Imagen de Portada

High-Precision Gravity and Magnetic Gradient Anomaly Detection for Mineral Exploration and Sustainable Resource Management

Guardado en:
Publicado en:The Institute of Electrical and Electronics Engineers, Inc. (IEEE) Conference Proceedings (2025), p. 1-5
Autor principal: Liu, Jiayi
Otros Autores: Zhong, Qian
Publicado:
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Materias:
Magnetic properties
Geological mapping
Technicians
Multidisciplinary research
Resource management
Geophysics
Fluorite
Mineral exploration
Tectonics
Buried structures
Mineralization
Stratigraphy
Sustainable development
Geophysical surveys
Subsurface mapping
Mineral deposits
Environmental
Acceso en línea:Citation/Abstract
Etiquetas: Agregar Etiqueta
Sin Etiquetas, Sea el primero en etiquetar este registro!
Resumen:Conference Title: 2025 9th International Symposium on Multidisciplinary Studies and Innovative Technologies (ISMSIT)Conference Start Date: 2025 Nov. 14Conference End Date: 2025 Nov. 16Conference Location: Ankara, TurkiyeThe high-precision geophysical investigation using gravity-magnetic gradient anomaly detection introduced in this study advances mineral prospecting and ensures sustainable resource administration in the Heyu region. Research technicians employ RTP transformation with airborne geophysical surveys that use advanced techniques along with upward continuation for enhancing subsurface map resolution of magnetic properties and density variations in complex geological zones. The investigation utilizes stereotectonic analysis of geophysical anomalies together with stratigraphic structures and lithological units and tectonic characteristics to find buried locations that would support hydrothermal fluorite mineralization. Large fault systems and low-magnetic granite intrusions produced most mineral deposits when the Yanshanian tectonic activity occurred. The application of gravity and magnetic data exploration continues to yield successful results because it reveals that depression zones extend toward fluorite-bearing geological areas. The method using two geologic anomalies increases both target placement precision and drilling expense efficiencies through its adaptable framework for various mineral regions. The proposed system delivers significant advantages to exploration productivity and environmental conservation as well as strategic resource planning in mineral development sustainability.
DOI:10.1109/ISMSIT67332.2025.11268148
Fuente:Science Database