. Control design
05.12.2020, 17:21
4-2, Audio_Chapter 4-2b 1. Electrostatic transduction presentation
06.11.2020, 11:14
3-4, Audio_chapter3_4 - 4 Reverberated level
19.10.2020, 10:46
4-1, Audio_Chapter4_1 2. Analogues electrical schemes of simple mechanical systems
27.10.2020, 10:26
2-1, Audio_Chapter2_1 - 1 The auditory system
19.09.2020, 15:23
3-1, Audio_Chapter 3_1 - 0 Room modes
13.10.2020, 15:25
2-3, Audio_Chapter2_3-3 Sound Pressure Level-meter
02.10.2020, 18:30
5-2, audio_Chapter5_2 - 6. Electrodynamic loudspeaker electric response and high frequency behaviour
30.11.2020, 23:44
5-1, audio_Chapter 5_1-2. Microphone design generalities
22.11.2020, 20:01
4-3, Audio_Chapter4_3 - 2. Doublets and dipoles
08.11.2020, 11:58
4-3, Audio_Chapter 4-3 - COMSOL Example 8: Piston on a box
18.11.2020, 18:54
4-1, Audio_Chapter4_1 4. Analogue electrical schemes of small acoustic elements
28.10.2020, 18:41
4-1, Audio_Chapter4_1 4. Analogue electrical schemes of small acoustic elements
28.10.2020, 18:41
4-1, Audio_Chapter4_1 5. Example of analogue circuit of a simple acoustic system
28.10.2020, 18:43
0, Audio - Presentation of the semester and virtual visit of the acoustic facilities
19.09.2020, 15:15
6, audio_chapter 6 - Electroacoustic absorbers - 2. Control design
05.12.2020, 17:21
3-1, Audio_Chapter 3_1 - 2 Room modes
09.10.2020, 14:30
4-2, Audio_Chapter 4-2 Introduction
30.10.2020, 13:39
2-3, Audio_Chapter2_3-2 Factors impacting noise
02.10.2020, 18:30
4-3, Audio_Chapter 4-3 - COMSOL Example 7: Free piston
17.11.2020, 15:23
6, audio_chapter 6 - Electroacoustic absorbers - 1. Introduction
05.12.2020, 17:20
3-4, Audio_chapter3_4 - 4 Reverberated level
19.10.2020, 10:46
6, Room modes equalization with Electroacoustic Absorbers - 4. Time decay of room modes
11.12.2020, 21:33
6, Room modes equalization with Electroacoustic Absorbers - 4. Time decay of room modes
11.12.2020, 21:33
4-3, Audio Chapter 4-3_COMSOL Example 2: The monopole
22.11.2021, 15:17
6, audio_chapter 6 - Electroacoustic absorbers - 1. Introduction
05.12.2020, 17:20
3-3, Audio_Chapter 3_3 - 5 Simulation, examples and conclusions
15.10.2020, 14:30
4-2, Audio_Chapter 4-2a 2. Electrodynamic tranducer equations and analogue schemes
30.10.2020, 14:36
3-4, Audio_chapter3_4 - 3 Absorbing materials
19.10.2020, 10:45
3-1, Audio_Chapter 3_1 - 4 Characteristics of room modes
09.10.2020, 14:32
5-2, audio_Chapter5_2 - 5. Electrodynamic loudspeaker acoustic response
30.11.2020, 17:29
3-4, Audio_Chapter3_4 - 1 Sabine's law
18.10.2020, 12:19
2-2, Audio_Chapter2_2 - 4 Masking
25.09.2020, 16:45
4-3, Audio Chapter 4-3 COMSOL example 1: The pulsating sphere (2021)
10.11.2021, 15:42
2-3, Audio_Chapter2_3-3 Sound Pressure Level-meter
02.10.2020, 18:30
6, audio_chapter 6 - Electroacoustic absorbers - 3. Performance optimization
05.12.2020, 17:22
4-3, Audio_Chapter4_3 - 4. Radiation of the piston
09.11.2020, 15:59
3-1, Audio_Chapter 3_1-1 Duct modes
09.10.2020, 12:08
4-3, Audio_Chapter4_3 - 2. Doublets and dipoles
08.11.2020, 11:58
2-3, Audio_Chapter2_3-4 Averaged Levels
02.10.2020, 18:32
4-4, Audio Chapter 4-4_COMSOL example 1: uniform linear antenna
23.11.2021, 16:07
4-1, Audio_Chapter4_1 4. Analogue electrical schemes of small acoustic elements
28.10.2020, 18:41
3-1, Audio_Chapter 3_1-1 Duct modes
09.10.2020, 12:08
4-3, Audio_Chapter4_3 - 2. Doublets and dipoles
08.11.2020, 11:58
