Методы получения и обработки данных от связки скважинных модулей, полученных методом вертикального сейсмического профилирования в программном обеспечении управления комплексом приема сейсмических сигналов в скважине

Егорчев Антон Александрович; Чикрин Дмитрий Евгеньевич; Бриский Дмитрий Владимирович; Закиров Ришат Ильдусович

doi:10.25136/2306-4196.2018.6.28091


	Journal Menu > Issues > Rubrics > About journal > Authors > About the Journal > Requirements for publication > Council of Editors > Peer-review process > Policy of publication. Aims & Scope. > Article retraction > Ethics > Online First Pre-Publication > Copyright & Licensing Policy > Digital archiving policy > Open Access Policy > Open access publishing costs > Article Identification Policy > Plagiarism check policy


	Journals in science databases


	About the Journal

Публикация за 72 часа - теперь это реальность!

При необходимости издательство предоставляет авторам услугу сверхсрочной полноценной публикации. Уже через 72 часа статья появляется в числе опубликованных на сайте издательства с DOI и номерами страниц.

По первому требованию предоставляем все подтверждающие публикацию документы!

MAIN PAGE > Back to contents

Cybernetics and programming

Reference:

Chickrin D.E., Egorchev A.A., Briskiy D.V., Zakirov R.I. — Methods for obtaining and processing data from a bundle of downhole modules obtained by vertical seismic profiling in the software for controlling the complex for receiving seismic signals in a well // Cybernetics and programming. – 2018. – № 6. – P. 1 - 10. DOI: 10.25136/2306-4196.2018.6.28091 URL: https://en.nbpublish.com/library_read_article.php?id=28091

Methods for obtaining and processing data from a bundle of downhole modules obtained by vertical seismic profiling in the software for controlling the complex for receiving seismic signals in a well

Chickrin Dmitry Evgenevich

PhD in Technical Science

Associate Professor, Department of Radiophysics, Kazan (Volga Region) Federal University

420008, Russia, respublika Tatarstan, g. Kazan', ul. Kremlevskaya, 18

dmitry.kfu@gmail.com

Egorchev Anton Alexandrovich

Junior Researcher, Kazan (Volga Region) Federal University, Department of Radio Physics

420008, Russia, respublika Tatarstan, g. Kazan', ul. Kremlevskaya, 18

alin.sitnikova.@yandex.ru

Briskiy Dmitry Vladimirovich

Engineer, Institute of Physics, Research Laboratory "Perspective Systems of Orientation, Navigation, Communication"; Kazan Federal University

420008, Russia, respublika Tatarstan, g. Kazan', ul. Kremlevskaya, 18

briskiydmitry@mail.ru

Zakirov Rishat Ildusovich

Lead Engineer, Institute of Physics, Research Laboratory "Perspective Systems of Orientation, Navigation, Communication"; Kazan Federal University

420008, Russia, respublika Tatarstan, g. Kazan', ul. Kremlevskaya, 18

zakir0v.rishat@mail.ru

DOI:

10.25136/2306-4196.2018.6.28091

Review date:

22-11-2018

Publish date:

29-11-2018

Abstract.

The object of research in this article is a system for receiving seismic signals in a well, carried out by the method of vertical seismic profiling. The subject of the research is data processing methods from a bunch of downhole modules obtained by vertical seismic profiling in software for controlling and controlling a hardware-methodical complex for receiving seismic signals in a well. The authors consider in detail such aspects of the topic as the complexity and speed of seismic data processing algorithms obtained from borehole and surface modules. The authors use the following scientific methods, namely: mutual correlation in the time and frequency domains. The novelty of the results are the conclusions that in the considered complex the correlation in the spectral region provides a gain in the number of operations on the correlation in the time domain. The calculation in the time domain gives a more accurate result, since the Fourier transform on the final sample gives distortions even when using window functions. To obtain a correlogram of the same length in the calculation method in the time domain, it is necessary to register and process a larger amount of data than when using the calculation method in the spectral domain.
Keywords: well modules, multi-wave seismic, geophysical data systems, frequency domain, time domain, vertical seismic profiling, hardware-methodical complex, seismic records, vibration seismic, seismic signals
This article written in Russian. You can find full text of article in Russian here .

References

1.	Vertikal'noe seismicheskoe profilirovanie neftyanykh i gazovykh skvazhin: uchebnoe posobie / A.S. Bayanov, V.P. Merkulov, D.Yu. Stepanov. ⸺ Tomsk: Izd-vo TPU, 2009. ⸺ 100 s.
2.	Korotkov I.P. Osobennosti obrabotki dannykh mnogovolnovoi seismorazvedki. I.P. Korotkov, V.M. Kuznetsov, G.A. Shekhtman, A.V. Cherepovskii. ⸺ Tekhnologii seismorazvedki, № 2, 2014, s. 51– 69.
3.	Vibratsionnaya seismorazvedka / M.B. Shneerson, O.A. Potapov, V 41 V.A. Grodzenskii i dr.; Pod red. M.B. Shneersona. — M.: Nedra, 1990.-240 e.: il. ISBN 5-247-00595-3.
4.	Jiada Lan. The application of vibroseis nonlinear sweep in high resolution seismic acquisition [Zhurnal] // Geophysical prospecting.-2008 r.-T. 47 (2).-str. 208-211.
5.	Chzhao S.-Ch. Primenenie tekhnologii adaptivnoi vibratsionnoi seismorazvedki dlya polucheniya shirokopolosnykh seismicheskikh dannykh / Chzhao Syan'-Chzhen, Van Si-shuan, Chzhan Zhui-fen, Tan Chuan'-chzhan, Zhukov A. P. [Zhurnal] // Tekhnologii seismorazvedki.-2015.-№4.
6.	Brittle K.F., Lines L.R., and Dey A.K. Vibroseis deconvolution: a comparison of cross-correlation and frequency domain sweep deconvolution. Geophysical Prospecting 49, 2001. 675-686.
7.	Kuznetsov V.M., Shekhtman G.A., Popov V.V., Ryzhkov V.I. Obrabotka i interpretatsiya dannykh vertikal'nogo seismicheskogo profilirovaniya v spetsializirovannoi sisteme 3C-Interact // Pribory i sistemy razvedochnoi geofiziki. 2011. № 4. S. 17 – 21.
8.	Shekhtman G.A., Korotkov I.P. Etapy i tendentsii razvitiya mnogovolnovoi seismorazvedki // Tekhnologii seismorazvedki. 2012. № 4. S. 5 – 14.
9.	Gainanov V.G. G14 Seismorazvedka. Uchebnoe posobie. – M.: MGU, 2006.– 149 s., 80 il.
10.	Sergienko A.B. Tsifrovaya obrabotka signalov. / Uchebnik dlya vuzov. – SPb.: Piter, 203. – 608 s.

Link to this article

You can simply select and copy link from below text field.