A SYSTEMATIC APPROACH TO THE STUDY OF EXPERIMENTAL PHONETICS

Ergasheva Guli Ismoil qizi

doi:10.36078/1715320775

This article explores the application of a systematic approach in experimental phonetics, which allows for the integration of various aspects of articulation, acoustics, and speech perception to deeply understand the mechanisms of verbal communication. Based on interdisciplinary analysis, the article describes how a systematic approach can contribute to more accurate modeling and visualization of articulatory processes, improve the quality of acoustic analysis, and enhance the accuracy of perception and interpretation of speech signals. The paper presents the main methods and analyzes the relationships between articulatory and acoustic characteristics of speech, as well as their impact on perceptual processes of sound perception. The article emphasizes the importance of a systematic approach for solving complex tasks in experimental phonetics, enabling scientists to effectively integrate data from various studies and provide a more comprehensive understanding of speech processes.

Jurnal nomi“O‘zbekistonda xorijiy tillar” ilmiy-metodik elektron jurnal
Nashr soni№ 2 (55) / 2024
Ko'rishlar soni 25

Internet havola https://journal.fledu.uz/ru/sistemnyj-podhod-k-izucheniyu-eksperimentalnoj-fonetiki/

DOI 10.36078/1715320775

UzSCI tizimida yaratilgan sana 24-10-2024

O'qishlar soni 25

Nashr sanasi 20-04-2024

Asosiy tilIngliz

Sahifalar30-40

Kalit so'z

articulation

systematic approach

speech perception

experimental phonetics

acoustics

methods of experimental phonetics

English

This article explores the application of a systematic approach in experimental phonetics, which allows for the integration of various aspects of articulation, acoustics, and speech perception to deeply understand the mechanisms of verbal communication. Based on interdisciplinary analysis, the article describes how a systematic approach can contribute to more accurate modeling and visualization of articulatory processes, improve the quality of acoustic analysis, and enhance the accuracy of perception and interpretation of speech signals. The paper presents the main methods and analyzes the relationships between articulatory and acoustic characteristics of speech, as well as their impact on perceptual processes of sound perception. The article emphasizes the importance of a systematic approach for solving complex tasks in experimental phonetics, enabling scientists to effectively integrate data from various studies and provide a more comprehensive understanding of speech processes.

Kalit so'z

articulation

systematic approach

speech perception

experimental phonetics

acoustics

methods of experimental phonetics

Ўзбек

Bu maqola eksperimental fonetikaga tizimli yondashuvni qo‘llashni o‘rganadi, bu nutq aloqasi mexanizmlarini tushunish uchun artikulyatsiya, akustika va nutqni idrok etishning turli jihatlarini birlashtirishga imkon beradi. Maqolada fanlararo tahlilga asoslanib, tizimli yondashuv qanday qilib artikulyatsiya jarayonlarini aniqroq modellashtirish va vizualizatsiya qilish, akustik tahlil sifatini yaxshilash va nutq signallarini idrok etish va talqin qilishda aniqlikni oshirish imkonini beradi. Maqolada nutqning artikulyatsion va akustik xususiyatlari o‘rtasidagi bog‘liqlik, shuningdek, tovushni idrok etishning perseptiv jarayonlariga ta’siri asosiy metodlarni taqdim etadi va tahlil qiladi. Maqolada eksperimental fonetikaning murakkab muammolarini hal qilishda tizimli yondashuvning muhimligi ta’kidlangan, bu olimlarga turli tadqiqotlar ma’lumotlarini samarali integratsiya qilish va nutq jarayonlarini to‘liqroq tushunish imkonini beradi.

Kalit so'z

tizimli yondashuv

artikulyatsiya

akustika

eksperimental fonetika

nutqni idrok etish

eksperimental fonetika metodlari

Русский

Эта статья исследует применение системного подхода в экспериментальной фонетике, который позволяет интегрировать различные аспекты артикуляции, акустики и восприятия речи для глубокого понимания механизмов речевого общения. Основываясь на междисциплинарном анализе, статья описывает, как системный подход может способствовать более точному моделированию и визуализации артикуляционных процессов, улучшению качества акустического анализа и повышению точности восприятия и интерпретации речевых сигналов. В работе представлены основные методы исследования артикуляционных и акустических характеристик речи и анализируются взаимосвязи между ними, а также их влияние на перцептивные процессы восприятия звуков. В статье подчеркивается важность системного подхода для решения сложных задач экспериментальной фонетики, что позволяет ученым эффективно интегрировать данные из различных исследований и обеспечивать более полное понимание речевых процессов