6, audio_chapter 6 - Electroacoustic absorbers - 5. Experimental evaluation of broadband perfect sound absorber
05.12.2020, 17:32
6, audio_chapter 6 - Electroacoustic absorbers - 5. Experimental evaluation of broadband perfect sound absorber
05.12.2020, 17:32
5-1, Audio_Chapter 5-1 - 1. Introduction
22.11.2020, 19:41
3-3, Audio_Chapter 3_3 - 2 Effects of reflections
15.10.2020, 14:27
4-1, Audio_Chapter4_1 1. Electrical-mechanical analogies
26.10.2020, 15:23
5-1, audio_Chapter 5_1-In class explanations
25.11.2020, 11:41
3-1, Audio_Chapter 3_1 - 3 Solutions of the wave equation in 3D
09.10.2020, 14:31
4-1, Audio_Chapter4_1 5. Example of analogue circuit of a simple acoustic system
28.10.2020, 18:43
4-2, Audio_Chapter 4-2a 2. Electrodynamic tranducer equations and analogue schemes
30.10.2020, 14:36
3-4, Audio_chapter3_4 - 2 Reverberation time measurements
18.10.2020, 12:28
6, Room modes equalization with Electroacoustic Absorbers - 2. Frequency response of the room
10.12.2020, 12:03
4-1, Audio_Chapter4_1 5. Example of analogue circuit of a simple acoustic system
28.10.2020, 18:43
5-2, audio_Chapter5_2 - 3. Electrodynamic loudspeaker electric scheme
30.11.2020, 17:28
3-4, Audio_chapter3_4 - 3 Absorbing materials
19.10.2020, 10:45
5-1, audio_Chapter 5_1-2. Microphone design generalities
22.11.2020, 20:01
6, audio_chapter 6 - Electroacoustic absorbers - 5. Experimental evaluation of broadband perfect sound absorber
05.12.2020, 17:32
2-3, Audio_Chapter2_3-1 Introduction.mp4
02.10.2020, 18:28
5-1, audio_Chapter 5_1-3. Microphone theory
22.11.2020, 21:12
6, audio_chapter 6 - Electroacoustic absorbers - 3. Performance optimization
05.12.2020, 17:22
5-2, audio_Chapter5_2 - 4. Electrodynamic loudspeaker Thiele Small parameters
30.11.2020, 17:29
4-4, Audio_Chapter 4-4 Antenna and arrays - 2. Phased linear antenna
15.11.2020, 17:49
2-2, Audio_Chapter2_2 - 1 Introduction
25.09.2020, 15:54
4-3, Audio Chapter 4-3_COMSOL example 4: the doublet
23.11.2021, 10:46
4-2, Audio_Chapter 4-2b 2. Electrostatic transduction equations and analogue scheme
06.11.2020, 11:17
5-2, audio_Chapter5_2 - 5. Electrodynamic loudspeaker acoustic response
30.11.2020, 17:29
5-3, audio_Chapter5-3_Loudspeaker systems
02.12.2020, 13:27
4-3, Audio Chapter 4-3_COMSOL example 3: The dipole
22.11.2021, 16:28
2-3, Audio_Chapter2_3-1 Introduction.mp4
02.10.2020, 18:28
5-2, audio_Chapter5_2 - 2. Electrodynamic loudspeaker acoustic scheme
30.11.2020, 16:14
5-2, audio_Chapter5_2 - 4. Electrodynamic loudspeaker Thiele Small parameters
30.11.2020, 17:29
5-2, audio_Chapter5_2 - 2. Electrodynamic loudspeaker acoustic scheme
30.11.2020, 16:14
4-1, Audio_Chapter4_1 2. Analogues electrical schemes of simple mechanical systems
27.10.2020, 10:26
4-4, Audio Chapter 4-4_COMSOL example 1: uniform linear antenna
23.11.2021, 16:07
4-2, Audio_Chapter 4-2b 1. Electrostatic transduction presentation
06.11.2020, 11:14
2-2, Audio_Chapter2_2 - 4 Masking
25.09.2020, 16:45
3-3, Audio_Chapter 3_3 - 4 Room acoustics quality criteria
15.10.2020, 14:29
3-3, Audio_Chapter 3_3 - 2 Effects of reflections
15.10.2020, 14:27
0, Audio - Presentation of the semester and virtual visit of the acoustic facilities
19.09.2020, 15:15
3-1, Audio_Chapter 3_1 - 4 Characteristics of room modes
09.10.2020, 14:32
4-3, Audio Chapter 4-3_COMSOL example 4: the doublet
23.11.2021, 10:46
3-3, Audio_Chapter 3_3 - 2 Effects of reflections
15.10.2020, 14:27
