Frequency-resonance technology for the remote sensing data processing: the results of approbation on the ore deposits in Australia and south America

2013;
pp. 204 - 206
Received: July 10, 2013
1
Institute of Applied Problems of Ecology, Geophysics and Geochemistry
2
Institute of Applied Problems of Ecology, Geophysics and Geochemistry
3
Institute of Geophysics named after SI. Subbotin NAS of Ukraine

Purpose. Analyzing the results of experimental testing and practical application of mobile direct prospecting technology of the remote sensing (RS) data frequency-resonance processing and interpretation (decoding) for "direct" searches of the various types minerals on the ore deposits and prospective areas. Exploratory studies were conducted with its application within ore bearing areas in Australia and Southern America. Design/methodology/approach. Experiments were carried out with the mobile technology of frequency-resonance processing and interpretation of remote sensing data using, which is the "direct" method of mineral deposits exploration and operates within the "substantial" paradigm of geophysical investigations. The technologies and methods, developed on the principles of this paradigm, are aimed at the searching a particular (desired in each case) substance - gold, silver, copper, lead, zinc, uranium, oil, gas, condensate etc. Findings. The anomalous zones of “zones of ore (gold-bearing) mineralization” type were detected and mapped within investigated areas and ore deposits. It is shown that for the small objects (lodes) detection and mapping the remote sensing data processing should be carried in a large scale – 1:2000 and larger. Practical implications/value. This direct prospecting technology inclusion in the traditional complex of exploratory geological and geophysical methods will contribute both to minimize the financial cost for the particular exploration problem solving and to reduce significantly the time to implement them.

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