Kalit so'z

артикуляция

системный подход

экспериментальная фонетика

акустика

восприятие речи

методы экспериментальной фонетики

№ Muallifning F.I.Sh. Lavozimi Tashkilot nomi

1 Ergasheva G.I. Ingliz filologiyasi fakultet dekani O‘zbekiston Davlat Jahon tillari Universiteti

№ Havola nomi

1 Ахманова О.С. Словарь лингвистических терминов. — Москва: Советская энциклопедия, 1969. — 607 с. [Ahmanova, Olga S. 1969. Slovar' lingvisticheskikh terminov (Dictionary of Linguistic Terms), 2nd ed., Moscow: Soviet Encyclopedia Publ. (In Russ.)].

2 Boersma, P., Weenink D. 2021. Praat: doing phonetics by computer, available at: https://www.researchgate.net/publication/259810776_PRAAT_Doing_pho netics_by_computer_Version_5351/link/00b4953a530af84dc3000000/dow nload?_tp=eyJjb250ZXh0Ijp7ImZpcnN0UGFnZSI6InB1YmxpY2F0aW9u IiwicGFnZSI6InB1YmxpY2F0aW9uIn19

3 Browman C. P., Goldstein L. 1992, Articulatory phonology: An overview. Phonetica, 49 (3–4). 155–180.

4 Catford J. C. 2001. A Practical Introduction to Phonetics, Oxford: Oxford University Press.

5 Fledge J. E. 1995. Second language speech learning: Theory, findings, and problems, Speech Perception and Linguistic Experience: Issues in Cross-Language Research, 233–277.

6 Fujimura O. 1990. Methods and Instrumentation in Speech Science, Cambridge: Cambridge University Press.

7 Goldsmith J. A. 1995. The Handbook of Phonological Theory. Blackwell Handbooks in Linguistics.

8 Keating P. A. 1998. Underspecification in phonetics. Phonology 5, 275–292.

9 Kent R. D., Read C. 2002. The Acoustic Analysis of Speech, 467–487. San Diego: Singular Publishing Group.

10 Ladefoged P., Johnson K. 2014. A Course in Phonetics, Boston: Wadsworth, Cengage Learning.

11 Ling Z.-H., Kang S.-Y., Zen H., Senior A., Schuster M., Qian X., Meng H., & Deng, L. 2015. Deep Learning for Acoustic Modeling in Parametric Speech Generation: A systematic review of existing techniques and future trends. IEEE Signal Processing Magazine.

12 Nassif A. B., Shahin I., Attili I., Azzeh M., Shaalan K. 2019. Speech Recognition Using Deep Neural Networks: A Systematic Review. IEEE Access.

13 Pierrehumbert, J. 2001. Exemplar dynamics: Word frequency, lenition and contrast. In Frequency and the Emergence of Linguistic Structure, John Benjamins.

14 Pisoni D. B., Luce P. A. 1987. Acoustic-phonetic analyses and perceptual data. The Journal of the Acoustical Society of America.

15 Poeppel D., Idsardi W. J., van Wassenhove V. 2008. Speech perception at the interface of neurobiology and linguistics. Philosophical Transactions of the Royal Society B: Biological Sciences.

16 Соссюр, Ф. де Курс общей лингвистики; изд. Ш. Балли и А. Сеше при участии А. Ридлингера; под ред. и с примеч. Р. И. Шор; пер. со второго фр. изд. А. М. Сухотина. — Изд. 4-е. — Москва: URSS: ЛИБРИКОМ, 2009. – 271 с. [Saussure F. de. 2013. Course de linguistique générale (Course in General Linguistics) (Trans. A.M. Sukhotina, Ed. and notes R.I. Shor, Eds. Ch. Bally & A. Sechehaye with the collaboration of A. Riedlinger), Moscow: URSS LIBROKOM Publ. (In Russ.)].

17 Stevens K. N. 1998. Acoustic Phonetics, MIT Press.

18 Stone M. 2005. A guide to analysing tongue motion from ultrasound images, Clinical Linguistics & Phonetics.

19 Экспериментальная фонетика: Учеб. пособие / З. Н. Вердиева, Ф. Е. Вейсалов, Ф. М. Агаева. Кн. 1, Баку: АГУ, 1980. — 84 с. [Verdieva Z.N., Veyselov F.Y., Agaeva F.M. 1980. Experimental Phonetics: The First Book, Baku, 1980 (In Russ.)].

