CTU FEE Moodle
Audio Technology 2
B241 - Winter 24/25
This is a grouped Moodle course. It consists of several separate courses that share learning materials, assignments, tests etc. Below you can see information about the individual courses that make up this Moodle course.
Audio Technology 2 - B2M37ZV2A
Main course
Credits | 6 |
Semesters | Summer |
Completion | Assessment + Examination |
Language of teaching | Czech |
Extent of teaching | 2P+2L |
Annotation
This course deals with advanced topics related to audio technology in recording studios, namely room acoustics, multichannel signal recording and reproduction, digital audio signal processing, its impact on auditory perception, audio signal optimization from the psychoacoustic point of view.
Study targets
Students acquire knowledge on fundamentals and applications of room acoustics and principles of sound signal processing in recording studio practice.
Course outlines
1. Acoustics of closed spaces
2. Subjective and objective methods of room acoustics evaluation
3. Design in room acoustics
4. Measuring methods in room acoustics
5. Acoustics in small spaces
6. Sound insulation
7. Sound reinforcement.
8. Audio signal discretization. Dithering.
9. Psychoacoustical optimization of acoustic signals
10. Digital signal recording. Recording formats.
11. Magnetic analog audio recording
12. Mechanical and optical analog audio recording
13. Digital restoration of archive audio recordings
14. Multichannel sound pickup, processing and spatial audio reproduction. Compression of multichannel audio.
2. Subjective and objective methods of room acoustics evaluation
3. Design in room acoustics
4. Measuring methods in room acoustics
5. Acoustics in small spaces
6. Sound insulation
7. Sound reinforcement.
8. Audio signal discretization. Dithering.
9. Psychoacoustical optimization of acoustic signals
10. Digital signal recording. Recording formats.
11. Magnetic analog audio recording
12. Mechanical and optical analog audio recording
13. Digital restoration of archive audio recordings
14. Multichannel sound pickup, processing and spatial audio reproduction. Compression of multichannel audio.
Exercises outlines
1. Introduction
2. Room acoustics design
3. Optimum sound reinforcement
4. Measurement in room acoustics
5. Visit to reverberation room
6. Auralization
7. Subjective evaluation of multichannel sound pickup
8. Analysis of discrete signals
9. Analysis of methods of psychoacoustical optimization
10. Noiseshaping, Delta-sigma modulation
11. Measurement of basic properties of recording on CD, DVD and SACD
12. Measurement of a analog record, digital restoration of archive audio recordings, removal of typical artefacts
13. Field trip
14. Presentations of results, assessment
2. Room acoustics design
3. Optimum sound reinforcement
4. Measurement in room acoustics
5. Visit to reverberation room
6. Auralization
7. Subjective evaluation of multichannel sound pickup
8. Analysis of discrete signals
9. Analysis of methods of psychoacoustical optimization
10. Noiseshaping, Delta-sigma modulation
11. Measurement of basic properties of recording on CD, DVD and SACD
12. Measurement of a analog record, digital restoration of archive audio recordings, removal of typical artefacts
13. Field trip
14. Presentations of results, assessment
Literature
Kahrs, M.- Brandenburg, K.: Applications of Digital Signal Processing to Audio and Acoustics. Boston: Kluwer Academic Publishers. 1998.
Godsill, S.- Rayner, P.:Digital Audio Restoration. Springer-Verlag London. 1998.
Hartmann, W.: Signals, Sound, and Sensation. Woodbury: American Institute of Physics. 1997.
Talbot-Smith, M.: Audio Engineer?s Reference Book. Oxford: Focal Press. 2002.
Eargle, J. : Handbook of recording engineering. Springer 2006
Kuttruff, H.: Room Acoustics Spon Press 2009
Godsill, S.- Rayner, P.:Digital Audio Restoration. Springer-Verlag London. 1998.
Hartmann, W.: Signals, Sound, and Sensation. Woodbury: American Institute of Physics. 1997.
Talbot-Smith, M.: Audio Engineer?s Reference Book. Oxford: Focal Press. 2002.
