№4 (2020) УДК 550.83.017 DOI: 10.47148/1609-364X-2020-4-38-51 V.A. Spiridonov, N.N. Pimanova, M.Ya. Finkelstein Key words: density modeling, 3D density model, inverse problem of gravity exploration, GIS INTEGRO. Section: Modeling geo objects and geo-processes

№1 (2023) Bolshakov E.M., Biserkin I.A., Kupriyanov I.S., Pimanova N.N., Sokolova E.Yu., Spiridonov V.A., Finkelstein M.Ya. УДК 528.8.04:001.51 https://doi.org/10.47148/1609-364X-2023-1-31-42 Key words: integrated analysis of geophysical data, inverse problem, models of the deep structure of oil and gas regions, Yenisei-Khatanga regional … Continue reading →

№4 (2022) Bolshakov E.M., Biserkin I.A., Kupriyanov I.S., Pimanova N.N., Sokolova E.Yu., Spiridonov V.A., Finkelstein M.Ya. УДК 528.8.04:001.51 https://doi.org/10.47148/1609-364X-2022-4-63-74 Key words: integrated analysis of geophysical data, inverse problem, models of the deep structure of oil and gas regions, Yenisei-Khatanga regional … Continue reading →

№3 (2021) УДК 004.94::[550.831.017:550.8.056] DOI: 10.47148/1609-364X-2021-3-36-47 S.V. Mitsyn, E.M. Bolshakov Key words: inverse gravimetric problem, assembly method, density models. Section: Modeling geo objects and geo-processes

№2 (2021) УДК: 550.83.017DOI: 10.47148/1609-364X-2021-2-47-52 N. N. Pimanova, V. A. Spiridonov Key words:3D density model, 3D modeling, inverse problem of gravimetry, GIS INTEGRO. Section: Modeling geo objects and geo-processes

DOI: 10.47148/1609-364X-2020-4 Software for GIS-processing of airborne lidar data  B.A. Novakovsky, A.V. Kudryavtsev, A.L. Entin … » The paper considers GIS software which may be utilized for airborne lidar data processing. Software list includes proprietary MicroStation with TerraScan plugin, Global Mapper, ArcGIS, ERDAS … Continue reading →

№3 (2020) УДК 550.831DOI: 10.47148/1609-364X-2020-3-38-45 Spiridonov V.A., Pimanova N.N. Keywords: Gravitational field, geologic reduction, density model, GSS profiles, inversion, structural framework of the model. Section: Modeling geo objects and geo-processes

DOI: 10.47148/1609-364X-2020-3 Web-GIS technologies usage in eco monitoring tasks on example Murmansk region lakes pollutionShemyakin A.S.,Kashulin N.A.,Petrova O.V. … » When carrying out long-term environmental monitoring programs, a whole series of problems arise related to storage, processing, visualization of data … Continue reading →

№1 (2019) Pimanova N.N., Spiridonov V.A., Sharov N.V., Mizin S.V.  Section: Modeling geo objects and geo-processes Keywords: 3D density model, seismic profile Baltik, deep structure of the Fennoscandian shield, the Karelian domain, the Svecofennian orogen.

№1 (2018) Pimanova N.N., Spiridonov V.A., Sharov N.V., Lubimova A.V., Senner A.E. Section: Modeling geo objects and geo-processes Keywords: integrated interpretation, gravimetry, 3D density model of the seismic profile Baltic, deep structure of the Fennoscandian shield, the Karelian Cratton, Sveсоfennian … Continue reading →