wikipedia

https://en.wikipedia.org/wiki/Outline_of_geophysics

[1] Outline of geophysics - Wikipedia — Seismic velocities and boundaries in the interior of the Earth sampled by seismic waves.. The following outline is provided as an overview of and topical guide to geophysics: . Geophysics - the physics of the Earth and its environment in space; also the study of the Earth using quantitative physical methods. The term geophysics sometimes refers only to the geological applications: Earth's

sciencedirect

https://www.sciencedirect.com/topics/earth-and-planetary-sciences/geophysics

[2] Geophysics - an overview | ScienceDirect Topics — Geophysical methods are used to study large scale Earth Structure, to measure the exact shape and size of the planet (Geodesy), to study the dynamics of the Earth’s interior and tectonic plates (Geodynamics), to study the history of Earth’s magnetic field and its present state (Geomagnetism), to study the physical properties of rocks and minerals at or near the surface, as well as those in the core (Mineral Physics), and finally, to study the physical causes and effects of earthquakes (Seismology). Exploration geophysics is the applied science of measuring physical properties of rocks and minerals and more specifically, to detect the measurable physical contrast between them.

oup

https://academic.oup.com/book/679/chapter/135363114

[3] What is geophysics? | Geophysics: A Very Short Introduction | Oxford ... — Geophysics is a field of earth sciences that uses the methods of physics to investigate the complex physical properties of the Earth and the natural processes that have determined and continue to govern its evolution. 'What is geophysics?' explains how geophysical investigations cover a wide range of research fields—including planetary

wikipedia

https://en.wikipedia.org/wiki/Geophysics

[4] Geophysics - Wikipedia — Geophysics is a highly interdisciplinary subject, and geophysicists contribute to every area of the Earth sciences, while some geophysicists conduct research in the planetary sciences.To provide a more clear idea on what constitutes geophysics, this section describes phenomena that are studied in physics and how they relate to the Earth and its surroundings.

sciencedirect

https://www.sciencedirect.com/science/article/pii/S1871644X03802140

[7] Chapter 14 Seismic monitoring of volcanic activity and prediction of ... — Chapter 14 Seismic monitoring of volcanic activity and prediction of volcanic eruptions - ScienceDirect Chapter 14 Seismic monitoring of volcanic activity and prediction of volcanic eruptions This chapter discusses various aspects of the seismic monitoring of volcanoes and the methodology of predicting volcanic eruptions. The seismic monitoring of a volcanic activity helps forecast an eruption and issue an alert of a volcanic hazard to the public. The volcano-tectonic seismicity occurs before the majority of volcanic eruptions, thereby indicating the site of the forthcoming event. Journal of Volcanology and Geothermal Research, Volume 446, 2024, Article 107990 Seismic Monitoring of Volcanic Activity and Forecasting of Volcanic Eruptions Cookies are used by this site. Cookie settings These cookies may be set through our site by our advertising partners.

thejournalshouse

https://www.thejournalshouse.com/index.php/JoARAPA/article/download/1247/1224/

[8] Review Article Geophysical Technique Advancements: An Extensive Overview — Systems (GNSS), such as GPS, GLONASS, and Galileo, provide precise positioning and velocity measurements, enabling the monitoring of crustal movements, sea-level rise, and deformation associated with earthquakes and volcanic activity. Moreover, advancements in GNSS technology, such as real-time kinematic (RTK) positioning and multi-

arxiv

https://arxiv.org/abs/2502.05197

[12] Implementation of Machine Learning Algorithms for Seismic Events ... — The classification of seismic events has been crucial for monitoring underground nuclear explosions and unnatural seismic events as well as natural earthquakes. This research is an attempt to apply different machine learning (ML) algorithms to classify various types of seismic events into chemical explosions, collapses, nuclear explosions, damaging earthquakes, felt earthquakes, generic

openaccessgovernment

https://www.openaccessgovernment.org/seismic-resilience-in-the-age-of-ai-and-advanced-remote-sensing/189601/

[14] Seismic resilience in the age of AI and advanced remote sensing — Innovations such as the ShakeAlert® Earthquake Early Warning System, AI-driven forecasting models, transformer-based building damage assessments, and benefit-cost analyses (BCA) for seismic resilience mark a new era in earthquake science – one that is data-driven, predictive, and action-oriented. Future research will explore BCA integration with environmental benefits, mainly how earthquake-resistant infrastructure reduces carbon footprints, and assess policy-driven incentives to encourage resilience investments. With machine learning-enhanced forecasting models, high-resolution remote sensing, and robust economic planning, seismic resilience is entering a new era that could redefine how we anticipate and mitigate earthquake disasters worldwide. Open Access Government produces compelling and informative news, publications, eBooks, and academic research articles for the public and private sector looking at health, diseases & conditions, workplace, research & innovation, digital transformation, government policy, environment, agriculture, energy, transport and more.

