Geoinformatika 2020; 2(74) : 98-108

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ON THE POSSIBILITY OF APPLICATION THE FREQUENCY-RESONANCE TECHNOLOGY OF SATELLITE IMAGES AND PHOTOS IMAGES PROCESSING FOR STUDYING OBJECTS OF THE SOLAR SYSTEM AND FAR SPACE

M.A. Yakymchuk¹, I.M. Korchagin²

¹Management and Marketing Center of the Institute of Geological Science, NAS of Ukraine, Kyiv, Ukraine e-mail: yakymchuk@gmail.com
²Institute of Geophysics, NAS of Ukraine, Palladin Ave., Kyiv, 03680,Ukraine, e-mail: korchagin.i.n@gmail.com

Purpose. The results of experimental research of a reconnaissance nature on some planets and satellites of the solar system in order to study the features of their structure are presented. The studies were carried out using the methods of frequency-resonance processing and interpretation of satellite images and photo images of the locations of structural elements of planets and satellites of various sizes.

Design/methodology/approach. The survey of the volcanic structures locations was carried out using mobile technology, including modified methods of frequency-resonance processing and decoding of satellite images and photographs, vertical electrical resonance sounding (scanning) of the cross-section, as well as methods for integrated assessment of the oil and gas prospects of large prospecting blocks and local sites. Separate methods of technology are based on the principles of the “substance” paradigm of geophysical research, the essence of which is to search for a specific (sought in each specific case) substance – oil, gas, gas condensate, gold, zinc, uranium, etc.

Findings. When processing images of the Sun, signals are recorded from all chemical elements known on Earth, many groups of sedimentary and igneous rocks, hydrocarbons, coal, and diamonds. Frequency resonance processing of individual sunspots showed that within each of them, responses from various groups of sedimentary and igneous rocks are recorded. On the surveyed planets and satellites of the solar system, responses from all chemical elements known on Earth are not recorded. The maximum number of registered elements is 26. There is no oxygen among the fixed elements! On the satellites of the known planets of the solar system, fewer chemical elements are recorded than on the planets themselves.

The practical significance and conclusions. The research results indicate the fundamental possibility of using data from remote sensing of planets and satellites of the solar system (images from satellites, landing modules and telescopes) to study the internal structure of survey objects and the composition of rocks, minerals and chemical elements present on them. Frequency-resonance technology of satellite images and photo images processing can be used to conduct detailed studies on planets and satellites of the solar system in the framework of large scientific projects to study them.

Keywords: Planet, satellite, chemical element, volcano, oil, gas, hydrogen, satellite data, photograph, direct prospecting, mobile technology, anomaly, remote sensing data processing, interpretation.

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Receive 05.05.2020