Audio and Speech Processing by Humans and Machines
|Language of Instruction:||Czech|
|Guarantor:||Heřmanský Hynek, prof. Ing., Dr.Eng., DCGM|
|Lecturer:||Heřmanský Hynek, prof. Ing., Dr.Eng., DCGM|
|Faculty:||Faculty of Information Technology BUT|
|Department:||Department of Computer Graphics and Multimedia FIT BUT|
| || ||3 day intensive course|
Interaction between humans and machines could be greatly enhanced through communication using human sensory signals such as speech. Knowledge of human information processing is critical in the design of such human-machine interfaces. The course covers concept of signal as a carrier of information, basic principles of processing of cognitive signals, and introduces selected phenomena in auditory and visual perception. Students learn how to interpret empirical data, how to incorporate these data in models, and how to apply these models to engineering problems. Emphasis is on active research in auditory modeling that exploits special properties of speech.
The state examination topics:
1. Which property if human hearing is used in almost all existing techniques for speech recognition.
2. Describe structure of human ear.
3. How is frequency analysis of sound done in the ear?
4. How is the information from ear communicated to human brain?
is the general tendency of frequency resolution of human hearing? How
does it differ from frequency resolution of the Fourier analysis?
6. What is auditory masking? What can good for and why?
7. What is simultaneous and forward masking in human hearing?
8. What does loudness of sound depend on?
9. At which frequencies we hear the best?
10. Describe some speech analysis techniques that use more advanced knowledge of human hearing.
|Syllabus of lectures:|
- Day 1
Introduction to processing of information-bearing sensory signals such as speech. Fundamentals of information theory and of pattern classification. Fundamentals of speech production. Conventional techniques for speech analysis (concept of short-term analysis, band-pass filtering, fourier-like transforms, cepstrum, linear prediction).
- Day 2
Fundamentals of human auditory perception. Perception of pitch and loudness. Spectral and temporal resolution of hearing. Masking in frequency and in time. Some important speech perception phenomena.
- Day 3
Introduction to auditory-like speech analysis techniques. Linear discriminant analysis and its use for deriving optimized spectral basis Temporal domain for speech analysis. Dynamic features of speech and RASTA technique. Multi-stream speech recognition. Recognition from temporal patterns and nonlinear discriminant mapping approaches speech.
- Ben Gold and Nelson Morgan: Speech and Audio Signal Processing, Willey and Sons 2000
- Psutka s kolektivem: Hovorime s pocitacem cesky, Akademia Praha 2006