Bulletin of Perm University. Geology

An algorithm for solving a nonlinear inverse problem of gravity exploration for a monogenic anomaly caused by a 2D prism, based on the method of statistical tests (Monte Carlo), is presented. It uses the generation of random multidimensional vectors of rectangular coordinates of the corner points of the model. The difference between the observed and model fields is estimated in the Euclidean and Chebyshev metrics. The algorithm was developed for the purpose of teaching students and implemented in the PODBOR_ST program, which is used in the process of laboratory work. Model and practical examples of the interpretation of gravity anomalies are given. In the latter case, a guaranteed approach is implemented.

Balk P.I., Dolgal A.S. 2020. Additive technologies for solving inverse problems of gravity prospecting and magnetic prospecting. Moskva, Nauchnyy mir, p. 455. (in Russian)

Blokh Yu. I. 2009. Interpretation of gravitational and magnetic anomalies. p. 232. (in Russian) URL: http://sigma3d.com/index.php/publications/books Date of access 11/12/2021

Bulakh E.G. 2010. Direct and inverse problems of gravimetry and magnetometry. Kiev, Nauk. Dumka, p. 464. (in Russian)

Buslenko N.P., Shreider Yu.A. 1961. Statistical test method (Monte Carlo) and its implementation on digital computers. Moskva. State Publishing House of Physical and Mathematical Literature, p. 226. (in Russian)

Dolgal A.S., Sharkhimullin A.F. 2011. Increasing the accuracy of interpretation of monogenic gravitational anomalies. Geoinformatika. 4:49–56. (in Russian)

Goltsman F.M., Kalinina T.B. 1991. Interactive interpretation of gravitational and magnetic fields under conditions of a priori uncertainty. Izvestiya AN SSSR. Fizika Zemli. 12:84–93. (in Russian)

Kahaner D., Mowler K., Nash S. 2001. Numerical methods and software. Moskva, Mir, p. 575. (in Russian)

Robert C.P., Casella G. 2004. Monte Carlo Statistical Methods. 2nd edition, Springer, p. 683.

Rubinstein R.Y., Kroese D.P. 2007. Simulation and the Monte Carlo Method. 2nd edition, Wiley, p. 345.

Starostenko V.I. 1978. Stable numerical methods in problems of gravimetry. Kiev, Nauk. Dumka, p. 227. (in Russian)

Strakhov V.N. 2005. New in geophysics and geoinformatics. Moskva, IPE RAN, p. 133. (in Russian)

Yagola A.G., Van Yanfey, Stepanova I.E., Titarenko V.I. 2014. Inverse problems and methods for their solution. Applications to geophysics. Publishing house Binom, p. 216. (in Russian)

Yanovskaya T.V., Porokhova L.N. 2004. Inverse problems of geophysics: Textbook. 2nd ed., SPb., Publishing house of St. Petersburg. University, p. 214. (in Russian)

Zhdanov M.S. 2007. The theory of inverse problems and regularization in geophysics. Moskva, Nauchnyy mir, p. 712. (in Russian)