{"id":2185,"date":"2015-02-02T12:33:33","date_gmt":"2015-02-02T10:33:33","guid":{"rendered":"http:\/\/www.geology.com.ua\/?page_id=2185"},"modified":"2016-06-07T11:32:50","modified_gmt":"2016-06-07T09:32:50","slug":"2185-2","status":"publish","type":"page","link":"http:\/\/www.geology.com.ua\/en\/2185-2\/","title":{"rendered":"(\u0423\u043a\u0440\u0430\u0457\u043d\u0441\u044c\u043a\u0430) Geoinformatika 2014; 2(50) : 43-55"},"content":{"rendered":"

Geoinformatika 2014; 2(50) : 43-55 (in Ukrainian)<\/p>\n

MODULAR FLOWCHART\u00a0OF TRANSFORMATION, DECODING AND GEOLOGICAL INTERPRETATION\u00a0OF REMOTE AEROSPACE SURVEY DATA<\/h4>\n

O.T. Azimov <\/em><\/h5>\n

Scientific Centre for Aerospace Research of the Earth (CASRE) Institute of Geological Sciences of National Academy of Sciences of Ukraine, Oles Gonchar St., 55-b, Kyiv 01601, Ukraine, e-mail: azimov@casre.kiev.ua<\/em><\/p>\n

The designed conceptual generic modular flowchart of transformation, decoding and geologic interpretation of remote sensing data in the complex with geological and geophysical data is characterised. The flowchart is based on geoinformation technologies application. As far as the novelty of elaboration this flowchart has the generalisable character relative to the previous analogues that allows conducting aero-space-geological studies in the multidimensional aspects instead of the restricted thematic one only. Furthermore the article shows the more complete version for the proper logical block scheme of remote and geological-geophysical data processing. In general, the flowchart consists of four main stages: 1) setting up a problem; 2) composing knowledge and data bases; 3) processing and analyses of data using the geographic information systems (GIS); 4) complex analysis and geological interpretation for the information integrated into the GIS. The flowchart is modular. Consequently its different parts (constituent elements) may be applied depending on the research level (global, regional, zonal or local scales) for the prospecting geological objects (i.\u00a0e. disjunctive, petroleum promising and other ones), their complexity and completeness as well as the availability of remote sensing and geological-geophysical data. The flowchart is practically realized to study the features of the rupture dislocation of the Earth crust in the conditions of the different landscape-geological structure of Ukraine in frame of the scientific and applied problems of the use of subsurface resources and geoecology. The single modules of the flowchart are used to solve the problem of predicting the potential hydrocarbon traps.<\/p>\n

Keywords:<\/strong> flowchart, geoinformation technologies, spatial data.<\/p>\n

The full text of papers<\/a><\/span>\u00a0 <\/strong><\/em><\/p>\n

References<\/strong><\/a><\/p>\n

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    \n
  1. Mychak A.G., Filipovych V.Je., Pryhod\u2019ko V.L., Nikolayenko B.O., Yantsevych O.O., Pazynych N.V., Lishchenko L.P., Kudryashov O.I., Teremenko O.M., Taranhul D.O., Arkhipov O.I. Aerokosmichni doslidzhennja geologichnogo seredovyshha: Nauk.-metod. posib.<\/em> [Aerospace research of geological environment: Sci. and methodical textbook]. Kyiv, Ministry of ecology and natural resources of Ukraine<\/em>, State geol. survey<\/em>, 2010, 246 p.<\/li>\n
  2. Azimov O.T. Doslidzhennja dyz\u2019junktyvnyh dyslokacij zemnoi\u2019 kory aerokosmichnymy metodamy (na prykladi regioniv Ukrai\u2019ny). Dys. dokt. geol. nauk: 04.00.01 \u201cZagal\u2019na ta regional\u2019na geologija\u201d<\/em> [Research of disjunctive dislocations in the Earth\u2019s crust with remote sensing methods (by the examples of some Ukraine\u2019s regions). Dr. geol. sci. diss.: 04.00.01 \u201cGeneral and regional geology\u201d] \/ IGS, NAS of Ukraine. N SR 0509U000102. Kyiv, 2008, 485 p.<\/li>\n
