Standard

Development and Application of a Portable Vibroseis Source for Acquisition and Analysis of Seismic Surface Wave Data. / Yablokov, A. V.; Dergach, P. A.; Serdyukov, A. S. и др.

в: Seismic instruments, Том 58, № S2, 21.03.2022, стр. S195-S203.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Yablokov, AV, Dergach, PA, Serdyukov, AS & Polozov, SS 2022, 'Development and Application of a Portable Vibroseis Source for Acquisition and Analysis of Seismic Surface Wave Data', Seismic instruments, Том. 58, № S2, стр. S195-S203. https://doi.org/10.3103/s074792392208014x

APA

Yablokov, A. V., Dergach, P. A., Serdyukov, A. S., & Polozov, S. S. (2022). Development and Application of a Portable Vibroseis Source for Acquisition and Analysis of Seismic Surface Wave Data. Seismic instruments, 58(S2), S195-S203. https://doi.org/10.3103/s074792392208014x

Vancouver

Yablokov AV, Dergach PA, Serdyukov AS, Polozov SS. Development and Application of a Portable Vibroseis Source for Acquisition and Analysis of Seismic Surface Wave Data. Seismic instruments. 2022 март 21;58(S2):S195-S203. doi: 10.3103/s074792392208014x

Author

Yablokov, A. V. ; Dergach, P. A. ; Serdyukov, A. S. и др. / Development and Application of a Portable Vibroseis Source for Acquisition and Analysis of Seismic Surface Wave Data. в: Seismic instruments. 2022 ; Том 58, № S2. стр. S195-S203.

BibTeX

@article{fc030724bd614be59d73de38862cd734,
title = "Development and Application of a Portable Vibroseis Source for Acquisition and Analysis of Seismic Surface Wave Data",
abstract = "The paper is devoted to development of a portable vibrating unit and study of its applicability in generating seismic waves. The solution to developing a portable vibrating unit problem capable of generating a stable seismic signal in the target frequency range is very important. Existing solutions are cumbersome and cannot be widely applied in engineering seismic exploration. The paper describes in detail the design of the vibrator source, the stages of output laptop signals testing, the power amplifier, and haptic transducer control. Signals with different frequency sweeps were used during field acquisition. The recorded data were processed by multichannel analysis of surface waves. As a result of comparing the amplitude spectra and dispersion images of the surface wave, it was found that a hyperbolic (low-dwell) sweep signal generates a surface wave train in the entire frequency range (10–150 Hz), but does not produce high-frequency interference waves in cement concrete pavement as opposed to other sweep signals and sledgehammers. Based on the field data processing results, we reconstructed a one-dimensional shear-wave velocity model for soils and concluded on the success, practicability, and increased (compared to a sledgehammer) efficiency of using the developed vibrator source for acquisition and analysis of surface wave data for engineering seismology problems. The undoubted advantages of using a vibration source are controllability of the frequency content and its repeatability. The use of such vibroseis devices combined with stationary seismic recording systems is a promising direction for solving seismic monitoring problems.",
author = "Yablokov, {A. V.} and Dergach, {P. A.} and Serdyukov, {A. S.} and Polozov, {S. S.}",
note = "The study was carried out with the financial support of the Russian Science Foundation, (project no. 20-77-10023). Development and Application of a Portable Vibroseis Source for Acquisition and Analysis of Seismic Surface Wave Data / A. V. Yablokov, P. A. Dergach, A. S. Serdyukov, S. S. Polozov // Seismic Instruments. – 2022. – Vol. 58, No. S2. – P. S195-S203. – DOI 10.3103/s074792392208014x. ",
year = "2022",
month = mar,
day = "21",
doi = "10.3103/s074792392208014x",
language = "English",
volume = "58",
pages = "S195--S203",
journal = "Seismic instruments",
issn = "0747-9239",
publisher = "Allerton Press Inc.",
number = "S2",

}

RIS

TY - JOUR

T1 - Development and Application of a Portable Vibroseis Source for Acquisition and Analysis of Seismic Surface Wave Data

AU - Yablokov, A. V.

AU - Dergach, P. A.

AU - Serdyukov, A. S.

AU - Polozov, S. S.

N1 - The study was carried out with the financial support of the Russian Science Foundation, (project no. 20-77-10023). Development and Application of a Portable Vibroseis Source for Acquisition and Analysis of Seismic Surface Wave Data / A. V. Yablokov, P. A. Dergach, A. S. Serdyukov, S. S. Polozov // Seismic Instruments. – 2022. – Vol. 58, No. S2. – P. S195-S203. – DOI 10.3103/s074792392208014x.

PY - 2022/3/21

Y1 - 2022/3/21

N2 - The paper is devoted to development of a portable vibrating unit and study of its applicability in generating seismic waves. The solution to developing a portable vibrating unit problem capable of generating a stable seismic signal in the target frequency range is very important. Existing solutions are cumbersome and cannot be widely applied in engineering seismic exploration. The paper describes in detail the design of the vibrator source, the stages of output laptop signals testing, the power amplifier, and haptic transducer control. Signals with different frequency sweeps were used during field acquisition. The recorded data were processed by multichannel analysis of surface waves. As a result of comparing the amplitude spectra and dispersion images of the surface wave, it was found that a hyperbolic (low-dwell) sweep signal generates a surface wave train in the entire frequency range (10–150 Hz), but does not produce high-frequency interference waves in cement concrete pavement as opposed to other sweep signals and sledgehammers. Based on the field data processing results, we reconstructed a one-dimensional shear-wave velocity model for soils and concluded on the success, practicability, and increased (compared to a sledgehammer) efficiency of using the developed vibrator source for acquisition and analysis of surface wave data for engineering seismology problems. The undoubted advantages of using a vibration source are controllability of the frequency content and its repeatability. The use of such vibroseis devices combined with stationary seismic recording systems is a promising direction for solving seismic monitoring problems.

AB - The paper is devoted to development of a portable vibrating unit and study of its applicability in generating seismic waves. The solution to developing a portable vibrating unit problem capable of generating a stable seismic signal in the target frequency range is very important. Existing solutions are cumbersome and cannot be widely applied in engineering seismic exploration. The paper describes in detail the design of the vibrator source, the stages of output laptop signals testing, the power amplifier, and haptic transducer control. Signals with different frequency sweeps were used during field acquisition. The recorded data were processed by multichannel analysis of surface waves. As a result of comparing the amplitude spectra and dispersion images of the surface wave, it was found that a hyperbolic (low-dwell) sweep signal generates a surface wave train in the entire frequency range (10–150 Hz), but does not produce high-frequency interference waves in cement concrete pavement as opposed to other sweep signals and sledgehammers. Based on the field data processing results, we reconstructed a one-dimensional shear-wave velocity model for soils and concluded on the success, practicability, and increased (compared to a sledgehammer) efficiency of using the developed vibrator source for acquisition and analysis of surface wave data for engineering seismology problems. The undoubted advantages of using a vibration source are controllability of the frequency content and its repeatability. The use of such vibroseis devices combined with stationary seismic recording systems is a promising direction for solving seismic monitoring problems.

UR - https://www.mendeley.com/catalogue/baca2021-5ce1-34f5-b9e6-847a1684f9f7/

UR - https://elibrary.ru/item.asp?id=59514071

U2 - 10.3103/s074792392208014x

DO - 10.3103/s074792392208014x

M3 - Article

VL - 58

SP - S195-S203

JO - Seismic instruments

JF - Seismic instruments

SN - 0747-9239

IS - S2

ER -

ID: 71477860