aliceinwire

https://aliceinwire.net/the-history-and-development-of-geophysics-a-journey-through-time/

[47] History and Evolution of Geophysics: From Foundations to Modern ... — The development of geophysics as an independent field reached a new stage by the mid-19th century, when a substantial body of geophysical observational data had been collected, allowing scientists to begin generalizing and interpreting this data using physical laws. ... (KMA), which played a key role in the development of magnetic geophysics

wikipedia

https://en.wikipedia.org/wiki/History_of_geophysics

[48] History of geophysics - Wikipedia — The historical development of geophysics has been motivated by two factors. One of these is the research curiosity of humankind related to planet Earth and its several components, its events and its problems. The second is economical usage of Earth's resources (ore deposits, petroleum, water resources, etc.) and Earth-related hazards such as earthquakes, volcanoes, tsunamis, tides, and floods.

britannica

https://www.britannica.com/science/geophysics

[50] Geophysics | Seismology, Plate Tectonics & Geodynamics | Britannica — Geophysics, major branch of the Earth sciences that applies the principles and methods of physics to the study of the Earth. A brief treatment of geophysics follows. For full treatment, see geology: Geophysics. Geophysics deals with a wide array of geologic phenomena, including the temperature

geoinsights

https://www.geoinsights.com/trends-in-geoscience-technology/

[53] Trends in Geoscience Technology - Today and in the Near Future — Dr. Bedle and her student research team at OU primarily work with seismic reflection data, using advanced techniques such as machine learning, attribute analysis, and rock physics to reveal additional structural, stratigraphic and tectonic insights of the subsurface. Examples of his research work are attribute-based modeling to predict coalbed thickness and permeability zones, combining spectral analysis with coherency imagery technique to enhance interpretation of subtle geologic features, and implementing a visual-based data mining technique on clustering to match seismic trace shape variability to changes in reservoir properties. His research interests include machine learning-based fault detection, seismic interpretation, pattern recognition, image processing, seismic attribute development and interpretation, and seismic facies analysis.

freescience

https://freescience.info/the-future-of-geophysical-instrumentation-and-technology/

[55] The Future Of Geophysical Instrumentation And Technology — Explore advancements in geophysical instrumentation and technology, shaping the future of exploration, environmental monitoring, and data analysis in diverse fields.

aliceinwire

https://aliceinwire.net/the-history-and-development-of-geophysics-a-journey-through-time/

[56] History and Evolution of Geophysics: From Foundations to Modern ... — Today, geophysics is a highly specialized science, with modern geophysical survey services playing an essential role in the exploration of natural resources, infrastructure development, and environmental protection. The 20th century witnessed remarkable growth in geophysics, driven by advancements in science, technology, and industrial demands for natural resources. Modern geophysical survey services are highly specialized in the exploration of natural resources, including oil and gas, iron ore, gold, diamonds, and fresh water. From its humble beginnings in the 17th century to the high-tech industry it is today, geophysics has made significant strides in the exploration of natural resources, environmental monitoring, and the safe construction of infrastructure.

lifeconceptual

https://lifeconceptual.com/unraveling-earths-mysteries-geophysics-explained/

[64] Unraveling Earth's Mysteries: Geophysics Explained - Life Conceptual — It plays a pivotal role in understanding various phenomena, from the movement of tectonic plates to the composition of the Earth's interior. ... leading to groundbreaking discoveries and innovations. Early Developments. Ancient civilizations, such as the Greeks and Chinese, made significant contributions to early geophysical knowledge through