  3. Azimov O.T. Geoinformatyka u problemi stvorennja tehnologichnoi\u2019 shemy obrobky\/interpretacii\u2019 danyh aerokosmichnyh zjomok pry vyrishenni geologichnyh zavdan\u2019<\/em> [Geoinformatics for generation of the flowchart of remote sensing data processing and interpretation for solution of geologic problems]. Trudy \u0406\u0425 Mizhnarodnoyi naukovoyi konferentsiyi \u201cMonitoryng geologichnyh procesiv\u201d<\/em> [Proc. IX Inter. Sci. Conf. \u201cMonitoring of geological processes\u201d, Kyiv, 14-17 Oct. 2009]. Kyiv, Publ. Taras Shevchenko National University of Kyiv<\/em>, 2009, pp. 235-238.<\/li>\n
  4. Azimov O. Geoinformacijni tehnologii\u2019 u koncepcii\u2019 stvorennja uzagal\u2019nenoi\u2019 shemy obrobky\/interpretacii\u2019 danyh dystancijnogo zonduvannja Zemli<\/em> [Geoinformation technologies for the conception of generation of the generic flow chart of remote sensing data processing and interpretation]. Taras Shevchenko National University of Kyiv, Bull., Series: Geology<\/em>, 2010, issue 50, pp.37-40.<\/li>\n
  5. Azimov O.T. Metodologija rozriznennja dyz\u2019junktyvnyh dyslokacij za materialamy dystancijnyh zjomok. Article 6. Komp\u2019juteryzovani metody tematychnogo deshyfruvannja ta interpretacii\u2019 danyh dystancijnogo zonduvannja Zemli <\/em>[Methodology of disjunctive dislocations distinguishing via remote sensing data. Pt. 6. Computerized methods of thematic decoding and interpretation of remote sensing data]. Sci. proc. of UkrSGRI<\/em>, Kyiv, 2011, no. 2, pp. 102-142.<\/li>\n
  6. Azimov O.T., Lyalko V.I. Komp\u2019juterna tehnologija kompleksnogo analizu ta interpretacii\u2019 aerokosmichnyh i geologo-geofizychnyh danyh (vyrishennja naftogazoposhukovyh zavdan\u2019)<\/em> [Computer technology of integral analysis and interpretation for aerospace, geological and geophysical data (petroleum prospecting objectives solving)]. Trudy X Mezhdunarodnoy konferentsii \u201cKrym-2012 \u2013 Azovo-Chernomorskiy poligon izucheniya geodinamiki i flyuidodinamiki formirovaniya mestorozhdeniy nefti i gaza\u201d<\/em> [Proc. XI Sci. Conf. \u201cCremea-2012 \u2013 Azov and Black sea polygon of research the geodynamics and fluid dynamics of generation the petroleum deposits\u201d]. Simferopol\u2019, AGEO<\/em>, 2012, pp. 139-145.<\/li>\n
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    \/\/<\/p>","protected":false},"excerpt":{"rendered":"

    Geoinformatika 2014; 2(50) : 43-55 (in Ukrainian) MODULAR FLOWCHART\u00a0OF TRANSFORMATION, DECODING AND GEOLOGICAL INTERPRETATION\u00a0OF REMOTE AEROSPACE SURVEY DATA O.T. Azimov Scientific Centre for Aerospace Research of the Earth (CASRE) Institute of Geological Sciences of National Academy of Sciences of Ukraine, Oles Gonchar St., 55-b, Kyiv 01601, Ukraine, e-mail: azimov@casre.kiev.ua The designed conceptual generic modular flowchart of transformation, decoding and geologic interpretation of remote sensing data in the complex with geological and geophysical data is characterised. The flowchart is based on geoinformation technologies application. As far as the novelty of elaboration this flowchart has the generalisable character relative to the previous analogues that allows conducting aero-space-geological studies in the multidimensional aspects instead of the restricted thematic one only. Furthermore the article shows the more complete version for the proper logical block scheme of remote and geological-geophysical data processing. In general, the flowchart consists of four main stages: 1) setting up a problem; 2) composing knowledge and data bases; 3) processing and analyses of data using the geographic information systems (GIS); 4) complex analysis and geological interpretation for the information integrated into the GIS. The flowchart is modular. Consequently its different parts (constituent elements) may be applied depending on the research level (global, regional, zonal or local scales) for the prospecting geological objects (i.