The present invention uses the gravity or magnetic exploration data obtained through various methods such as ground, aircraft, satellite, etc. to locate the objects of exploration objects such as minerals, faults, discontinuities, oil, limestone joints, abandoned mines, and groundwater. The present invention relates to a dimensional method, and more specifically, to an existing Euler-deconvolution, which uses a moving component (X axis) and a depth component (Z axis) of gravity or magnetic exploration data to determine the position of an object to be explored. The present invention relates to a method for obtaining a two-dimensional position of an object to be searched more accurately and objectively.;Method for obtaining a two-dimensional position of the object to be explored using gravity or magnetic exploration data of the present invention,;(a) a lattice step of exploration data for lattice the exploration data measuring the gravity or magnetic force value of a predetermined section at regular intervals along the measurement direction;;(b) dividing the gridized exploration data by the direction component of the exploration data into a horizontal change amount and a vertical change amount;;(c) determining the size of the window and substituting it into Equation 6 below to find a possible location of the object to be explored;;In step (c), the Euler-deconvolution is performed several times by varying the size of the window.;(d) a positioning step of analyzing the possible positions of the object to be obtained obtained in step (c) and determining a section having the highest frequency as the position of the object to be probed.;Gravity, Magnetic Force, Exploration Data, Groundwater, Fault, Cavity, Lung Grating, Windows, Euler-Deconvolution
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