20 Zhang Y., Qiu M., Tsai C.-W., Hassan M. M., Alamri A. 2007. Health-CPS: Healthcare Cyber-Physical System Assisted by Cloud and Big Data. IEEE Systems Journal, 267–298.

Kutilmoqda

№	Havola nomi
1	Ахманова О.С. Словарь лингвистических терминов. — Москва: Советская энциклопедия, 1969. — 607 с. [Ahmanova, Olga S. 1969. Slovar' lingvisticheskikh terminov (Dictionary of Linguistic Terms), 2nd ed., Moscow: Soviet Encyclopedia Publ. (In Russ.)].
2	Boersma, P., Weenink D. 2021. Praat: doing phonetics by computer, available at: https://www.researchgate.net/publication/259810776_PRAAT_Doing_pho netics_by_computer_Version_5351/link/00b4953a530af84dc3000000/dow nload?_tp=eyJjb250ZXh0Ijp7ImZpcnN0UGFnZSI6InB1YmxpY2F0aW9u IiwicGFnZSI6InB1YmxpY2F0aW9uIn19
3	Browman C. P., Goldstein L. 1992, Articulatory phonology: An overview. Phonetica, 49 (3–4). 155–180.
4	Catford J. C. 2001. A Practical Introduction to Phonetics, Oxford: Oxford University Press.
5	Fledge J. E. 1995. Second language speech learning: Theory, findings, and problems, Speech Perception and Linguistic Experience: Issues in Cross-Language Research, 233–277.
6	Fujimura O. 1990. Methods and Instrumentation in Speech Science, Cambridge: Cambridge University Press.
7	Goldsmith J. A. 1995. The Handbook of Phonological Theory. Blackwell Handbooks in Linguistics.
8	Keating P. A. 1998. Underspecification in phonetics. Phonology 5, 275–292.
9	Kent R. D., Read C. 2002. The Acoustic Analysis of Speech, 467–487. San Diego: Singular Publishing Group.
10	Ladefoged P., Johnson K. 2014. A Course in Phonetics, Boston: Wadsworth, Cengage Learning.
11	Ling Z.-H., Kang S.-Y., Zen H., Senior A., Schuster M., Qian X., Meng H., & Deng, L. 2015. Deep Learning for Acoustic Modeling in Parametric Speech Generation: A systematic review of existing techniques and future trends. IEEE Signal Processing Magazine.
12	Nassif A. B., Shahin I., Attili I., Azzeh M., Shaalan K. 2019. Speech Recognition Using Deep Neural Networks: A Systematic Review. IEEE Access.
13	Pierrehumbert, J. 2001. Exemplar dynamics: Word frequency, lenition and contrast. In Frequency and the Emergence of Linguistic Structure, John Benjamins.
14	Pisoni D. B., Luce P. A. 1987. Acoustic-phonetic analyses and perceptual data. The Journal of the Acoustical Society of America.
15	Poeppel D., Idsardi W. J., van Wassenhove V. 2008. Speech perception at the interface of neurobiology and linguistics. Philosophical Transactions of the Royal Society B: Biological Sciences.
16	Соссюр, Ф. де Курс общей лингвистики; изд. Ш. Балли и А. Сеше при участии А. Ридлингера; под ред. и с примеч. Р. И. Шор; пер. со второго фр. изд. А. М. Сухотина. — Изд. 4-е. — Москва: URSS: ЛИБРИКОМ, 2009. – 271 с. [Saussure F. de. 2013. Course de linguistique générale (Course in General Linguistics) (Trans. A.M. Sukhotina, Ed. and notes R.I. Shor, Eds. Ch. Bally & A. Sechehaye with the collaboration of A. Riedlinger), Moscow: URSS LIBROKOM Publ. (In Russ.)].
17	Stevens K. N. 1998. Acoustic Phonetics, MIT Press.
18	Stone M. 2005. A guide to analysing tongue motion from ultrasound images, Clinical Linguistics & Phonetics.
19	Экспериментальная фонетика: Учеб. пособие / З. Н. Вердиева, Ф. Е. Вейсалов, Ф. М. Агаева. Кн. 1, Баку: АГУ, 1980. — 84 с. [Verdieva Z.N., Veyselov F.Y., Agaeva F.M. 1980. Experimental Phonetics: The First Book, Baku, 1980 (In Russ.)].
20	Zhang Y., Qiu M., Tsai C.-W., Hassan M. M., Alamri A. 2007. Health-CPS: Healthcare Cyber-Physical System Assisted by Cloud and Big Data. IEEE Systems Journal, 267–298.