\u00a0e. disjunctive, petroleum promising and other ones), their complexity and completeness as well as the availability of remote sensing and geological-geophysical data. The flowchart is practically realized to study the features of the rupture dislocation of the Earth crust in the conditions of the different landscape-geological structure of Ukraine in frame of the scientific and applied problems of the use of subsurface resources and geoecology. The single modules of the flowchart are used to solve the problem of predicting the potential hydrocarbon traps. Keywords: flowchart, geoinformation technologies, spatial data. The full text of papers\u00a0 References Mychak A.G., Filipovych V.Je., Pryhod\u2019ko V.L., Nikolayenko B.O., Yantsevych O.O., Pazynych N.V., Lishchenko L.P., Kudryashov O.I., Teremenko O.M., Taranhul D.O., Arkhipov O.I. Aerokosmichni doslidzhennja geologichnogo seredovyshha: Nauk.-metod. posib. [Aerospace research of geological environment: Sci. and methodical textbook]. Kyiv, Ministry of ecology and natural resources of Ukraine, State geol. survey, 2010, 246 p. Azimov O.T. Doslidzhennja dyz\u2019junktyvnyh dyslokacij zemnoi\u2019 kory aerokosmichnymy metodamy (na prykladi regioniv Ukrai\u2019ny). Dys. dokt. geol. nauk: 04.00.01 \u201cZagal\u2019na ta regional\u2019na geologija\u201d [Research of disjunctive dislocations in the Earth\u2019s crust with remote sensing methods (by the examples of some Ukraine\u2019s regions). Dr. geol. sci. diss.: 04.00.01 \u201cGeneral and regional geology\u201d] \/ IGS, NAS of Ukraine. N SR 0509U000102. Kyiv, 2008, 485 p. Azimov O.T. Geoinformatyka u problemi stvorennja tehnologichnoi\u2019 shemy obrobky\/interpretacii\u2019 danyh aerokosmichnyh zjomok pry vyrishenni geologichnyh zavdan\u2019 [Geoinformatics for generation of the flowchart of remote sensing data processing and interpretation for solution of geologic problems]. Trudy \u0406\u0425 Mizhnarodnoyi naukovoyi konferentsiyi \u201cMonitoryng geologichnyh procesiv\u201d [Proc. IX Inter. Sci. Conf. \u201cMonitoring of geological processes\u201d, Kyiv, 14-17 Oct. 2009]. Kyiv, Publ. Taras Shevchenko National University of Kyiv, 2009, pp. 235-238. Azimov O. Geoinformacijni tehnologii\u2019 u koncepcii\u2019 stvorennja uzagal\u2019nenoi\u2019 shemy obrobky\/interpretacii\u2019 danyh dystancijnogo zonduvannja Zemli [Geoinformation technologies for the conception of generation of the generic flow chart of remote sensing data processing and interpretation]. Taras Shevchenko National University of Kyiv, Bull., Series: Geology, 2010, issue 50, pp.37-40. Azimov O.T. Metodologija rozriznennja dyz\u2019junktyvnyh dyslokacij za materialamy dystancijnyh zjomok. Article 6. Komp\u2019juteryzovani metody tematychnogo deshyfruvannja ta interpretacii\u2019 danyh dystancijnogo zonduvannja Zemli [Methodology of disjunctive dislocations distinguishing via remote sensing data. Pt. 6. Computerized methods of thematic decoding and interpretation of remote sensing data]. Sci. proc. of UkrSGRI, Kyiv, 2011, no. 2, pp. 102-142. Azimov O.T., Lyalko V.I. Komp\u2019juterna tehnologija kompleksnogo analizu ta interpretacii\u2019 aerokosmichnyh i geologo-geofizychnyh danyh (vyrishennja naftogazoposhukovyh zavdan\u2019) [Computer technology of integral analysis and interpretation for aerospace, geological and geophysical data (petroleum prospecting objectives solving)]. Trudy X Mezhdunarodnoy konferentsii \u201cKrym-2012 \u2013 Azovo-Chernomorskiy poligon izucheniya geodinamiki i flyuidodinamiki formirovaniya mestorozhdeniy nefti i gaza\u201d [Proc. XI Sci. Conf. \u201cCremea-2012 \u2013 