Faculty of Electrical Engineering

Czech Technical University in Prague

CTU in Prague

Subject description - B2M31ZRE

Summary of Study | Summary of Branches | All Subject Groups | All Subjects | List of Roles | Explanatory Notes               Instructions
B2M31ZRE Speech Processing Extent of teaching:2p+2c
Guarantors:Pollák P. Roles:P,V Completion:Z,ZK
Teachers:Fiala J., Pollák P.
Responsible Department:13131 Credits:6 Semester:L


The subject is devoted to basis of speech processing addressed to students of master program. Discussed speech technology is currently applied in many systems in different fields (e.g. information dialogue systems, voice controlled devices, dictation systems or transcription of audio-video recordings, support for language teaching, etc.). Students will learn basic algorithms for speech analysis (spectral analysis, LPC, cepstral analysis, pitch, formants, etc.), principles of speech recognition (GMM-HMM, ANN-HMM systems, small and large vocabulary recognizers), speaker recognition (based on VQ and GMM), speech synthesis or speech enhancement. Further information can be found at <a href=http://noel.feld.cvut.cz/vyu/ae2m31zre>http://noel.feld.cvut.cz/vyu/ae2m31zre</a>. Pro zapsané studenty jsou detailní informace na výukovém portálu <a href=https://moodle.fel.cvut.cz>Moodle FEL</a>.

Study targets:

The goals of the subject is to introduce used speech technology in the most important multimedia applications. Students should manage the knowledge as basic characteristics of speech signal, speech enhancement, speech recognition, speech synthesis, audio-visual speech processing, etc. Students will practice basic tasks of speech processing in MATLAB environment and also other publicly available tools for speech analysis will be used. 

Course outlines:

1. Introduction - speech production and perception model, basic characteristics (phonetic and articulatory)
2. Spectral characteristics of speech signal (DFT and LPC spectrum)
3. Cepstral reprezentation of speech. Recognition features. Voice Activity Detection.
4. Speech enahncement (additive and convolution noise, one-channel and multi-channel systems)
5. Basic classification approaches and techniques (GMM, HMM, VQ, ANN, DNN)
6. Speaker verification and identification. Language recognition.
7. Small and large vocabulary speech recognition (DTW, GMM-HMM, LVCSR, HTK and KALDI tools).
8. Modern LVCSR systems (DNN-HMM). Adaptation techniques. Advanced speech features.
9. Speech synthesis - basic principles (concatenative and formant synthesis, PSOLA)
10. Audio-visual speech recognition
11. Speech coding.
12. Hearing aids and cochlear implants (anatomy and hearing model, speech processing)
13. Multimedia systems with voice input (dialog systems, logopaedy, language teaching)
14. Databases for speech technology systems. Reserve.

Exercises outline:

1. Introduction: speech signal, tools for analysis, sources of speech signals
2. Basic time-domain and spectral characteristics
3. Fundamental frequency (pitch) estimaton
4. LPC spectrum and formant estimation
5. Cepstrum and cepstral distance: voice activity detection.
6. Basic classification techniques (GMM, VQ, HMM): vowel classification
7. Speaker verification based on VQ
8. Speaker identification based on GMM
9. DTW based recognition: simple recognizer of particular words
10. HMM based recognition: basic tasks and demonstration of HMM modelling
11. Suppression of additive noise in speech signal
12. Convolutory noise suppression
13. Speech synthesis: implementation of formant synthesis, demonstration of available tools
14. Reserve. Credits


[1] Huang, X. - Acero, A. - Hon, H.-W.: Spoken Language Processing. Prentice Hall 2001.


Bases of digital signal processing are supposed as preliminary knowledge.




speech processing, speech recognition, speech synthesis, speech enhacement, speech technology applications, audio-visual speech processing

Subject is included into these academic programs:

Program Branch Role Recommended semester
MPEK3_2016 Electronics V
MPEK1_2016 Communication Systems and Networks V
MPEK2_2016 Radio and Optical Technology V
MPEK4_2016 Media and Signal Processing P 2

Page updated 19.10.2017 17:48:42, semester: L/2016-7, Z,L/2017-8, Z/2018-9, Send comments about the content to the Administrators of the Academic Programs Proposal and Realization: I. Halaška (K336), J. Novák (K336)
Responsible person: doc. Ing. Jiří Jakovenko, Ph.D.