wikipedia

https://en.wikipedia.org/wiki/History_of_geophysics

[65] History of geophysics - Wikipedia — History of geophysics - Wikipedia History of geophysics These experimental and mathematical analyses were applied to several areas of geophysics: Earth's shape, density, and gravity field (Pierre Bouguer, Alexis Clairaut and Henry Cavendish), Earth's magnetic field (Alexander von Humboldt, Edmund Halley and Carl Friedrich Gauss), seismology (John Milne and Robert Mallet), and the Earth's age, heat and radioactivity (Arthur Holmes and William Thomson, 1st Baron Kelvin). Journal of Geophysical Research: Solid Earth. Climate in Earth History: Studies in Geophysics. Climate in Earth History: Studies in Geophysics. History of Geophysics: Volume 5: The Earth, the heavens, and the Carnegie Institution of Washington. "History of geophysics". "History Articles from Eos, Transactions of the American Geophysical Union 1969–1999". Retrieved from "https://en.wikipedia.org/w/index.php?title=History_of_geophysics&oldid=1270778150" History of geophysics

ethw

https://ethw.org/Geophysics_Enters_the_Fray

[66] Geophysics Enters the Fray - Engineering and Technology History Wiki - ETHW — In the early 1920s, prospectors began using a simple magnetometer invented by Swedish engineers Thalén and Tiberg in 1870 to locate iron ore deposits. ... set up a geologic consultancy business in New York City and became interested in the new geophysics. In early 1914 he learned of Eötvös's torsion balance and immediately ordered one from

sciencedirect

https://www.sciencedirect.com/science/article/pii/S2405844020310938

[92] Geological and geophysical assessment of groundwater contamination at ... — Qualitatively, geophysical assessment of groundwater contamination was done using the combined electrical resistivity and Induced Polarization measurements in the active waste cell (Figure 2) (adjacent cells 1 and 2 which were already covered with linings and cap material) along 3 traverses (X, Y and Z) at 40 m inter-traverse spacing (Figure 5

sciencedirect

https://www.sciencedirect.com/science/article/pii/S1464343X24002942

[93] Characterizing groundwater contamination flow-paths and heavy metal ... — Consequently, geophysical methods have emerged as vital tools for non-invasive characterization and multi-dimensional mapping of contamination (Isah et al., 2023; ... This research focuses on assessing groundwater contamination risks near the Olubunku dumpsite in Ede North, Southwestern Nigeria, utilizing ERT, GPR, and heavy metal analysis.

geospatialworld

https://www.geospatialworld.net/news/geophysics-applied-to-the-detection-of-contamination-of-soil-and-groundwater/

[94] Geophysics applied to the detection of contamination of soil and ... — In this context , the interpretation of geophysical data can contribute to obtaining information about the lithology , stratigraphy , depth of water table , depth of the foundation , presence of faults or fractures , there are important aquifers , groundwater preferred propagation paths and other geological features of interest .In assessing

researchgate

https://www.researchgate.net/publication/383220448_Groundwater_Exploration_and_Management_using_Geophysical_and_Remote_Sensing_Techniques_a_Review

[95] Groundwater Exploration and Management using Geophysical and Remote ... — Integrating remote sensing and geophysical techniques has also emerged as one of the improved approaches for groundwater exploration and management, enabling accurate identification of potential groundwater zones. The study results show how integrating geophysical and remote sensing methods can sustainably improve groundwater resource management. Case Study 3: Geophysical Investigations and Remote Sensing Techniques for Groundwater Exploration in Wadi The overall objective of the present study is the investigation of groundwater occurrence through an integrated methodology incorporating remote sensing, lineament mapping, structural analysis and geophysical studies via electrical resistivity methods. The study results show how integrating geophysical and remote sensing methods can sustainably improve groundwater resource management.

ijrpr

https://ijrpr.com/uploads/V6ISSUE1/IJRPR38260.pdf

[97] PDF — International Journal of Research Publication and Reviews, Vol 6, no 1, pp 5581-5597 January 2025 International Journal of Research Publication and Reviews Journal homepage: www.ijrpr.com ISSN 2582-7421 Deep Learning Algorithm for Geological Mapping and Mineral Exploration: A Review on Recent Advancement and Applications 1Fatima Umar Zambuk, 2Mustapha Abdulrahman Lawal, 3Mahmood Abdulhameed, 4Abdulsalam Ya’u Gital, 5Saratu Habu Japhet, 6Zainab Qamaruddeen, 7Abubakar Hussaini & 8Lawal Rukuna Muhammed* 1,4,6Department of Computing, Abubakar Tafawa Balewa University, Bauchi State 3Department of Engineering, Abubakar Tafawa Balewa University, Bauchi State 2,3Department of Geology, National Center for Remote Sensing, Jos 5Department of Computing Technology, SRM Institute of Science and Technoogy, India A B S T R A C T Deep learning has become a transformative technology in geological mapping and mineral exploration, addressing the complexities of data integration and analysis in these fields.

