Source: http://journals.uran.ua/geofizicheskiy/article/view/107720
Timestamp: 2019-04-19 04:58:25+00:00

Document:
The principles and stages of operation in interactive mode have been stated for Isohypse software complex intended for creating in computer memory a three-dimensional description of geophysical objects represented with isolines and faults. The main advantage is the ability to process both monochrome (black and white) and colored (original maps) image of objects in a rectangular or geographic coordinate system. The complex provides various ways to determine the parameter Z (x, y) in the grid node depending on its location on the image. The input lines is performed by using Bezier curves, which allows to more accurately simulate surface geophysical objects. For the first time introduced the concept of isolines of the specific type. The complex allows from already created digital definitions to cut and save the data in any rectangular region, to obtain information along the selected lines for further use in constructing two-dimensional cuts.
Aronov V. I., Gordin V. M., Shirginova A. I., 1971. On the construction of graphs and contour maps in geology and geophysics with the help of a digital computer. In: Mathematical methods and electronic computer in geology. Proceedings All-Russian Geological Research and Development Oil Institute. Vol. 103. Moscow, 71—124. (in Russian).
Bahvalov N. S., Zhydkov N. P., Kobel’kov G. M., 2003. Numerical methods. 2 ed. Moscow: Laboratoriya bazovykh znaniy, 39—42 (in Russian).
Bychkov S. G., 2010. Methods of processing and interpretation of gravity observations in solving problems of petroleum geology. Ekaterinburg: MI UBRAS Publ., 188 p. (in Russian).
Bychkov S. G., Dolgal A. S., Simanov A. A., 2015. The calculation of gravity anomalies in the precision gravity surveys. Perm: MI UBRAS Publ.,143 p. (in Russian).
Dolgal A. S., 2014. Magnetic exploration: computer technology the effect of terrain. Perm: Perm State Univ. Publ., 92 p. (in Russian).
Kuprienko P. Ya., Makarenko I. B., Starostenko V. I., Legostaeva O. V., Savchenko A. S., 2010. Three-dimensional density model of the crust and upper mantle of the Dnieper-Donets depression and Donbas. Geofizicheskiy zhurnal 32 (6), 175—214 (in Russian).
Pashkevich I. K., Sharov N. V., Savchenko A. S., Starostenko V. I., 2014. Three-dimensional geological-geophysical model of the lithosphere of the Central part of the Karelian craton. Geofizicheskiy zhurnal 36 (6), 58—78 (in Russian).
Petrov A. V., Piskun P. V., Zinovkin S. V., 2005. New features of computer technology, statistical and spectral correlation analysis of geodata «KOSKAD-ZD». Theory and practice of geological interpretation of gravity, magnetic and electric fields: Proc. of the 32nd session of the International Seminar behalf D. G. Uspenskiy. Perm: MI UBRAS Publ., 219—221 (in Russian).
Rogers D., Adams J., 2001. Mathematical foundations of computer graphics. Moscow: Mir, 604 p. (in Russian).
Savchenko A. S., Starostenko V. I., Legostaeva O. V., Makarenko I. E., 2008. Practical use of automated complex in the interpretation of potential field data selection method. Theory and practice of geological interpretation of gravity, magnetic and electric fields: Proc. of the 35lh session of the Int. seminar behalf D. G. Uspenskiy. January 29 — February 3. Ukhta: UGTU, 271—274 (in Russian).
Starostenko V. I., Kuprienko P. Ya., Makarenko I. B., Legostaeva O. V., Savchenko A. S., 2012. Density inhomogeneities in the crust along the latitudinal fault zones of the Ukrainian Shield and the Dnieper-Donets Basin. Geofizicheskiy zhurnal 34 (6), 113—132 (in Russian).
Starostenko V. I., Kuprienko P. Ya., Makarenko I. B., , Savchenko A. S., Legostaeva O. V., 2015. Density heterogeneity of the Earth's crust of the Ingul megablock of the Ukrainian Shield according to the data of three-dimensional gravity modeling. Geofizicheskiy zhurnal 37 (3), 3—21 (in Russian).
Starostenko V. I., Legostaeva O. V., Makarenko I. B., Pavlyuk E. V., Sharypanov V. M., 2004. On automated input into the computer images of geological and geophysical maps with discontinuities of the first kind and visualization of three-dimensional interactive geophysical models and their fields. Geofizicheskiy zhurnal 26 (1), 3—13 (in Russian).
Starostenko V. I., Legostayeva O. V., Makarenko I. B., Savchenko A. S., 2015. Software system for automated data interpretation of potential fields (GMT-Auto). Geofizicheskiy zhurnal 37 (1), 42—52 (in Russian).
Starostenko V. I., Makarenko I. B., Rusakov O. M., Pashkevich I. K., Kutas R. I., Legostaeva O. V., 2010. Geophysical lithospheric heterogeneity megadepression Black Sea. Geofizicheskiy zhurnal 32 (5), 3—20 (in Russian).
Starostenko V. I., Matsello V. V., Aksak I. N., Kulesh V. A., Legostaeva O. V., Yegorova T. P., 1997. Automation computer input image geophysical maps and building their digital models. Geofizicheskiy zhurnal 19 (1), 3—13 (in Russian).
Starostenko V. I., Sharypanov V. M., Savchenko A. S., Legostaeva O. V., Makarenko I. B., Kuprienko P. Ya., 2011. An automated interactive graphics process of geological and geophysical objects. Geofizicheskiy zhurnal 33 (1), 54—61 (in Russian).
Tectonics and hydrocarbon potential of crystalline basement of the Dnieper-Donets depression, 2015. Eds V. I. Starostenko, O. M. Rusakov. Kiev: Galaktika, 211 p. (in Russian).
Shlezinger M. I., 1989. Mathematical tools of image processing. Kiev: Naukova Dumka, 200 p. (in Russian).
Shlezinger M., Glavach V., 2004. Ten Lectures on Statistical and Structural Recognition. Kiev: Naukova Dumka, 535 p. (in Russian).
Bielik M., Krajňak M., Makarenko I., Legostaeva O., Starostenko V., Bosansky M., Grine M., Hok J., 2013. 3D gravity interpretation of the pre-Tertiary basement in the intramontane depressions of the Western Carpathians: a case study from the Turiec Basin. Geologica Carpathica 64 (5), 99—408.
Krajňak M., Bielik M., Makarenko I., Legostaeva O., Starostenko V., Bosansky M., 2012. The first stripped gravity map of the Turcianska Kotlina Basin. Contrib. Geophys. Geod. 42 (2), 181—199.

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