Azov and Black sea polygon of research the geodynamics and fluid dynamics of generation the petroleum deposits\u201d]. Simferopol\u2019, AGEO, 2012, pp. 139-145. Redkolis V.A., Bereznitskiy V.V., Siranchuk E.N., Drobysh L.M., Bordovskaya E.V., Kris\u2019ko N.M., Sidlinskaya E.S., Kudryavtseva A.M. Analiz effektivnosti geofizicheskikh issledovaniy GGP \u201cUkrgeofizika\u201d: Otchet po teme 113\/89 (v 8 knigakh); otv. ispolnitel\u2019 Stovba S.N. Kn. 2. Tekstovoe prilozhenie: Interpretatsiya i obobshchenie seysmostratigraficheskikh issledovaniy po regional\u2019nym profilyam MOGT v severo-zapadnoy chasti DDV, vypolnennye tematicheskoy partiey 21 KGRE v 1990-1993 gg. [Analysis of the geophysical investigation effectiveness of the SGE \u201cUkrgeofizika\u201d. The report on a theme 113\/89 (in 8 parts); resp. execut. Stovba S.N. Pt. 2. Text attachment: The interpretation and generalization the seismic and stratigraphic investigation by the CDPS regional profiles in the north-western part of the DDD performed by the 21 thematic party of the KGPE in 1990-1993] \/ SGE \u201cUkrgeofizika\u201d. N SR 39-91-82\/2. Kiev, 1993, 122 p. Aerokosmicheskie metody geologicheskikh issledovaniy [Aerospace methods of geological investigation]; ed. by A.V. Pertsov. St.Petersburg, Publ. of St. Petersburg map factory of All RSRGI, 2000, 316 p. Bagatospektral\u2019ni metody dystancijnogo zonduvannja Zemli v zadachah pryrodokorystuvannja [Multispectral remote sensing in nature management]; eds V.I. Lyalko and M.O. Popov. Kyiv, Naukova dumka, 2006, 358 p. Busygin B.S., Nikulin S.L., Boyko V.A. GIS-tekhnologiya poiskov zolota v Zapadnom Uzbekistane [GIS-technology for gold prospecting in Western Uzbekistan]. Geoinformatika [Geoinformatics (Ukraine)], 2006, no. 1, pp. 44\u201349. Butseva M.I., Yarosh V.I., Marukhnyak A.N. Otchet o regional\u2019nykh rabotakh na Khukhryanskoy ploshchadi, vypolnennykh seysmorazvedochnoy partiey 2 86 v 1986-1987 gg. [Report of regional works on the Khukhryanskaya area performed by the seismic prospecting party 2 86 in 1986-1987] \/ Kievskaya geofizicheskaya razvedochnaya ekspeditsiya. N SR 39-86-19\/20. Kiev, 1988, 77 p. Veklych Ju.M., Celik V.V., Jancevych O.O. Rozrobka ta vdoskonalennja metodyky geokartuvannja ta skladannja cyfrovyh geologichnyh kart, vkljuchajuchy i\u2019h dystancijnu osnovu: Zvit pro NDR 604 (zakljuchnyj) [Development and perfection the methodology of geological mapping and digital geological mapping including their remote sensing basis. The report of a research 604 (the final)]. Pt. 1. Text \/ UkrSGRI. N SR U-03-135\/40. Kyiv, 2005, 295 p. GotynyanV.S., KostryukovM.I., Lavrus\u2019\u00a0V.P., Litvinenko\u00a0V.D., Martynov\u00a0O.S., Mokienko\u00a0V.F., Moroz\u00a0V.S., Ovsienko\u00a0G.R., Tovstyuk Z.M., Chernyavskiy G.V., Shardanov A.N. Vremennye metodicheskie […]<\/p>\n","protected":false},"author":2,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"open","ping_status":"open","template":"","meta":{"footnotes":""},"class_list":["post-2185","page","type-page","status-publish","hentry"],"yoast_head":"\n(\u0423\u043a\u0440\u0430\u0457\u043d\u0441\u044c\u043a\u0430) Geoinformatika 2014; 2(50) : 43-55 - \u0421\u0430\u0439\u0442 \u0436\u0443\u0440\u043d\u0430\u043b\u0443 \u00ab\u0413\u0435\u043e\u0456\u043d\u0444\u043e\u0440\u043c\u0430\u0442\u0438\u043a\u0430\u00bb<\/title>\n<meta name=\"robots\" content=\"index, follow, max-snippet:-1, max-image-preview:large, max-video-preview:-1\" \/>\n<link rel=\"canonical\" href=\"http:\/\/www.geology.com.ua\/en\/2185-2\/\" \/>\n<meta property=\"og:locale\" content=\"en_US\" \/>\n<meta property=\"og:type\" content=\"article\" \/>\n<meta property=\"og:title\" content=\"(\u0423\u043a\u0440\u0430\u0457\u043d\u0441\u044c\u043a\u0430) Geoinformatika 2014; 2(50) : 43-55 - \u0421\u0430\u0439\u0442 \u0436\u0443\u0440\u043d\u0430\u043b\u0443 \u00ab\u0413\u0435\u043e\u0456\u043d\u0444\u043e\u0440\u043c\u0430\u0442\u0438\u043a\u0430\u00bb\" \/>\n<meta property=\"og:description\" content=\"Geoinformatika 2014; 2(50) : 43-55 (in Ukrainian) MODULAR FLOWCHART\u00a0OF TRANSFORMATION, DECODING AND GEOLOGICAL INTERPRETATION\u00a0OF REMOTE AEROSPACE SURVEY DATA O.T. Azimov Scientific Centre for Aerospace Research of the Earth (CASRE) Institute of Geological Sciences of National Academy of Sciences of Ukraine, Oles Gonchar St., 55-b, Kyiv 01601, Ukraine, e-mail: azimov@casre.kiev.ua The designed conceptual generic modular flowchart of transformation, decoding and geologic interpretation of remote sensing data in the complex with geological and geophysical data is characterised. The flowchart is based on geoinformation technologies application. As far as the novelty of elaboration this flowchart has the generalisable character relative to the previous analogues that allows conducting aero-space-geological studies in the multidimensional aspects instead of the restricted thematic one only. Furthermore the article shows the more complete version for the proper logical block scheme of remote and geological-geophysical data processing. In general, the flowchart consists of four main stages: 1) setting up a problem; 2) composing knowledge and data bases; 3) processing and analyses of data using the geographic information systems (GIS); 4) complex analysis and geological interpretation for the information integrated into the GIS. The flowchart is modular. Consequently its different parts (constituent elements) may be applied depending on the research level (global, regional, zonal or local scales) for the prospecting geological objects (i.\u00a0e. disjunctive, petroleum promising and other ones), their complexity and completeness as well as the availability of remote sensing and geological-geophysical data. The flowchart is practically realized to study the features of the rupture dislocation of the Earth crust in the conditions of the different landscape-geological structure of Ukraine in frame of the scientific and applied problems of the use of subsurface resources and geoecology. The single modules of the flowchart are used to solve the problem of predicting the potential hydrocarbon traps. Keywords: flowchart, geoinformation technologies, spatial data. The full text of papers\u00a0 References Mychak A.G., Filipovych V.Je., Pryhod\u2019ko V.L., Nikolayenko B.O., Yantsevych O.O., Pazynych N.V., Lishchenko L.P., Kudryashov O.I., Teremenko O.M., Taranhul D.O., Arkhipov O.I. Aerokosmichni doslidzhennja geologichnogo seredovyshha: Nauk.-metod. posib. [Aerospace research of geological environment: Sci. and methodical textbook]. Kyiv, Ministry of ecology and natural resources of Ukraine, State geol. survey, 2010, 246 p. Azimov O.T. Doslidzhennja dyz\u2019junktyvnyh dyslokacij zemnoi\u2019 kory aerokosmichnymy metodamy (na prykladi regioniv Ukrai\u2019ny). Dys. dokt. geol. nauk: 04.00.01 \u201cZagal\u2019na ta regional\u2019na geologija\u201d [Research of disjunctive dislocations in the Earth\u2019s crust with remote sensing methods (by the examples of some Ukraine\u2019s regions). Dr. geol. sci. diss.: 04.00.01 \u201cGeneral and regional geology\u201d] \/ IGS, NAS of Ukraine. N SR 0509U000102. Kyiv, 2008, 485 p. Azimov O.T. Geoinformatyka u problemi stvorennja tehnologichnoi\u2019 shemy obrobky\/interpretacii\u2019 danyh aerokosmichnyh zjomok pry vyrishenni geologichnyh zavdan\u2019 [Geoinformatics for generation of the flowchart of remote sensing data processing and interpretation for solution of geologic problems]. Trudy \u0406\u0425 Mizhnarodnoyi naukovoyi konferentsiyi \u201cMonitoryng geologichnyh procesiv\u201d [Proc. IX Inter. Sci. Conf. \u201cMonitoring of geological