Eargle, J. : Handbook of recording engineering. Springer 2006
Kuttruff, H.: Room Acoustics Spon Press 2009
Requirements
Input level of knowledge: BE2M99ZVT
Audio Technology 2 - B2M37ZV2
Credits | 5 |
Semesters | Summer |
Completion | Assessment + Examination |
Language of teaching | Czech |
Extent of teaching | 2p+2l |
Annotation
This course deals with advanced topics related to audio technology in recording studios, namely room acoustics, multichannel signal recording and reproduction, digital audio signal processing, its impact on auditory perception, audio signal optimization from the psychoacoustic point of view.
Study targets
Students acquire knowledge on fundamentals and applications of room acoustics and principles of sound signal processing in recording studio practice.
Course outlines
1. Acoustics of closed spaces
2. Subjective and objective methods of room acoustics evaluation
3. Design in room acoustics
4. Measuring methods in room acoustics
5. Acoustics in small spaces
6. Sound insulation
7. Sound reinforcement.
8. Audio signal discretization. Dithering.
9. Psychoacoustical optimization of acoustic signals
10. Digital signal recording. Recording formats.
11. Magnetic analog audio recording
12. Mechanical and optical analog audio recording
13. Digital restoration of archive audio recordings
14. Multichannel sound pickup, processing and spatial audio reproduction. Compression of multichannel audio.
2. Subjective and objective methods of room acoustics evaluation
3. Design in room acoustics
4. Measuring methods in room acoustics
5. Acoustics in small spaces
6. Sound insulation
7. Sound reinforcement.
8. Audio signal discretization. Dithering.
9. Psychoacoustical optimization of acoustic signals
10. Digital signal recording. Recording formats.
11. Magnetic analog audio recording
12. Mechanical and optical analog audio recording
13. Digital restoration of archive audio recordings
14. Multichannel sound pickup, processing and spatial audio reproduction. Compression of multichannel audio.
Exercises outlines
1. Introduction
2. Room acoustics design
3. Optimum sound reinforcement
4. Measurement in room acoustics
5. Visit to reverberation room
6. Auralization
7. Subjective evaluation of multichannel sound pickup
8. Analysis of discrete signals
9. Analysis of methods of psychoacoustical optimization
10. Noiseshaping, Delta-sigma modulation
11. Measurement of basic properties of recording on CD, DVD and SACD
12. Measurement of a analog record, digital restoration of archive audio recordings, removal of typical artefacts
13. Field trip
14. Presentations of results, assessment
2. Room acoustics design
3. Optimum sound reinforcement
4. Measurement in room acoustics
5. Visit to reverberation room
6. Auralization
7. Subjective evaluation of multichannel sound pickup
8. Analysis of discrete signals
9. Analysis of methods of psychoacoustical optimization
10. Noiseshaping, Delta-sigma modulation
11. Measurement of basic properties of recording on CD, DVD and SACD
12. Measurement of a analog record, digital restoration of archive audio recordings, removal of typical artefacts
13. Field trip
14. Presentations of results, assessment
Literature
Kahrs, M.- Brandenburg, K.: Applications of Digital Signal Processing to Audio and Acoustics. Boston: Kluwer Academic Publishers. 1998.
Godsill, S.- Rayner, P.:Digital Audio Restoration. Springer-Verlag London. 1998.
Hartmann, W.: Signals, Sound, and Sensation. Woodbury: American Institute of Physics. 1997.
Talbot-Smith, M.: Audio Engineer?s Reference Book. Oxford: Focal Press. 2002.
Eargle, J. : Handbook of recording engineering. Springer 2006
Kuttruff, H.: Room Acoustics Spon Press 2009
Godsill, S.- Rayner, P.:Digital Audio Restoration. Springer-Verlag London. 1998.
Hartmann, W.: Signals, Sound, and Sensation. Woodbury: American Institute of Physics. 1997.
Talbot-Smith, M.: Audio Engineer?s Reference Book. Oxford: Focal Press. 2002.
Eargle, J. : Handbook of recording engineering. Springer 2006
Kuttruff, H.: Room Acoustics Spon Press 2009
Requirements
Input level of knowledge: BE2M99ZVT