Оперативный контроль состояния акустических сенсорных сетей
Acoustic sensor networks (ASN) are widely used to monitor water leaks in the power generating systems. Since the ASN are used in harsh climatic conditions, the failures of microphone elements of ASN are inevitable. That's why the failure detection of ASN elements is a problem of current interes...
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| Datum: | 2015 |
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PE "Politekhperiodika", Book and Journal Publishers
2015
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oai:tkea.com.ua:article-2822025-05-30T19:32:50Z Operational monitoring of acoustic sensor networks Оперативный контроль состояния акустических сенсорных сетей Boltenkov, V. A. Al-Jasri, G. Kh. M. acoustic sensor network technical diagnostics M-sequence акустическая сенсорная сеть техническая диагностика М-последовательность Acoustic sensor networks (ASN) are widely used to monitor water leaks in the power generating systems. Since the ASN are used in harsh climatic conditions, the failures of microphone elements of ASN are inevitable. That's why the failure detection of ASN elements is a problem of current interest. Two techniques of operational monitoring ASN are developed. Both of them are based on the placement of the test sound source within a network. The signal processing for ASN sensors had to detect the failed element. Techniques are based time difference of arrival (TDOA) estimating at each pair of ASN elements. TDOA estimates as argmaximum of cross-correlation function (CCF) for signals on each microphone sensors pair. The M-sequence phase-shift keyed signal is applied as a test acoustic signal to ensure high accuracy of the CCF maximum estimation at low signal/noise ratio (SNR). The first technique is based on the isolation principle for TDOA sum at three points. It require to locate the test sound source in the far field. This is not always possible due to technological reasons. For the second proposed technique, the test sound source can be located near the ASN. It is based on a system of hyperbolic equations solving for each of the four elements of the ASN. Both techniques have been tested in the computer imitation experiment. It was found that for the SNR to –5 dB, both techniques show unmistakable indicators of control quality. The second method requires significantly more time control. Описаны две методики оперативного контроля состояния акустических сенсорных сетей, предлагаемых для мониторинга течей теплоносителя в энергогенерирующем оборудовании. Методики основаны на создании в пределах сети звукового поля эталонного источника. В качестве тестового сигнала используется фазоманипулированный сигнал на основе М-последовательности. Работоспособность и высокие показатели качества контроля подтверждены компьютерным экспериментом. PE "Politekhperiodika", Book and Journal Publishers 2015-06-24 Article Article Peer-reviewed Article application/pdf https://www.tkea.com.ua/index.php/journal/article/view/TKEA2015.2-3.39 10.15222/TKEA2015.2-3.39 Technology and design in electronic equipment; No. 2–3 (2015): Tekhnologiya i konstruirovanie v elektronnoi apparature; 39-46 Технологія та конструювання в електронній апаратурі; № 2–3 (2015): Технология и конструирование в электронной аппаратуре; 39-46 3083-6549 3083-6530 uk https://www.tkea.com.ua/index.php/journal/article/view/TKEA2015.2-3.39/249 Copyright (c) 2015 Boltenkov V.A., G. Kh. M. Al-Jasri http://creativecommons.org/licenses/by/4.0/ |
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Technology and design in electronic equipment |
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| datestamp_date |
2025-05-30T19:32:50Z |
| collection |
OJS |
| language |
Ukrainian |
| topic |
акустическая сенсорная сеть техническая диагностика М-последовательность |
| spellingShingle |
акустическая сенсорная сеть техническая диагностика М-последовательность Boltenkov, V. A. Al-Jasri, G. Kh. M. Оперативный контроль состояния акустических сенсорных сетей |
| topic_facet |
acoustic sensor network technical diagnostics M-sequence акустическая сенсорная сеть техническая диагностика М-последовательность |
| format |
Article |
| author |
Boltenkov, V. A. Al-Jasri, G. Kh. M. |
| author_facet |
Boltenkov, V. A. Al-Jasri, G. Kh. M. |
| author_sort |
Boltenkov, V. A. |
| title |
Оперативный контроль состояния акустических сенсорных сетей |
| title_short |
Оперативный контроль состояния акустических сенсорных сетей |
| title_full |
Оперативный контроль состояния акустических сенсорных сетей |
| title_fullStr |
Оперативный контроль состояния акустических сенсорных сетей |
| title_full_unstemmed |
Оперативный контроль состояния акустических сенсорных сетей |
| title_sort |
оперативный контроль состояния акустических сенсорных сетей |
| title_alt |
Operational monitoring of acoustic sensor networks |
| description |
Acoustic sensor networks (ASN) are widely used to monitor water leaks in the power generating systems. Since the ASN are used in harsh climatic conditions, the failures of microphone elements of ASN are inevitable. That's why the failure detection of ASN elements is a problem of current interest. Two techniques of operational monitoring ASN are developed. Both of them are based on the placement of the test sound source within a network. The signal processing for ASN sensors had to detect the failed element. Techniques are based time difference of arrival (TDOA) estimating at each pair of ASN elements. TDOA estimates as argmaximum of cross-correlation function (CCF) for signals on each microphone sensors pair. The M-sequence phase-shift keyed signal is applied as a test acoustic signal to ensure high accuracy of the CCF maximum estimation at low signal/noise ratio (SNR). The first technique is based on the isolation principle for TDOA sum at three points. It require to locate the test sound source in the far field. This is not always possible due to technological reasons. For the second proposed technique, the test sound source can be located near the ASN. It is based on a system of hyperbolic equations solving for each of the four elements of the ASN. Both techniques have been tested in the computer imitation experiment. It was found that for the SNR to –5 dB, both techniques show unmistakable indicators of control quality. The second method requires significantly more time control. |
| publisher |
PE "Politekhperiodika", Book and Journal Publishers |
| publishDate |
2015 |
| url |
https://www.tkea.com.ua/index.php/journal/article/view/TKEA2015.2-3.39 |
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2025-09-24T17:30:40Z |
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