processes\u201d, Kyiv, 14-17 Oct. 2009]. Kyiv, Publ. Taras Shevchenko National University of Kyiv, 2009, pp. 235-238. Azimov O. Geoinformacijni tehnologii\u2019 u koncepcii\u2019 stvorennja uzagal\u2019nenoi\u2019 shemy obrobky\/interpretacii\u2019 danyh dystancijnogo zonduvannja Zemli [Geoinformation technologies for the conception of generation of the generic flow chart of remote sensing data processing and interpretation]. Taras Shevchenko National University of Kyiv, Bull., Series: Geology, 2010, issue 50, pp.37-40. Azimov O.T. Metodologija rozriznennja dyz\u2019junktyvnyh dyslokacij za materialamy dystancijnyh zjomok. Article 6. Komp\u2019juteryzovani metody tematychnogo deshyfruvannja ta interpretacii\u2019 danyh dystancijnogo zonduvannja Zemli [Methodology of disjunctive dislocations distinguishing via remote sensing data. Pt. 6. Computerized methods of thematic decoding and interpretation of remote sensing data]. Sci. proc. of UkrSGRI, Kyiv, 2011, no. 2, pp. 102-142. Azimov O.T., Lyalko V.I. Komp\u2019juterna tehnologija kompleksnogo analizu ta interpretacii\u2019 aerokosmichnyh i geologo-geofizychnyh danyh (vyrishennja naftogazoposhukovyh zavdan\u2019) [Computer technology of integral analysis and interpretation for aerospace, geological and geophysical data (petroleum prospecting objectives solving)]. Trudy X Mezhdunarodnoy konferentsii \u201cKrym-2012 \u2013 Azovo-Chernomorskiy poligon izucheniya geodinamiki i flyuidodinamiki formirovaniya mestorozhdeniy nefti i gaza\u201d [Proc. XI Sci. Conf. \u201cCremea-2012 \u2013 Azov and Black sea polygon of research the geodynamics and fluid dynamics of generation the petroleum deposits\u201d]. Simferopol\u2019, AGEO, 2012, pp. 139-145. Redkolis V.A., Bereznitskiy V.V., Siranchuk E.N., Drobysh L.M., Bordovskaya E.V., Kris\u2019ko N.M., Sidlinskaya E.S., Kudryavtseva A.M. Analiz effektivnosti geofizicheskikh issledovaniy GGP \u201cUkrgeofizika\u201d: Otchet po teme 113\/89 (v 8 knigakh); otv. ispolnitel\u2019 Stovba S.N. Kn. 2. Tekstovoe prilozhenie: Interpretatsiya i obobshchenie seysmostratigraficheskikh issledovaniy po regional\u2019nym profilyam MOGT v severo-zapadnoy chasti DDV, vypolnennye tematicheskoy partiey 21 KGRE v 1990-1993 gg. [Analysis of the geophysical investigation effectiveness of the SGE \u201cUkrgeofizika\u201d. The report on a theme 113\/89 (in 8 parts); resp. execut. Stovba S.N. Pt. 2. Text attachment: The interpretation and generalization the seismic and stratigraphic investigation by the CDPS regional profiles in the north-western part of the DDD performed by the 21 thematic party of the KGPE in 1990-1993] \/ SGE \u201cUkrgeofizika\u201d. N SR 39-91-82\/2. Kiev, 1993, 122 p. Aerokosmicheskie metody geologicheskikh issledovaniy [Aerospace methods of geological investigation]; ed. by A.V. Pertsov. St.Petersburg, Publ. of St. Petersburg map factory of All RSRGI, 2000, 316 p. Bagatospektral\u2019ni metody dystancijnogo zonduvannja Zemli v zadachah pryrodokorystuvannja [Multispectral remote sensing in nature management]; eds V.I. Lyalko and M.O. Popov. Kyiv, Naukova dumka, 2006, 358 p. Busygin B.S., Nikulin S.L., Boyko V.A. GIS-tekhnologiya poiskov zolota v Zapadnom Uzbekistane [GIS-technology for gold prospecting in Western Uzbekistan]. Geoinformatika [Geoinformatics (Ukraine)], 2006, no. 1, pp. 44\u201349. Butseva M.I., Yarosh V.I., Marukhnyak A.N. Otchet o regional\u2019nykh rabotakh na Khukhryanskoy ploshchadi, vypolnennykh seysmorazvedochnoy partiey 2 86 v 1986-1987 gg. [Report of regional works on the Khukhryanskaya area performed by the seismic prospecting party 2 86 in 1986-1987] \/ Kievskaya geofizicheskaya razvedochnaya ekspeditsiya. N SR 39-86-19\/20. Kiev, 1988, 77 p. Veklych Ju.M., Celik V.V., Jancevych O.O. Rozrobka ta vdoskonalennja metodyky geokartuvannja ta skladannja cyfrovyh geologichnyh kart, vkljuchajuchy i\u2019h dystancijnu osnovu: Zvit pro NDR 604 (zakljuchnyj) [Development and perfection the methodology of geological mapping and digital geological mapping including their remote sensing basis. The report of a research 604 (the final)]. Pt. 1. Text \/ UkrSGRI. N SR U-03-135\/40. Kyiv, 2005, 295 p. GotynyanV.S., KostryukovM.I., Lavrus\u2019\u00a0V.P., Litvinenko\u00a0V.D., Martynov\u00a0O.S., Mokienko\u00a0V.F., Moroz\u00a0V.S., Ovsienko\u00a0G.R., Tovstyuk Z.M., Chernyavskiy G.V., Shardanov A.N. 