Mapping of underground cavities by the passive seismic standing waves method: the case study of Barsukovskaya cave (Novosibirsk region, Russia)

Fedin, Konstantin; Kolesnikov, Yu. I.; Ngomayezwe, L.

doi:10.1111/1365-2478.13045

Cited by 10 publications

(5 citation statements)

References 32 publications

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“…The integrated approach applied in this study, combining ambient vibration array data and numerical eigenfrequency modeling, shows promising potential for mapping and structural characterization of underground cavities. As opposed to previous studies that mainly exploited ambient vibration measurements for subsurface imaging of karst systems (Nehme et al 2013;Fedin et al 2021), our results highlight that a similar methodology can be successfully applied for generalized characterization and structural health monitoring of underground cavity roofs in different geological contexts. While no inferences on the lava tube stability can be made from the obtained results, our approach can represent a benchmark in the perspective of replicating non-invasive field measurements after intense events (e.g., earthquakes or heavy rainfall), or periodically monitoring potential recoverable and permanent structural damage (Bessette-Kirton et al 2022).…”

Section: Discussionmentioning

confidence: 61%

Modal Analysis of a Lava Tube Roof Complex: Tabernacle Hill, Utah, USA

Grechi,

Moore,

Jensen

et al. 2024

Rock Mech Rock Eng

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Highlights• We used array-based ambient vibration modal analysis and eigenfrequency modeling to characterize the dynamic behavior and structural conditions of a partly collapsed lava tube roof. • Multiple resonance modes were identified from spectral and cross-correlation analyses, and used to calibrate a heterogeneous numerical model of the lava tube. • Our study shows that the combination of experimental and numerical modal analysis is a valuable tool for mapping and structural characterization of underground cavity roofs.

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Section: Discussionmentioning

confidence: 61%

Modal Analysis of a Lava Tube Roof Complex: Tabernacle Hill, Utah, USA

Grechi,

Moore,

Jensen

et al. 2024

Rock Mech Rock Eng

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“…Ground penetrating radar (GPR) and microgravimetric measurements can be used to map underground karst features [20] or detect buried structures [21]. The passive seismic standing wave method can also be used to study underground caves, which is based on the effect of the generation of standing waves by microtremor in the space between the earth's surface and the cave roof [22]. In addition, underwater caves can be measured using handheld echosounders [23].…”

Section: Selection Of the Lidar Technical Methodsmentioning

confidence: 99%

A Scientific Investigation of the Shangfang Mountain Yunshui Cave in Beijing Based on LiDAR Technology

Liu,

Shan,

et al. 2024

Land

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The Yunshui Cave in Shangfang Mountain, Beijing, is a famous high-altitude karst cave in northern China. As the third scientific survey of Yunshui Cave in history, this is the first time to use the latest LiDAR technology to carry out a related detection survey. Traditional cave measurement methods are limited by natural conditions and make it difficult to reach the destination. Traditional methods mainly rely on experience and obtain data with strong subjectivity, making it difficult to conduct quantitative research and obtain reproducible results in the current information era. Applying LiDAR technology to cave measurement can obtain comprehensive and accurate digital measurement results within the same survey time and reveal many richer and more accurate features of Yunshui Cave. The obtained digital measurement results can be used for 3D modeling as well as provide a large amount of accurate basic data and preliminary materials for subsequent geological, environmental, and archaeological investigation and analysis, as well as cultural and tourism resource development. The rapid geological survey of Shangfang Mountain Yunshui Cave using LiDAR technology shows that LiDAR cave geological survey technology can achieve real-time collection of centimeter-level accuracy and generate billions of points of cloud data, greatly improving survey efficiency and accuracy. At the same time, digital survey results can be obtained. Through modeling and GIS technology, all on-site survey details can be easily moved back to the laboratory for real-scene reproduction, network sharing, and dissemination. This study provides a foundation for future explorations of the Yunshui cave and highlights the potential for LiDAR techniques to enhance our understanding of complex geological structures such as caves.

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“…According to the work of refs., 29,32,33 a set of natural frequencies of the dam were isolated during dynamic vibration testing and standing wave testing, respectively. The method of standing waves is a passive method, without the use of vibration sources, 32,[34][35][36] which makes it possible to isolate the standing waves field from the data of the microseismic vibrations field recorded in an engineering structure. It is based on the coherence property in the time vibrations of standing waves and converts recorded signals of the observation network consisting of a reference point and points changing its position into «one-time» records of standing waves.…”

Section: Monitoring Of Natural Frequencies In Sayano-shushenskaya Hyd...mentioning

confidence: 99%

Monitoring of the hydraulic units operation of the Sayano‐Shushenskaya hydroelectric power plant using remote seismic observations

Gromyko

Fedin

Seleznev

et al. 2022

Earthq Engng Struct Dyn

Self Cite

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After a major accident in August 2009 at the Sayano‐Shushenskaya Hydroelectric Power Plant (SS HPP), all 10 hydroelectric units (HU) with a total capacity of 6400 MW failed. After investigating the causes of the accident and the reconstruction of the hydroelectric power plant, there was to develop a methodology for monitoring the operation of the newly commissioned HU. For inspection, a method was developed based on monitoring the natural frequencies of the dam structures and forced vibrations caused by the operation of the equipment. The article presents the main results of this study. Within the framework of the proposed approach, monitoring was carried out at various observation points of the dam structures and the turbine hall, as well as on a network of remote seismic stations. Based on the data recorded since 2009, an assessment of the parameters of dynamic impacts arising from the operation of hydraulic units of various types in different load modes on the elements of the HPP structure was carried out, and cause‐and‐effect relationships between changes in the operating modes of equipment and recorded vibrations in dam structures were investigated. An estimate of the general level of vibrations during the operation of various types of hydraulic units is given. As a result, the operating modes of hydraulic units are determined, in which there is a multiple increase in the amplitude of natural vibrations of the dam, an assessment of the operational characteristics of hydraulic units is given, taking into account the impact of seasonal conditions and changes in the water level in the reservoir.

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Mapping of underground cavities by the passive seismic standing waves method: the case study of Barsukovskaya cave (Novosibirsk region, Russia)

Cited by 10 publications

References 32 publications

Modal Analysis of a Lava Tube Roof Complex: Tabernacle Hill, Utah, USA

Modal Analysis of a Lava Tube Roof Complex: Tabernacle Hill, Utah, USA

A Scientific Investigation of the Shangfang Mountain Yunshui Cave in Beijing Based on LiDAR Technology

Monitoring of the hydraulic units operation of the Sayano‐Shushenskaya hydroelectric power plant using remote seismic observations

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