К ГЛОБАЛЬНОМУ СЕЙСМИЧЕСКОМУ МОНИТОРИНГУ
ПОДЗЕМНЫХ ЯДЕРНЫХ ВЗРЫВОВ
С ИСПОЛЬЗОВАНИЕМ КРОСС-КОРРЕЛЯЦИИ ВОЛНОВЫХ ФОРМ. ЧАСТЬ II. СИНТЕТИЧЕСКИЕ МАСТЕР-СОБЫТИЯ
1 Организация по Договору о всеобъемлющем запрещении ядерных испытаний
2 Институт динамики геосфер РАН
3 Инструментал Софтвер Текнолоджиз, Инк
2 Институт динамики геосфер РАН
3 Инструментал Софтвер Текнолоджиз, Инк
Журнал: Сейсмические приборы
Том: 51
Номер: 3
Год: 2015
Страницы: 22-46
Показать библиографическую ссылку
БОБРОВ Д.И., КИТОВ И.О., РОЖКОВ М.В., ФРАЙБЕРГ П. К ГЛОБАЛЬНОМУ СЕЙСМИЧЕСКОМУ МОНИТОРИНГУ
ПОДЗЕМНЫХ ЯДЕРНЫХ ВЗРЫВОВ
С ИСПОЛЬЗОВАНИЕМ КРОСС-КОРРЕЛЯЦИИ ВОЛНОВЫХ ФОРМ. ЧАСТЬ II. СИНТЕТИЧЕСКИЕ МАСТЕР-СОБЫТИЯ // Сейсмические приборы. 2015. Т. 51. № 3. С. 22-46.
@article{БОБРОВК2015,
author = "БОБРОВ, Д. И. and КИТОВ, И. О. and РОЖКОВ, М. В. and ФРАЙБЕРГ, П.",
title = "К ГЛОБАЛЬНОМУ СЕЙСМИЧЕСКОМУ МОНИТОРИНГУ
ПОДЗЕМНЫХ ЯДЕРНЫХ ВЗРЫВОВ
С ИСПОЛЬЗОВАНИЕМ КРОСС-КОРРЕЛЯЦИИ ВОЛНОВЫХ ФОРМ. ЧАСТЬ II. СИНТЕТИЧЕСКИЕ МАСТЕР-СОБЫТИЯ",
journal = "Сейсмические приборы",
year = 2015,
volume = "51",
number = "3",
pages = "22-46",
doi = "",
language = "Russian"
}
Скопировать ссылку в формате ГОСТ
Скопировать ссылку BibTex
Ключевые слова: сейсмические группы, кросс-корреляция волновых форм, сейсмичность, мастер события, МЦД, ДВЗЯИ
Аннотация: К ГЛОБАЛЬНОМУ СЕЙСМИЧЕСКОМУ МОНИТОРИНГУ
ПОДЗЕМНЫХ ЯДЕРНЫХ ВЗРЫВОВ
С ИСПОЛЬЗОВАНИЕМ КРОСС-КОРРЕЛЯЦИИ ВОЛНОВЫХ ФОРМ. ЧАСТЬ II. СИНТЕТИЧЕСКИЕ МАСТЕР-СОБЫТИЯ
Список литературы: Бобров Д.И., Китов И.О., Рожков М.В. К глобальному сейсмическому мониторингу подземных ядерных взрывов с использованием кросс-корреляции волновых форм. Часть I: Гранд-мастер события // Сейсмические приборы. 2015. Т. 51, № 2. С.5-30.
Aki K., Richards P.G. Quantitative Seismology: Theory and Methods. 2nd edition. New York: Freeman, 2002. 700 p. (University Science Books).
Bobrov D., Khukhuudei U., Kitov I., Sitnikov K., Zerbo L. Automated recovery of the 2012 Sumatera aftershock sequence using waveform cross correlation // Journal of Earth Science and Engineering. 2013. N 3. P.437-460.
Bobrov D., Kitov I., Zerbo L. Perspectives of cross-correlation in seismic monitoring at the International Data Centre // Pure and Applied Geophysics. 2014. V. 171, N 3-5. P.439-468.