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Azimov Scientific Centre for Aerospace Research of the Earth (CASRE) Institute of Geological Sciences of National Academy of Sciences of Ukraine, Oles Gonchar St., 55-b, Kyiv 01601, Ukraine, e-mail: azimov@casre.kiev.ua The designed conceptual generic modular flowchart of transformation, decoding and geologic interpretation of remote sensing data in the complex with geological and geophysical data is characterised. The flowchart is based on geoinformation technologies application. As far as the novelty of elaboration this flowchart has the generalisable character relative to the previous analogues that allows conducting aero-space-geological studies in the multidimensional aspects instead of the restricted thematic one only. Furthermore the article shows the more complete version for the proper logical block scheme of remote and geological-geophysical data processing. In general, the flowchart consists of four main stages: 1) setting up a problem; 2) composing knowledge and data bases; 3) processing and analyses of data using the geographic information systems (GIS); 4) complex analysis and geological interpretation for the information integrated into the GIS. The flowchart is modular. Consequently its different parts (constituent elements) may be applied depending on the research level (global, regional, zonal or local scales) for the prospecting geological objects (i.\u00a0e. disjunctive, petroleum promising and other ones), their complexity and completeness as well as the availability of remote sensing and geological-geophysical data. The flowchart is practically realized to study the features of the rupture dislocation of the Earth crust in the conditions of the different landscape-geological structure of Ukraine in frame of the scientific and applied problems of the use of subsurface resources and geoecology. The single modules of the flowchart are used to solve the problem of predicting the potential hydrocarbon traps. Keywords: flowchart, geoinformation technologies, spatial data. The full text of papers\u00a0 References Mychak A.G., Filipovych V.Je., Pryhod\u2019ko V.L., Nikolayenko B.O., Yantsevych O.O., Pazynych N.V., Lishchenko L.P., Kudryashov O.I., Teremenko O.M., Taranhul D.O., Arkhipov O.I. Aerokosmichni doslidzhennja geologichnogo seredovyshha: Nauk.-metod. posib. [Aerospace research of geological environment: Sci. and methodical textbook]. Kyiv, Ministry of ecology and natural resources of Ukraine, State geol. survey, 2010, 246 p. Azimov O.T. Doslidzhennja dyz\u2019junktyvnyh dyslokacij zemnoi\u2019 kory aerokosmichnymy metodamy (na prykladi regioniv Ukrai\u2019ny). Dys. dokt. geol. nauk: 04.00.01 \u201cZagal\u2019na ta regional\u2019na geologija\u201d [Research of disjunctive dislocations in the Earth\u2019s crust with remote sensing methods (by the examples of some Ukraine\u2019s regions). Dr. geol. sci. diss.: 04.00.01 \u201cGeneral and regional geology\u201d] \/ IGS, NAS of Ukraine. N SR 0509U000102. Kyiv, 2008, 485 p. Azimov O.T. Geoinformatyka u problemi stvorennja tehnologichnoi\u2019 shemy obrobky\/interpretacii\u2019 danyh aerokosmichnyh zjomok pry vyrishenni geologichnyh zavdan\u2019 [Geoinformatics for generation of the flowchart of remote