6, audio_chapter 6 - Electroacoustic absorbers - 4. Performance evaluation and conclusions
05.12.2020, 17:23
4-3, Audio_Chapter 4-3 - COMSOL Example 7: Free piston
17.11.2020, 15:23
5-2, audio_Chapter5_2 - 6. Electrodynamic loudspeaker electric response and high frequency behaviour
30.11.2020, 23:44
3-4, Audio_chapter3_4 - 3 Absorbing materials
19.10.2020, 10:45
4-4, Audio Chapter 4-4_COMSOL example 2: phased linear antenna
24.11.2021, 15:52
6, audio_chapter 6 - Electroacoustic absorbers - 3. Performance optimization
05.12.2020, 17:22
2-3, Audio_Chapter2_3-2 Factors impacting noise
02.10.2020, 18:30
3-3, Audio_Chapter 3_3 - 4 Room acoustics quality criteria
15.10.2020, 14:29
4-3, Audio_Chapter4_3 - 4. Radiation of the piston
09.11.2020, 15:59
5-2, audio_Chapter5_2 - 2. Electrodynamic loudspeaker acoustic scheme
30.11.2020, 16:14
4-2, Audio_Chapter 4-2 Introduction
30.10.2020, 13:39
4-4, Audio_Chapter 4-4 Antenna and arrays - 1. Uniform Linear Antenna
15.11.2020, 17:48
2-3, Audio_Chapter2_3-4 Averaged Levels
02.10.2020, 18:32
6, Room modes equalization with Electroacoustic Absorbers - 3. Spatial distribution of pressure in the room
11.12.2020, 20:10
4-3, Audio_Chapter4-3 - 1.The pulsating sphere and the monopole
08.11.2020, 11:44
4-3, Audio Chapter 4-3 COMSOL example 1: The pulsating sphere (2021)
10.11.2021, 15:42
6, Room modes equalization with Electroacoustic Absorbers - 2. Frequency response of the room
10.12.2020, 12:03
4-3, Audio Chapter 4-3_COMSOL Example 2: The monopole
22.11.2021, 15:17
2-2, Audio_Chapter2_2 - 2 Loudness and sound level
25.09.2020, 15:56
3-1, Audio_Chapter 3_1 - 2 Room modes
09.10.2020, 14:30
2-3, Audio_Chapter2_3-3 Sound Pressure Level-meter
02.10.2020, 18:30
4-2, Audio_Chapter 4-2b 1. Electrostatic transduction presentation
06.11.2020, 11:14
2-1, Audio_Chapter2_1 - 1 The auditory system
19.09.2020, 15:23
3-3, Audio_Chapter 3_3 - 5 Simulation, examples and conclusions
15.10.2020, 14:30
4-2, Audio_Chapter 4-2b 1. Electrostatic transduction presentation
06.11.2020, 11:14
3-1, Audio_Chapter 3_1 - 0 Room modes
13.10.2020, 15:25
4-4, Audio_Chapter 4-4 Antenna and arrays - 1. Uniform Linear Antenna
15.11.2020, 17:48
5-1, audio_Chapter 5_1-In class explanations
25.11.2020, 11:41
2-2, Audio_Chapter2_2 - 4 Masking
25.09.2020, 16:45
5-1, audio_Chapter 5_1-3. Microphone theory
22.11.2020, 21:12
6, audio_chapter 6 - Electroacoustic absorbers - 3. Performance optimization
05.12.2020, 17:22
4-3, Audio Chapter 4-3_COMSOL example 3: The dipole
22.11.2021, 16:28
3-1, Audio_Chapter 3_1 - 0 Room modes
13.10.2020, 15:25
4-4, Audio_Chapter 4-4 Antenna and arrays - 1. Uniform Linear Antenna
15.11.2020, 17:48
0, Audio - Presentation of the semester and virtual visit of the acoustic facilities
19.09.2020, 15:15
2-3, Audio_Chapter2_3-1 Introduction.mp4
02.10.2020, 18:28
4-3, Audio Chapter 4-3_COMSOL example 5: the cardioid source
24.11.2021, 15:37
4-1, Audio_Chapter4_1 5. Example of analogue circuit of a simple acoustic system
28.10.2020, 18:43
5-2, audio_Chapter5_2 - 6. Electrodynamic loudspeaker electric response and high frequency behaviour
30.11.2020, 23:44
4-3, Audio_Chapter4_3 - 3. Randomly vibrating spheres
08.11.2020, 19:52
4-1, Audio_Chapter4_1 4. Analogue electrical schemes of small acoustic elements
28.10.2020, 18:41
6, Room modes equalization with Electroacoustic Absorbers - 3. Spatial distribution of pressure in the room
