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Trudy SPIIRAN, 2018, Issue 58, Pages 27–52
DOI: https://doi.org/10.15622/sp.58.2
(Mi trspy1005)
 

Artificial Intelligence, Knowledge and Data Engineering

HMM-based whisper recognition using $\mu$-law frequency warping

J. N. Galićab, S. T. Jovičićbc, V. D. Delicda, B. R. Markovićbe, D. S. Šumarac Pavlovićb, Đ. T. Grozdićf

a Universite of Banja Luka
b University of Belgrade
c Life Advancement Activities Center (Belgrade)
d University of Novi Sad
e Čačak Technical College
f Fincore Ltd.
Abstract: Due to the lack of sufficient amount of whisper data for training, whispered speech recognition is a serious challenge for state-of-the-art Automatic Speech Recognition (ASR) systems. Because of great acoustic mismatch between neutral and whispered speech, ASR systems are faced with significant drop of performance when applied to whisper.
In this paper, we give an analysis of neutral and whispered speech recognition based on traditional Hidden Markov Models (HMM) framework, in a Speaker Dependent (SD) and Speaker Independent (SI) cases. Special attention is paid to the neutral-trained recognition of whispered speech (N/W scenario). The ASR system is developed for recognition of isolated words from a real database (Whi-Spe) of neutral-whisper speech pairs. In the N/W scenario, a meaningful gain in robustness is achieved with the proposed frequency warping, originally developed for speech signal compression and expanding in digital telecommunication systems. Simultaneously, good performances in recognition of neutral speech are retained.
Compared to baseline recognition with Mel-frequency Cepstral Coefficients (MFCC), word recognition accuracy with cepstral coefficients using proposed frequency warping (denoted as $\mu$FCC) is improved for 7.36% (SD) and 3.44% (SI), absolute. As well, the $\mathrm{F}$-measure (harmonic mean of the precission and recall) for $\mu$FCC feature vectors is increased for 6.90% (SD) and 3.59 (SI). Statistical tests confirm significance of the achieved improvement in recognition accuracy.
Keywords: automatic speech recognition, feature extraction, hidden Markov models, human voice, whisper, speech processing.
Funding agency Grant number
Ministry of Education, Science and Technical Development of Serbia OI178027
TR32032
TR32035
E!9944
This research is partially supported by the Ministry od Education Science and Technological Development of Republic of Serbia (grants OI178027 TR32032 and TR32035 E!9944).
Received: 15.05.2018
Bibliographic databases:
Document Type: Article
UDC: 004.5
Language: English
Citation: J. N. Galić, S. T. Jovičić, V. D. Delic, B. R. Marković, D. S. Šumarac Pavlović, Ð. T. Grozdić, “HMM-based whisper recognition using $\mu$-law frequency warping”, Tr. SPIIRAN, 58 (2018), 27–52
Citation in format AMSBIB
\Bibitem{GalJovDel18}
\by J.~N.~Gali{\'c}, S.~T.~Jovi{\v{c}}i{\'c}, V.~D.~Delic, B.~R.~Markovi{\'c}, D.~S.~{\v S}umarac Pavlovi{\'c}, {\DJ}.~T.~Grozdi{\'c}
\paper HMM-based whisper recognition using $\mu$-law frequency warping
\jour Tr. SPIIRAN
\yr 2018
\vol 58
\pages 27--52
\mathnet{http://mi.mathnet.ru/trspy1005}
\crossref{https://doi.org/10.15622/sp.58.2}
\elib{https://elibrary.ru/item.asp?id=35630302}
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