sensing data processing and interpretation for solution of geologic problems]. Trudy \u0406\u0425 Mizhnarodnoyi naukovoyi konferentsiyi \u201cMonitoryng geologichnyh procesiv\u201d [Proc. IX Inter. Sci. Conf. \u201cMonitoring of geological processes\u201d, Kyiv, 14-17 Oct. 2009]. Kyiv, Publ. Taras Shevchenko National University of Kyiv, 2009, pp. 235-238. Azimov O. Geoinformacijni tehnologii\u2019 u koncepcii\u2019 stvorennja uzagal\u2019nenoi\u2019 shemy obrobky\/interpretacii\u2019 danyh dystancijnogo zonduvannja Zemli [Geoinformation technologies for the conception of generation of the generic flow chart of remote sensing data processing and interpretation]. Taras Shevchenko National University of Kyiv, Bull., Series: Geology, 2010, issue 50, pp.37-40. Azimov O.T. Metodologija rozriznennja dyz\u2019junktyvnyh dyslokacij za materialamy dystancijnyh zjomok. Article 6. Komp\u2019juteryzovani metody tematychnogo deshyfruvannja ta interpretacii\u2019 danyh dystancijnogo zonduvannja Zemli [Methodology of disjunctive dislocations distinguishing via remote sensing data. Pt. 6. Computerized methods of thematic decoding and interpretation of remote sensing data]. Sci. proc. of UkrSGRI, Kyiv, 2011, no. 2, pp. 102-142. Azimov O.T., Lyalko V.I. Komp\u2019juterna tehnologija kompleksnogo analizu ta interpretacii\u2019 aerokosmichnyh i geologo-geofizychnyh danyh (vyrishennja naftogazoposhukovyh zavdan\u2019) [Computer technology of integral analysis and interpretation for aerospace, geological and geophysical data (petroleum prospecting objectives solving)]. Trudy X Mezhdunarodnoy konferentsii \u201cKrym-2012 \u2013 Azovo-Chernomorskiy poligon izucheniya geodinamiki i flyuidodinamiki formirovaniya mestorozhdeniy nefti i gaza\u201d [Proc. XI Sci. Conf. \u201cCremea-2012 \u2013 Azov and Black sea polygon of research the geodynamics and fluid dynamics of generation the petroleum deposits\u201d]. Simferopol\u2019, AGEO, 2012, pp. 139-145. Redkolis V.A., Bereznitskiy V.V., Siranchuk E.N., Drobysh L.M., Bordovskaya E.V., Kris\u2019ko N.M., Sidlinskaya E.S., Kudryavtseva A.M. Analiz effektivnosti geofizicheskikh issledovaniy GGP \u201cUkrgeofizika\u201d: Otchet po teme 113\/89 (v 8 knigakh); otv. ispolnitel\u2019 Stovba S.N. Kn. 2. 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Bagatospektral\u2019ni metody dystancijnogo zonduvannja Zemli v zadachah pryrodokorystuvannja [Multispectral remote sensing in nature management]; eds V.I. Lyalko and M.O. Popov. Kyiv, Naukova dumka, 2006, 358 p. Busygin B.S., Nikulin S.L., Boyko V.A. GIS-tekhnologiya poiskov zolota v Zapadnom Uzbekistane [GIS-technology for gold prospecting in Western Uzbekistan]. Geoinformatika [Geoinformatics (Ukraine)], 2006, no. 1, pp. 44\u201349. Butseva M.I., Yarosh V.I., Marukhnyak A.N. Otchet o regional\u2019nykh rabotakh na Khukhryanskoy ploshchadi, vypolnennykh seysmorazvedochnoy partiey 2 86 v 1986-1987 gg. [Report of regional works on the Khukhryanskaya area performed by the seismic prospecting party 2 86 in 1986-1987] \/ Kievskaya geofizicheskaya razvedochnaya ekspeditsiya. N SR 39-86-19\/20. Kiev, 1988, 77 p. Veklych Ju.M., Celik V.V., Jancevych O.O. Rozrobka ta vdoskonalennja metodyky geokartuvannja ta skladannja cyfrovyh geologichnyh kart, vkljuchajuchy i\u2019h dystancijnu osnovu: Zvit pro NDR 604 (zakljuchnyj) [Development and perfection the methodology of geological mapping and digital geological mapping including their remote sensing basis. The report of a research 604 (the final)]. Pt. 1. Text \/ UkrSGRI. N SR U-03-135\/40. Kyiv, 2005, 295 p. GotynyanV.S., KostryukovM.I., Lavrus\u2019\u00a0V.P., Litvinenko\u00a0V.D., Martynov\u00a0O.S., Mokienko\u00a0V.F., Moroz\u00a0V.S., Ovsienko\u00a0G.R., Tovstyuk Z.M., Chernyavskiy G.V., Shardanov A.N. 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