11.12.2020, 20:10
4-3, Audio_Chapter 4-3 - COMSOL Example 6: Piston in a screen
17.11.2020, 14:12
4-3, Audio Chapter 4-3 COMSOL example 1: The pulsating sphere (2021)
10.11.2021, 15:42
5-1, Audio_Chapter 5-1 - 1. Introduction
22.11.2020, 19:41
6, audio_chapter 6 - Electroacoustic absorbers - 2. Control design
05.12.2020, 17:21
3-1, Audio_Chapter 3_1 - 3 Solutions of the wave equation in 3D
09.10.2020, 14:31
2-2, Audio_Chapter2_2 - 1 Introduction
25.09.2020, 15:54
4-3, Audio_Chapter4-3 - 1.The pulsating sphere and the monopole
08.11.2020, 11:44
4-3, Audio Chapter 4-3_COMSOL example 4: the doublet
23.11.2021, 10:46
6, audio_chapter 6 - Electroacoustic absorbers - 2. Control design
05.12.2020, 17:21
4-4, Audio Chapter 4-4_COMSOL example 1: uniform linear antenna
23.11.2021, 16:07
3-3, Audio_Chapter 3_3 - 4 Room acoustics quality criteria
15.10.2020, 14:29
4-2, Audio_Chapter 4-2a 1. Electrodynamic tranducer presentation
30.10.2020, 14:33
2-2, Audio_Chapter2_2 - 2 Loudness and sound level
25.09.2020, 15:56
6, audio_chapter 6 - Electroacoustic absorbers - 5. Experimental evaluation of broadband perfect sound absorber
05.12.2020, 17:32
6, Room modes equalization with Electroacoustic Absorbers - 4. Time decay of room modes
11.12.2020, 21:33
2-2, Audio_Chapter2_2 - 4 Masking
25.09.2020, 16:45
Presentation of the lecture
This lecture is oriented towards the study of audio engineering, with a special focus on room acoustics applications. The learning outcomes will be the techniques for microphones and loudspeaker design, sound radiation and acoustic antenna principles, as well as room acoustics knowledge.
(click on the hyperlinks to download the presentations)
_________________________________________________________________________________________________Presentation of the lecture
Support books
General topics
- M. Rossi, Audio, Presses Polytechniques et Universitaires Romandes, 2007
- V. Martin, Elements d'acoustique générale, PPUR, 2007
- J. Blauert, N. Xiang, Acoustics for engineers, Springer 2009
- E. Zwicker and R. Feldtkeller, The Ear as a Communication Receiver, Acoustical Society of America, 1999. ISBN: 1-56396-881-9
- B.C.J. Moore, An introduction to the Psychology of Hearing, Academic Press, 1989. ISBN: 0-12-505623-0
Online resources
Lexicon of the lecture
Chapter I: Introduction
Chapter II: Hearing
Exercises
Additional links:
- SUVA documentation: limit values at work and protective measures (French, German, Italian)
- World Health Organization report: "Burden of disease from environmental noise" (2011)
- ADEME report:"Coût social du bruit en France" (2021) (French)
Chapter III: Room acoustics
Chapter IV: Electroacoustic systems and transducers
- Electroacoustic analogies
- Electromechanical transducers:
- Sound radiation principles
- Acoustic antenna and arrays
Chapter V: Microphones and loudspeakers design
- notes on how to derive the power radiated by loudspeaker systems (closed-box and vented-box)
- Richard Small's paper on loudspeaker system analysis
- Richard Small's paper on loudspeaker system synthesis
Exercises
Chapter VI: Introduction to electroacoustic absorption
Presentation of the lecture on Audio Engineering 2022-2023
Chapter 1: Introduction to acoustics
In addition to the presentation, I recommend you read the 1st chapter of book Acoustics for Engineers (pages 1-10), and see Dan Russell's physics animation.