mdpi

https://www.mdpi.com/2072-4292/16/17/3309

[98] GNSS Time Series Analysis with Machine Learning Algorithms: A Case ... — This study addresses the potential of machine learning (ML) algorithms in geophysical and geodetic research, particularly for enhancing GNSS time series analysis. We employed XGBoost and Long Short-Term Memory (LSTM) networks to analyze GNSS time series data from the tectonically active Anatolian region. The primary objective was to detect discontinuities associated with seismic events. Using

researchgate

https://www.researchgate.net/publication/370808933_A_Review_of_Recent_Advancements_in_Geophysical_Technologies_and_Their_Implications_for_Mineral_and_Hydrocarbon_Exploration

[103] A Review of Recent Advancements in Geophysical Technologies and Their ... — The paper begins with a discussion of electromagnetic, seismic, gravity and magnetic, ground penetrating radar, and borehole geophysical methods, highlighting their respective advancements.

911metallurgist

https://www.911metallurgist.com/wp-content/uploads/2015/10/Advances-in-Geophysical-Technology-for-VMS-Exploration.pdf

[105] PDF — methods commonly applied, while induced polarisation, seismic and magnetotelluric surveys also find their place. Mining geophysics has long played a major role in VMS exploration. It is well known that numerous discoveries have been directly due to geophysics, commonly detected by magnetic or electromagnetic surveys. Ten years ago,

seg

https://library.seg.org/doi/10.1190/geo2023-1116-spseintro.1

[108] Latest advancements in machine learning for geophysics — Introduction — Recent advances in computing power, AI technology, and the increased availability of data sets have enabled the geophysics community to leverage the potential of machine learning (ML) and data analytics to solve some of the most challenging problems and accelerate the community's transition to a new energy era.

subsurfaceai

https://subsurfaceai.ca/

[116] subsurfaceAI | Seismic Interpretation Software — subsurfaceAI is an integrated software platform that accelerates subsurface workflows by 20-200 times through applications of artificial intelligence (AI) and machine learning (ML): Rapid and integrated interpretation of seismic and well data. Multi-scale and cross-scale reservoir modeling from core to full field models.

subsurfaceai

https://subsurfaceai.ca/a-new-era-in-subsurface-exploration/

[117] A New Era in Subsurface Exploration | subsurfaceAI — It seamlessly integrates seismic interpretation, machine-learning-based seismic attribute analysis, near-wellbore modeling, and process-oriented reservoir modeling. What sets this platform apart is the infusion of advanced Artificial Intelligence (AI) and Machine Learning (ML) technologies across all its applications.

sciencedirect

https://www.sciencedirect.com/science/article/pii/S0012825221003597

[118] Deep learning for geological hazards analysis: Data, models ... — Recently, the dramatic increase in the volume of various types of Earth observation ‘big data’ from multiple sources, and the rapid development of deep learning as a state-of-the-art data analysis tool, have enabled novel advances in geological hazard analysis, with the ultimate aim to mitigate the devastation associated with these hazards. Motivated by numerous applications, this paper presents an overview of the advances in the utilization of deep learning for geological hazard analysis. Third, focusing on six typical geological hazards, i.e., landslides, debris flows, rockfalls, avalanches, earthquakes, and volcanoes, the deep learning applications for geological hazard analysis are reviewed, and common application paradigms are summarized. Finally, the challenges and opportunities for the application of deep learning models for geological hazard analysis are highlighted, with the aim to inspire further related research.

bobels

https://www.bobels.org/geophysical-surveys/

[127] Geophysical Surveys: Techniques, Applications, and Importance — Geophysical Surveys Geophysical Surveys What is Geophysical Surveys? Types of Geophysical Survey Methods What is Geophysical Surveys? The goal of a geophysical survey is to gather information related to the geological structure of the Earth, such as the composition of rocks and soil, groundwater movement, and the presence of mineral or energy resources. Seismic surveys are among the most widely used geophysical techniques, particularly in the exploration of oil, gas, and minerals. Depth limitations: Some geophysical methods are better suited to shallow subsurface investigations, while others, such as seismic surveys, may be required for deeper studies. Geophysical surveys are indispensable tools used across various industries to explore the Earth’s subsurface and gather valuable information without disturbing the environment.

