Email this article Quality of Speech Reproduction Using Stochastic Digital Systems of Information Transfer with its Statistical Compaction
- Authors: Bakhtiyarova E.A.1, Kemel’bekov B.Z.2, Bekmagambetova Z.M.1, Lipskaya M.A.1, Chigambaev T.O.1, Orazymbetova A.K.1, Ospanova N.A.1, Mekebaeva A.K.1, Khan V.A.3,4, Mamilov B.E.1
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Affiliations:
- Kazakh Academy of Transport and Communications Named after M. Tynyshpaev
- Kazakh University of Railway Transport
- National Research Tomsk Polytechnic University
- Institute of Atmospheric Optics of the Siberian Branch of the Russian Academy of Sciences
- Issue: Vol 60, No 1 (2017)
- Pages: 190-195
- Section: Mathematical Processing of Physics Experimental Data
- URL: https://journal-vniispk.ru/1064-8887/article/view/237919
- DOI: https://doi.org/10.1007/s11182-017-1059-x
- ID: 237919
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Abstract
Quality of oral speech reproduction using stochastic digital systems of information transfer at its statistical compaction is analyzed (on the example of Russian and Kazakh speeches) with the ratio of the speech signal power to the digitization and restoration noise power taken as quantitative characteristic of speech description. From an analysis of the results obtained it unambiguously follows that for analytical determination of the quality of speech message restoration using stochastic digital transfer systems it is expedient not to resort to approximations, but to use for estimation the experimentally obtained distribution of the probability of the number of successively rejected counts. The preference of the approach with alternating priority is established for a Russian speech message. In consideration of the Kazakh speech, the preference of the approach with alternating priority of the message is revealed. The approach with priority alternation in a count is the best of the three approaches being considered (with fixed priority, priority alternation in the transfer cycle Е1 and priority alternation in a count) for messages of the oral Russian and Kazakh speeches. This significant preference is explained by the influence of successive losses of more than one count on the ratio of the signal to noise power.
About the authors
E. A. Bakhtiyarova
Kazakh Academy of Transport and Communications Named after M. Tynyshpaev
Author for correspondence.
Email: baelag@mail.ru
Kazakhstan, Almaty
B. Zh. Kemel’bekov
Kazakh University of Railway Transport
Email: baelag@mail.ru
Kazakhstan, Almaty
Zh. M. Bekmagambetova
Kazakh Academy of Transport and Communications Named after M. Tynyshpaev
Email: baelag@mail.ru
Kazakhstan, Almaty
M. A. Lipskaya
Kazakh Academy of Transport and Communications Named after M. Tynyshpaev
Email: baelag@mail.ru
Kazakhstan, Almaty
T. O. Chigambaev
Kazakh Academy of Transport and Communications Named after M. Tynyshpaev
Email: baelag@mail.ru
Kazakhstan, Almaty
A. K. Orazymbetova
Kazakh Academy of Transport and Communications Named after M. Tynyshpaev
Email: baelag@mail.ru
Kazakhstan, Almaty
N. A. Ospanova
Kazakh Academy of Transport and Communications Named after M. Tynyshpaev
Email: baelag@mail.ru
Kazakhstan, Almaty
A. K. Mekebaeva
Kazakh Academy of Transport and Communications Named after M. Tynyshpaev
Email: baelag@mail.ru
Kazakhstan, Almaty
V. A. Khan
National Research Tomsk Polytechnic University; Institute of Atmospheric Optics of the Siberian Branch of the Russian Academy of Sciences
Email: baelag@mail.ru
Russian Federation, Tomsk; Tomsk
B. E. Mamilov
Kazakh Academy of Transport and Communications Named after M. Tynyshpaev
Email: baelag@mail.ru
Kazakhstan, Almaty
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