Chapter 2.2: Auditory demonstrations
Chapter 2.2: 1-Introduction
Chapter 2.2: 2-Loudness and Sound Pressure Level
Chapter 2.2: 3-Pitch and Frequency
Chapter 2.2: 4-Masking
- An introduction to psychoacoustics - audio examples (Folder)
- Auditory examples - online questionnaire results (Page)
Chapter 2.3: Noise and its effects
Chapter 3.1: Wave theory of room acoustics
Chapter 3.2: Geometrical room acoustics
Chapter 3.2: 1- Introduction
Chapter 3.2: 2- Effects of reflections
Chapter 3.2: 3- Reflectogram
Chapter 3.2: 4- Room acoustics quality criteria
Chapter 3.2: 5- Simulations, examples and conclusions
Support :
- Chapter 4 of H. Kuttruff book "Room Acoustics"
- Chapter 12 of J. Blauert book "Acoustics for Engineers"
Reminder on Electroacoustic Analogies
Important note:
This lecture is a reminder of
what is considered a prerequisite for the following lectures on
microphones and loudspeakers design. Therefore, I will go very quickly
to cover what takes several weeks at Bachelor's level. To further
understand the following
video presentations, I advise that you read Chapters 2 and 3 (for
electroacoustic analogies), and Chapters 5 and 6 (for electromechanical
transductions) of the book Acoustics for Engineers by
J. Blauert and N. Xiang, or alternatively, Chapter 6
(electroacoustic analogies) and 7 (electromechanical transducers) of the
book Audio by M. Rossi.
Chapter IV.1: Electroacoustic analogies
Chapter 4.1: 1-Electrical-mechanical analogies
Chapter 4.1: 2-Analogues electrical schemes of simple mechanical systems
Chapter 4.1: 3-Analogue electrical schemes representing acoustic wave propagation
Chapter 4.1: 4-Analogue electrical schemes of small acoustic elements
Chapter 4.1: 5-Examples of analogue circuit of a simple acoustic system
Chapter IV.2: Electromechanical transducers
3 November - 9 November
10 November - 16 November
Note:
Morse, Ingard - Theoretical Acoustics (1968) - Chapter 7
Radiation of sources
Illustrations with COMSOL Multiphysics - tutorial
1. Simulation of the Pulsating sphere and the monopole
2. Simulation of the dipole and the doublet, and the cardioid source
3. Simulation of the piston
Chapter 4.4: Antenna and arrays
Illustrations with COMSOL Multiphysics - tutorial
1. The Uniform Linear Antenna
2. The Phased Linear Antenna
Chapter 5.1: Microphones theory and design
Chapter 5.2: Electrodynamic loudspeaker
Chapter 5.2: 1-Introduction
Chapter 5.2: 2-Electrodynamic loudspeaker acoustic scheme
Chapter 5.2: 3-Electrodynamic loudspeaker electric scheme
Chapter 5.2: 4-Thiele-Small parameters
Chapter 5.2: 5-Acoustic response
Chapter 5.2: 6-Electric response and high-frequency behaviour
Seminar: Electroacoustic absorbers
Additional material (videos)
Forum Acusticum 2020 presentation (15'):
Experimental demonstration of active Electroacoustic Absorbers for the damping of room modes at low frequencies (~30')
Introduction (5'41")
Frequency response of the room (18'04")
Spatial distribution of pressure in the room (3'07")
Time decay of room modes (3'47")
Exam - January 16, 2025
Dear students,
here's the exam of this year and its hand-written corrections. There was a typo on Exercise 1 - question 4 that has been corrected during the exam.
I wish you all the best for the following. Regards,
Hervé Lissek
Exam 2024
Here's the exam of 2024 and its correction.
BR,
Hervé