eduinput

https://eduinput.com/what-is-geophysics/

[129] What is Geophysics?-Introduction, Branches, and Applications - Eduinput — Geophysics is the study of the Earth’s internal and external properties, using physical and mathematical principles to understand the Earth’s structure, composition, and processes. Geophysics is the study of the physical processes and properties of the Earth. By studying the Earth’s interior and processes, geophysicists can better understand earthquake hazards, locate natural resources, manage groundwater, assess volcanic hazards, and study climate change. Geophysics is the study of the Earth using physics, focusing on the planet’s composition, structure, and processes. Geophysicists use techniques like seismic surveys, gravity measurements, and geomagnetic studies to explore the subsurface and understand earthquakes, volcanoes, climate change, and more. Using seismic waves to map the structure of the Earth’s crust and upper mantle is an example of exploration geophysics.

sciencedirect

https://www.sciencedirect.com/science/article/pii/S0166361514000815

[131] Collaborative disaster management: An interdisciplinary approach — The paper adopts an interdisciplinary approach to disaster management collaboration drawing upon knowledge accumulated by state-of-the-art research in Interoperability, Collaborative Networks and Enterprise Architecture (see Fig. 1). It is expected that that this approach will promote an integrated holistic, life cycle-based analysis and

rroij

https://www.rroij.com/open-access/from-drones-to-satellites-innovations-in-geophysical-data-acquisition.pdf

[132] PDF — of damage from earthquakes, hurricanes, and wildfires, aiding in disaster relief planning and mitigation strategies. Integration and future directions The synergy between drone-based and satellite-based geophysical data acquisition is shaping the future of Earth observation and geoscience research.

geojournal

https://www.geojournal.net/uploads/archives/6-2-1-621.pdf

[133] PDF — The focus of the plan can be outlined as follows:  Establishing constructive and continuously updated and tested disaster preparedness, response and recovery plans  Ensuring prompt, efficient and coordinated response  Bringing forth maximum community participation in all disaster management related activities during every phase of the disaster management cycle  Ensuring high priority to all disaster management initiatives in the planning process at all levels so as to mainstream disaster management into development International Journal of Geography, Geology and Environment https://www.geojournal.net ~ 201 ~  Promoting a culture of prevention and preparedness so as to ensure disaster resilience in the stat Findings regarding the role of Geographic Information Systems (GIS) in disaster management and planning in India Critical Role in Disaster Response  GIS facilitates real-time monitoring and assessment of disaster events through satellite data integration, aiding in quick response and resource allocation.

seis-tech

https://www.seis-tech.com/faq/seismic-technologies-in-oil-and-gas-exploration/

[136] Seismic Technologies in Oil And Gas Exploration? - Seis Tech — Furthermore, seismic technologies contribute to environmental sustainability in oil and gas operations. By aiding in the selection of drilling locations with minimal environmental impact, these technologies align exploration practices with ecological considerations.

everant

https://everant.org/index.php/etj/article/view/1733

[137] Sustainable Seismic Practices in Offshore Exploration: A Conceptual ... — Offshore exploration for hydrocarbon resources often entails significant environmental challenges, including potential disruptions to marine ecosystems and water quality. This paper presents a conceptual model for sustainable seismic practices in offshore exploration, aiming to minimize environmental impact while enhancing resource recovery. The model integrates advanced seismic acquisition

researchgate

https://www.researchgate.net/publication/379589267_Carbon_capture_integration_in_seismic_interpretation_Advancing_subsurface_models_for_sustainable_exploration

[139] Carbon capture integration in seismic interpretation: Advancing ... — The study leverages existing seismic interpretation techniques and incorporates carbon capture data to enhance the accuracy and environmental sustainability of exploration practices.

ediweekly

https://www.ediweekly.com/seismic-technology-advancements-and-their-impact-on-oil-and-gas-exploration/

[141] Seismic Technology Advancements and Their Impact on Oil and Gas Exploration — Seismic Technology Advancements and Their Impact on Oil and Gas Exploration – EDI Weekly: Engineered Design Insider Seismic Technology Advancements and Their Impact on Oil and Gas Exploration The use of seismic technology represents an exciting evolution in the exploration of oil and gas, allowing for higher quality data, reduced costs, and lower environmental impact. From 3D seismic imaging that offers a detailed snapshot of the underground landscape to the advanced seismic monitoring techniques capable of tracking the continuous changes in reservoirs, the latest advancements in seismic technology are essentially revolutionizing the oil and gas industry. If you’re an engineer or designer in the oil and gas industry, the advancements in seismic technology are undoubtedly making your job more efficient and precise.

