I.P. Dudchenko scite author profile

I.P. Dudchenko

4Publications

3Citation Statements Received

1Citation Statement Given

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Affiliations

Far Eastern Branch of the Russian Academy of Sciences, Institute of Marine Geology and Geophysics, Russian Academy of Sciences

Publications

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Test mode of operation network of monitoring subsoil radon in the south of Sakhalin

et al. 2018

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Radon monitoring in the literature is recognized as a promising method for the prediction of earthquakes. In the last decade, the promise of the radon method for predicting subduction earthquakes has been convincingly demonstrated on Kamchatka. The results obtained on the Kamchatka, give reason to hope for the detection of predictive anomalies in the radon field and for weaker, but not less dangerous, small-focus earthquakes on the Sakhalin Island. The southern part of Sakhalin Island is a region of high seismic hazard. On Sakhalin Island, in a test mode, a network of three radon monitoring stations in the subsoil air is launched using the forced convection method to search for earthquake precursors. Based on the literature data, it is assumed that the effectiveness of radon monitoring near the focal zone of small-focus earthquakes on Sakhalin Island will be significantly higher compared to the conditions of the subduction zone in Kamchatka. Data from the network of radon monitoring stations can be used as an additional parameter to substantiate the conclusions on possible scenarios for the evolution of the seismic process in the south of Sakhalin.

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Auto oscillation model of microseism’s sources

Makovetsky¹,

Dudchenko²,

Zakupin³

2017

GTZ

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2Институт морской геологии и геофизики ДВО РАН, Южно-Сахалинск, Россия Предложен подход, описывающий микросейсмические явления с помощью известных уравнений, используемых при математическом моделировании биологических и химических процессов. Подход авторов основан на положении, что в упруго-хрупкой среде существуют два вида трещин (или зон концентраций энергии). Первый тип трещин -затравочные, виртуальные в том смысле, что сигналы от них столь малы, что не регистрируются на фоне шума сейсмологических приборов. Однако они являются триггерами для более крупных трещин, порождающих микросейсмы. После испускания микросейсмических импульсов трещины второго вида теряют энергию и частично переходят в затравочные трещины, после увеличения концентрации которых процесс повторяется, обеспечивая автоволны источников микросейсм. Взаимодействие между этими видами трещин описывается системой нелинейных уравнений. Ключевые словазатравочные трещины, триггеры микросейсм, автоколебания, нелинейные уравнения Список литературыЦит. так: Маковецкий В.И., Дудченко И.П., Закупин А.С. Автоколебательная модель источников микросейсм.

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Comprehensive research on Matua Island in 2017

Рыбин¹,

Degterev²,

Dudchenko³

et al. 2017

GTZ

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Autonomous Network of Seismic Stations of the Island of Matua

Dudchenko

2020

IOP Conf. Ser.: Earth Environ. Sci.

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Currently, the majority of seismic stations installed in the Far East automatically continuously transmit data to processing centers. But none of the network’s seismic stations is autonomous in the full sense of the word. All these seismic stations are located in places where there is a power supply system and cellular communication. Some seismic stations do not transmit data due to the absence of a cellular network, and are powered by regularly replaced batteries, so they require regular visits to save data and replace batteries.

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I.P. Dudchenko

Test mode of operation network of monitoring subsoil radon in the south of Sakhalin

Auto oscillation model of microseism’s sources

Comprehensive research on Matua Island in 2017

Autonomous Network of Seismic Stations of the Island of Matua

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