Carpenter E.W. A quantitative evaluation of teleseismic explosion records // Proc. R. Soc., London Ser. A. 1966. V. 290. P.396-407.
Computer Programs in Seismology - Tutorials // http://www.eas.slu.edu/eqc/eqc_cps/TUTORIAL/
Coyne J., Bobrov D., Bormann P., Duran E., Grenard P., Haralabus G., Kitov I., Starovoit Yu. Chapter 15: CTBTO: Goals, Networks, Data Analysis and Data Availability / ed. P. Bormann // New Manual of Seismological Observatory Practice 2 (NMSOP-2). Potsdam: Deutsches GeoForschungs Zentrum GFZ. P.1-41. doi: 10.2312/GFZ.NMSOP-2_ch15.
Dreger D. TDMT_INV: Time Domain Seismic Moment Tensor INVersion / International Handbook of Earthquake and Engineering Seismology // International Geophysics. 2003. V. 81, part B. 1627 p. doi:10.1016/S0074-6142(03)80290-5.
Gibbons S., Ringdal F. The detection of low magnitude seismic events using array-based waveform correlation // Geophys. J. Int. 2006. V. 165. P.149-166.
Gibbons S., Ringdal F. Seismic monitoring of the North Korea Nuclear Test Site using a multi-channel correlation detector // IEEE Transactions on Geoscience and Remote Sensing. 2012. V. 50, N 5. P.1897-1909.
Harris D.B. Subspace Detectors: Theory / Lawrence Livermore National Laboratory. Internal Report. 2006. UCRL-TR-222758. 46 p.
Harris D.B., Dodge D.A. An autonomous system of grouping events in a developing aftershock sequence // Bull. Seismol. Soc. Amer. 2011. V. 101, N 2. P.763-774.
Harris D.B., Paik T. Subspace detectors: Efficient implementation / Lawrence Livermore National Laboratory. 2006. Technical Report UCRL-TR-223177.
Herrmann R.B. Computer programs in seismology: An evolving tool for instruction and research // Seismol. Res. Lett. 2013. V.84. P.1081-1088, doi: 10.1785/0220110096.
Hudson J.A. A Quantitative evaluation of seismic signals at teleseismic distances - I. Radiation from point sources // Geophys. J. R. Astr. Soc. 1969a. V. 18, N 3. P.233-239.
Hudson J.A. A Quantitative evaluation of seismic signals at teleseismic distances - II: Body waves and surface waves from an extended source // Geophys. J. R. Astr. Soc. 1969b. V. 18, N 4. P.353-370.
Haskell N.A. Radiation pattern of surface waves from point sources in a multi-layered medium // Bull. Seismol. Soc. Amer. 1964. V. 54. P.377-393.
Kværna T., Ringdal F., Baadshaug U. North Korea's Nuclear Test: The capability for seismic monitoring of the North Korean Test Site // Seismol. Res. Lett. 2007. V. 75. P.487-497.
Rodgers A., Harris D., Pasyanos M. A model-based signal processing approach to seismic monitoring // Proceedings of 28th Seismic Research Review: Ground-Based Nuclear Explosion Monitoring Technologies: Orlando, Florida, September 19-21, 2006. P.455-464.
Rozhkov M., Bobrov D., Kitov I. Synthetics vs. real waveforms from underground nuclear explosions as master templates for CTBT monitoring with cross-correlation // Abstract S21B-2403 presented at 2013 Fall Meeting, AGU, San Francisco, Calif., USA, 9-13 Dec. 2013.
Schaff D., Kim W.-Y., Richards P.G. Seismological Constraints on Proposed Low-Yield Nuclear Testing in Particular Regions and Time Periods in the Past, with Comments on Radionuclide Evidence for Low-Yield Nuclear Testing in North Korea in April/May 2010 by Lars-Erik De Geer // Science & Global Security. 2012. V. 20. P.155-171.
Aki K., Richards P.G. Quantitative Seismology: Theory and Methods. 2nd edition. New York: Freeman, 2002. 700 p. (University Science Books).
Bobrov D., Khukhuudei U., Kitov I., Sitnikov K., Zerbo L. Automated recovery of the 2012 Sumatera aftershock sequence using waveform cross correlation // Journal of Earth Science and Engineering. 2013. N 3. P.437-460.