da

https://www.bswm.da.gov.ph/geo-resistivity-method-for-groundwater-assessment-and-exploration/

[145] Geo-resistivity method for groundwater assessment and exploration — The same resistivity data can be used to identify and describe subsurface features such as the presence and type of aquifers, contaminated groundwater, and sediment size distribution. The Bureau of Soils and Water Management of the Department of Agriculture through the Water Resources Management Division (WRMD) is conducting geo-resistivity

springer

https://link.springer.com/chapter/10.1007/978-3-031-34783-2_10

[147] Sustainable Groundwater Management Under Global Climate Change ... — Sustainable groundwater management is vital under changing climate conditions in the world, and it is essential to focus on both mitigation and adaptation measures to overcome this threat. The impacts of climate change on groundwater resources, including changes in precipitation, evapotranspiration, recharge, and quality, are discussed in this chapter. Strategies for sustainable groundwater

eduinput

https://eduinput.com/what-is-geophysics/

[150] What is Geophysics?-Introduction, Branches, and Applications - Eduinput — Geophysics is the study of the Earth’s internal and external properties, using physical and mathematical principles to understand the Earth’s structure, composition, and processes. Geophysics is the study of the physical processes and properties of the Earth. By studying the Earth’s interior and processes, geophysicists can better understand earthquake hazards, locate natural resources, manage groundwater, assess volcanic hazards, and study climate change. Geophysics is the study of the Earth using physics, focusing on the planet’s composition, structure, and processes. Geophysicists use techniques like seismic surveys, gravity measurements, and geomagnetic studies to explore the subsurface and understand earthquakes, volcanoes, climate change, and more. Using seismic waves to map the structure of the Earth’s crust and upper mantle is an example of exploration geophysics.

ncesc

https://www.ncesc.com/geographic-pedia/what-is-the-role-of-remote-sensing-and-gis-in-disaster-management/

[153] What is the role of remote sensing and GIS in disaster management? - NCESC — In conclusion, the role of remote sensing and GIS in disaster management has revolutionized the way authorities plan, respond, and mitigate the impact of natural disasters. Through hazard mapping, prediction, and monitoring, these technologies provide essential tools and insights for emergency planning, resource allocation, and decision-making.

miningworld

https://miningworld.com/unlocking-new-resources-with-seismic-imaging-innovations/

[158] Unlocking New Resources with Seismic Imaging Innovations — Recent advancements in seismic imaging technology⁢ have ⁤substantially enhanced ‍the ability to explore and manage natural resources, especially⁣ in oil and gas exploration. Techniques such as machine learning integration , 4D seismic monitoring , and ⁤ full-waveform ‌inversion are improving both the accuracy and efficiency of

ediweekly

https://www.ediweekly.com/seismic-technology-advancements-and-their-impact-on-oil-and-gas-exploration/

[159] Seismic Technology Advancements and Their Impact on Oil and Gas Exploration — Seismic Technology Advancements and Their Impact on Oil and Gas Exploration – EDI Weekly: Engineered Design Insider Seismic Technology Advancements and Their Impact on Oil and Gas Exploration The use of seismic technology represents an exciting evolution in the exploration of oil and gas, allowing for higher quality data, reduced costs, and lower environmental impact. From 3D seismic imaging that offers a detailed snapshot of the underground landscape to the advanced seismic monitoring techniques capable of tracking the continuous changes in reservoirs, the latest advancements in seismic technology are essentially revolutionizing the oil and gas industry. If you’re an engineer or designer in the oil and gas industry, the advancements in seismic technology are undoubtedly making your job more efficient and precise.

britannica

https://www.britannica.com/science/seismic-survey

[181] Seismic survey | Description, Methods, & Facts | Britannica — seismic survey, method of investigating subterranean structure, particularly as related to exploration for petroleum, natural gas, and mineral deposits. The technique is based on determining the time interval that elapses between the initiation of a seismic wave at a selected shot point (the location where an explosion generates seismic waves) and the arrival of reflected or refracted impulses

geologyscience

https://geologyscience.com/geology-branches/geophysics/the-seismic-method/

[182] The Seismic Method : Principles and Applications » Geology Science — Propagation of Seismic Waves: Once generated, seismic waves travel through the Earth, penetrating different layers and reflecting back to the surface at interfaces where there are changes in subsurface properties, such as rock types or geological structures. Seismic surveys rely on specialized instruments and equipment to generate seismic waves, record the resulting data, and analyze the subsurface structure. These instruments and equipment work together to collect and process seismic data, providing valuable insights into the subsurface structure for applications ranging from oil and gas exploration to environmental studies and geological research. Seismic data acquisition is a critical step in the seismic method, involving the collection of measurements from seismic sensors to create a detailed image of the Earth’s subsurface.

