Acoustic field distribution in speech with the use of the microphone array

Autor

DOI:

https://doi.org/10.5604/01.3001.0010.7743

Słowa kluczowe:

microphone array, 3D acoustic field distribution, adaptive beam-forming, oral, oronasal and nasal articulations

Abstrakt

This article presents a 16-channel microphone-array recorder/processor that allows for a simultaneous and non-invasive detection of oral, oronasal and nasal segments in speech. Such devices and methods have not been used in the research on the articulation of sounds in the world’s languages. In this paper analysis of Polish nasal vowel was presented. Adaptive beamforming method used for rendering three-dimensional acoustic fields of the recorded audio data has been shown.

Statystyka pobrań

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R. Krakow and M. Huffman, Instruments and techniques for investigating nasalization and velopharyngeal function in the laboratory: An introduction. In: M. Huffman and R. Krakow [eds.] Phonetics and Phonology: Nasals, Nasalization, and the Velum, Academic Press, San Diego 1993, pp. 3-59.   Google Scholar

R. J. Baken and R.F. Orlikoff, Clinical measurement of speech and voice, 2nd edition, Taylor and Francis, New York, 2000. 3. F. Bell-Berti, J. Speech. Hear. Res., 1976, 19, 225-240.   Google Scholar

M.P. Karnell, E.J. Seaver, and R.M. Dalston, J. Speech. Hear. Res., 1988, 31, 503-510.   Google Scholar

H. Koneczna, W. Zawadowski, Przekroje rentgenograficzne głosek polskich, PWN, Warszawa, 1951.   Google Scholar

B. Wierzchowska, Fonetyka i fonologia języka polskiego, Zakład Narodowy im. Ossolińskich, Wydawnictwo Polskiej Akademii Nauk Wrocław-Warszawa-Kraków-Gdańsk, 1980.   Google Scholar

K.L. Moll, and R.G. Daniloff, J. Acoust. Soc. Am., 1971, 50, 678-684.   Google Scholar

A. Serrurier, and P. Badin, A three-dimensional linear articulatory model of velum based on MRI data, Proceedings of the 6th Interspeech and 9th European Conference on Speech Communication and Technology, Lisboa, 2005.   Google Scholar

M. Stone, T. Shawker, T. Talbot, A. Rich, J. Acoust. Soc. Am., 1988, 83, 1586-1596.   Google Scholar

S. Horiguchi, and F. Bell-Bertti, Cleft Pal. J., 1987, 24(2), 104-111.   Google Scholar

O. Fujimura, J.E. Miller, S. Kiritani, A computer-controlled x-ray microbeam study of articulatory characteristics of nasal consonants in English and Japanese, Proceedings of 9th International Congress on Acoustics, Madrid, 1977.   Google Scholar

K. Perkell, M. Cohen, M. Svirsky, M. Matthies, I. Garabieta, and M. Jackson, J. Acoust. Soc. Am., 1992, 92, 3078-3096.   Google Scholar

J.J. Ohala, J. Acoust. Soc. Am., 1971, 50(1), 140. 14. D. Warren, Cleft Pal. J., 1967, 16, 279-285.   Google Scholar

M. Rothenberg, J. Speech. Hear. Res., 1977, 20, 155–176.   Google Scholar

S.G Fletcher, and M.E. Bishop, Cleft Pal. J., 1970, 7, 610-621.   Google Scholar

R.M. Dalston, D.W. Warren, and E.T. Dalston, Cleft Pal-Craniofac. J., 1991, 28(2), 184-189.   Google Scholar

D. Król, A. Lorenc, R. Święciński, 2015, Detecting Laterality and Nasality in Speech with the Use of a Multi-Channel recorder, Proceedings of 40th IEEE International Conference on Acoustics, Speech and Signal Processing, Brisbane, 2015.   Google Scholar

A. Lorenc, R. Święciński, D. Król, Assessment of Sound Laterality with the Use of a Multi-Channel Recorder, Proceedings of 18th International Congress of Phonetic Sciences, Glasgow 2015.   Google Scholar

D. Król, Choice of analog-to-digital converters for audio measurements using MLS algorithm, Proceedings of 15th European Signal Processing Conference, Poznań, 2007.   Google Scholar

D. Król, On superiority of Successive Approximation Register over Sigma Delta AD converter in standard audio measurements using Maximum Length Sequences, Proceedings of International Conference on Signals and Electronic Systems, Kraków, 2008.   Google Scholar

D. Król, R. Wielgat, T. Potempa, P. Świętojański, Analysis of Ultrasonic Components in Voices of Chosen Bird Species, Proceedings of Forum Acusticum, Aalborg, 2011.   Google Scholar

O. L. Frost, An algorithm for linearly constrained adaptive array processing. Proceedings of the IEEE, 1972.   Google Scholar

P. Vary, R. Martin, Digital Speech Transmission: Enhancement, Coding and Error Concealment, John Wiley & Sons, 2006.   Google Scholar

D. Król, Macierze mikrofonowe i głośnikowe, In: T.P. Zieliński, P. Korohoda and R. Rumian. Cyfrowe przetwarzanie sygnałów w telekomunikacji: Podstawy, multimedia, transmisja, PWN, Warszawa, 2014, pp. 665-695.   Google Scholar

A. Lorenc, Diagnosis of the pronunciation norm, Logopedia 42, .   Google Scholar

Opublikowane

2017-10-11

Jak cytować

Król, D., & Lorenc, A. (2017). Acoustic field distribution in speech with the use of the microphone array. Science, Technology and Innovation, 4(3), 9–16. https://doi.org/10.5604/01.3001.0010.7743