Bobrov D., Kitov I., Zerbo L. Perspectives of cross-correlation in seismic monitoring at the International Data Centre // Pure and Applied Geophysics. 2014. V. 171, N 3-5. P.439-468.
Carpenter E.W. A quantitative evaluation of teleseismic explosion records // Proc. R. Soc., London Ser. A. 1966. V. 290. P.396-407.
Computer Programs in Seismology - Tutorials // http://www.eas.slu.edu/eqc/eqc_cps/TUTORIAL/
Coyne J., Bobrov D., Bormann P., Duran E., Grenard P., Haralabus G., Kitov I., Starovoit Yu. Chapter 15: CTBTO: Goals, Networks, Data Analysis and Data Availability / ed. P. Bormann // New Manual of Seismological Observatory Practice 2 (NMSOP-2). Potsdam: Deutsches GeoForschungs Zentrum GFZ. P.1-41. doi: 10.2312/GFZ.NMSOP-2_ch15.
Dreger D. TDMT_INV: Time Domain Seismic Moment Tensor INVersion / International Handbook of Earthquake and Engineering Seismology // International Geophysics. 2003. V. 81, part B. 1627 p. doi:10.1016/S0074-6142(03)80290-5.
Gibbons S., Ringdal F. The detection of low magnitude seismic events using array-based waveform correlation // Geophys. J. Int. 2006. V. 165. P.149-166.
Gibbons S., Ringdal F. Seismic monitoring of the North Korea Nuclear Test Site using a multi-channel correlation detector // IEEE Transactions on Geoscience and Remote Sensing. 2012. V. 50, N 5. P.1897-1909.
Harris D.B. Subspace Detectors: Theory / Lawrence Livermore National Laboratory. Internal Report. 2006. UCRL-TR-222758. 46 p.
Harris D.B., Dodge D.A. An autonomous system of grouping events in a developing aftershock sequence // Bull. Seismol. Soc. Amer. 2011. V. 101, N 2. P.763-774.
Harris D.B., Paik T. Subspace detectors: Efficient implementation / Lawrence Livermore National Laboratory. 2006. Technical Report UCRL-TR-223177.
Herrmann R.B. Computer programs in seismology: An evolving tool for instruction and research // Seismol. Res. Lett. 2013. V.84. P.1081-1088, doi: 10.1785/0220110096.
Hudson J.A. A Quantitative evaluation of seismic signals at teleseismic distances - I. Radiation from point sources // Geophys. J. R. Astr. Soc. 1969a. V. 18, N 3. P.233-239.
Hudson J.A. A Quantitative evaluation of seismic signals at teleseismic distances - II: Body waves and surface waves from an extended source // Geophys. J. R. Astr. Soc. 1969b. V. 18, N 4. P.353-370.
Haskell N.A. Radiation pattern of surface waves from point sources in a multi-layered medium // Bull. Seismol. Soc. Amer. 1964. V. 54. P.377-393.
Kværna T., Ringdal F., Baadshaug U. North Korea's Nuclear Test: The capability for seismic monitoring of the North Korean Test Site // Seismol. Res. Lett. 2007. V. 75. P.487-497.
Rodgers A., Harris D., Pasyanos M. A model-based signal processing approach to seismic monitoring // Proceedings of 28th Seismic Research Review: Ground-Based Nuclear Explosion Monitoring Technologies: Orlando, Florida, September 19-21, 2006. P.455-464.
Rozhkov M., Bobrov D., Kitov I. Synthetics vs. real waveforms from underground nuclear explosions as master templates for CTBT monitoring with cross-correlation // Abstract S21B-2403 presented at 2013 Fall Meeting, AGU, San Francisco, Calif., USA, 9-13 Dec. 2013.
Schaff D., Kim W.-Y., Richards P.G. Seismological Constraints on Proposed Low-Yield Nuclear Testing in Particular Regions and Time Periods in the Past, with Comments on Radionuclide Evidence for Low-Yield Nuclear Testing in North Korea in April/May 2010 by Lars-Erik De Geer // Science & Global Security. 2012. V. 20. P.155-171.