saskmining

https://saskmining.ca/wp-content/uploads/2024/12/0_Geophones-I-Heard-That-Seismic-Surveys-.pdf

[183] PDF — Exploration of the potash deposits is mainly by surface seismic surveys which measure differences in seismic velocities among rock layers. Seismic geophysics was pioneered in the oil and gas industry and is also now used extensively by the mineral industry.

seg

https://library.seg.org/doi/10.1190/2012-0724-SPSEIN.1

[184] Seismic methods in mineral exploration and mine planning — Introduction — Malehmir et al. present results from high-resolution surface 3D reflection seismic data acquired over a major Ni-Cu-PGE deposit in northern Finland. Seismic data in combination with VSP data image reflections from magmatic layering and faults zones, which are crucial for mine planning, and identify seismic targets for future deep exploration.

geologyscience

https://geologyscience.com/geology-branches/geophysics/magnetic-surveys/

[185] Magnetic Surveys: Principles, Applications » Geology Science — Magnetic surveys are a geophysical exploration technique used to measure and map variations in the Earth’s magnetic field. Crustal Studies: Geologists utilize magnetic surveys to study the Earth’s crust, map geological structures, and understand tectonic processes. Groundwater Exploration: Magnetic surveys can help locate subsurface geological formations related to groundwater resources. Geological Structures: Variations in rock types and structures can lead to differences in magnetic properties, causing anomalies. Geological Studies: Magnetic anomalies provide insights into the Earth’s crustal structure, aiding in the understanding of tectonic processes and regional geology. Applications: Integral in ground-based and airborne surveys, facilitating the collection of high-quality magnetic data for analysis. Interpreting magnetic anomalies involves a combination of quantitative analysis, geological knowledge, and consideration of the survey’s objectives.

seis-tech

https://www.seis-tech.com/faq/what-are-geophysical-surveys/

[186] What Are Geophysical Surveys? - Seis Tech — Geophysical surveys are utilizing a range of physical principles, including seismic, magnetic, gravitational, and electrical methodologies, to detect anomalies and gather data about underlying structures, natural resources, and geotechnical conditions. Types of Geophysical Surveys 1. Seismic Surveys Seismic surveys are among the most common geophysical methods, particularly for engineering

geobella

https://geobella.co.za/environmental-impact-assessment-through-geophysical-methods/

[206] Why Choose Geophysical Methods for Environmental Impact Assessments ... — Geophysical methods are highly favored for environmental impact assessments because they offer rapid and cost-effective insights into what lies beneath the surface. These techniques allow for an evaluation of the underground environment without the need for significant excavation, facilitating accurate predictions of subsurface conditions.They excel in identifying soil types, measuring the

seg

https://library.seg.org/doi/pdf/10.1190/tle42050360.1

[215] Hot topics in geophysics: Progress, trends, and perspectives — geophysical applications and techniques. All topics were evaluated on their level of maturity, importance to current and future needs, ability to address long-standing challenges, and excitement or interest level. While this survey has its limitations, it does capture a distinctive, valuable snapshot of contemporary geophysics research interests.

or

https://www.jksmer.or.kr/articles/article/R2PV/

[218] Deep Learning in Geophysics: Current Status, Challenges, and Future ... — Despite these technological advances, there are still challenges to be overcome, such as a lack of training data, model opacity, and heterogeneity between training data and field data, and this study suggests future research directions to address these aspects. Keywords exploration geophysics machine learning deep learning research trends

nature

https://www.nature.com/articles/s41561-024-01566-3

[221] International collaboration in geoscience lags behind other ... - Nature — The funding of certain sub-disciplines of geoscience, especially those with close ties to energy industries, may also be coupled to economic cycles, making international collaboration vulnerable

sagepub

https://journals.sagepub.com/doi/pdf/10.1177/8756479320976130

[223] International Research Collaboration: Challenges and Opportunities — Although collaboration with international researchers seems daunting, the benefit of establishing these coop-erative relationships certainly outweighs the challenges. For anyone interested in engaging in international work, there are several opportunities readily available. One such opportunity is the Fulbright Program, which is an

agu

https://thebridge.agu.org/2024/01/31/agus-2024-policy-priorities/

[224] AGU's 2024 Policy Priorities - The Bridge: Connecting Science and Policy — Science requires freedom of movement, collaboration, and communication, as well as equitable access to data and resources. AGU supports policies that: Strengthen and foster international scientific collaborations and ensure that research security measures impacting international researchers and collaborations are well-justified and clearly defined.

wiley

https://agupubs.onlinelibrary.wiley.com/doi/full/10.1029/2024JH000432

[226] Journal of Geophysical Research: Machine Learning and Computation — However, the diverse formats, scales, and dimensions of geophysical data add complexity to the application of deep learning techniques. Developing methods that can adeptly handle multimodal geophysical data across different scenarios without repeated design and training is a critical need for practical advancements in the field applications.

seg

https://library.seg.org/doi/10.1190/geo2023-0615.1

[227] Review of physics-informed machine-learning inversion of geophysical ... — ABSTRACT We review five types of physics-informed machine-learning (PIML) algorithms for inversion and modeling of geophysical data. Such algorithms use the combination of a data-driven machine-learning (ML) method and the equations of physics to model or invert geophysical data (or both). By incorporating the constraints of physics, PIML algorithms can effectively reduce the size of the

researchgate

https://www.researchgate.net/publication/353088358_Research_on_seismic_technology_of_civil_engineering_structure_based_on_GIS_system

[228] (PDF) Research on seismic technology of civil engineering structure ... — The development and application of seismic technology in civil engineering structures is of great significance to extend the service life of buildings and improve the overall quality of buildings

sciencedirect

https://www.sciencedirect.com/science/article/pii/S0267726118314386

[229] Large-scale simulation of seismic wave motion: A review — Despite the uncertainty in future events, and the difficulty with the characterization of seismic sources, there is strong interest in faithfully simulating seismic events. Such simulations can help engineers to make better decisions when designing structures and infrastructures, such as tall buildings, hospitals, dams, bridges, and nuclear

seedexploration

https://www.seedexploration.com/article-seismic-imaging.html

[230] Breakthrough in Seismic Imaging Technology - Seeed — Revolutionary Advances in Exploration The oil and gas industry has witnessed a groundbreaking advancement in seismic imaging technology, marking a significant milestone in exploration capabilities. This revolutionary technology combines artificial intelligence, high-performance computing, and advanced algorithms to provide unprecedented clarity and accuracy in subsurface imaging.

sciencedirect

https://www.sciencedirect.com/science/article/pii/S0013795224004393

[236] Improving subsurface structural interpretation in complex geological ... — This study underscores the value of integrating machine learning techniques with geophysical methods such as SRT and ERT to improve interpretability and accurately identify subsurface geological structures, particularly in fault zone identification. Several studies have successfully applied SRT and ERT in different engineering applications, such as slope instability assessment (Solberg et al., 2016; Whiteley et al., 2020), sinkhole detection and ground deformation characterization (Jacob et al., 2018; Perrone et al., 2006; Su et al., 2021; Wang et al., 2022b), underground construction monitoring (Wang et al., 2022a), bedrock detection (Babacan et al., 2018; Hsu et al., 2010), geological fracture zoning (Edigbue et al., 2021; Hasan et al., 2018; Henaish et al., 2023; Hung et al., 2024), rock mass quality assessment (Danielsen and Dahlin, 2009; Klose et al., 2007), earthquake-induced liquefaction zone delineation (Baradello and Accaino, 2016; Khan et al., 2021), seepage inspection (Himi et al., 2018; Lin et al., 2018), and building defect study (Giocoli et al., 2019; Smyl et al., 2018).

academicjournals

https://academicjournals.org/journal/JGMR/article-full-text-pdf/948C5122254.pdf

[245] PDF — presents a new method for urban seismic risk reduction based on the application of an interdisciplinary work integrated in a dynamic and evolutionary process of the city planning when designing urban sites. This will clarify the aspect of prevention and management of the local risk, the

peak-urban

https://www.peak-urban.org/sites/default/files/2022-04/evolving_existing_cities_towards_sustainability-_assessing_seismic_risk.pdf

[247] PDF — Assessing the likely risk of seismic events, and their expected impact on buildings and infrastructure, is vital in designing effective disaster risk mitigation and management policies. Seismic risk is calculated by looking at three factors. Hazard - the severity and frequency of quakes. Exposure - the nature of the