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Igor V. Florinsky
List of publications

 

Books

·     Florinsky, I.V., 2025. Digital Terrain Analysis. 3rd rev. enl. ed. Elsevier / Academic Press, Amsterdam, ~550 p. (in press).  ISBN: 978-0-44-324798-9  Elsevier

·     Florinsky, I.V., 2016. Digital Terrain Analysis in Soil Science and Geology. 2nd ed. Elsevier / Academic Press, Amsterdam, 486 p.  ISBN: 978-0-12-804632-6  ScienceDirect

·     Florinsky, I.V., 2012. Digital Terrain Analysis in Soil Science and Geology. Elsevier / Academic Press, Amsterdam, 379 p.  ISBN: 978-0-12-385036-2  ScienceDirect

·     Chistov, S.V., and Florinsky, I.V., 1997. Environmental Cartography. Russian Ecological Federal Information Agency, Moscow, 133 p. (in Russian).

Edited volumes

·     Florinsky, I.V. (Ed.), 2010. Man and the Geosphere. Nova Science Publishers, New York, 385 p.  ISBN: 978-1-60876-387-0  Amazon

Journal special issues

·     Florinsky, I.V. (Guest Ed.), 2020–2021. Special Issue “Advancement of Remote Sensing and Photogrammetry in Digital Terrain Modeling and Geomorphometry”. Remote Sensing.  web

·     Florinsky, I.V. (Guest Ed.), 2007. Special Issue: Digital Terrain Modelling. International Journal of Ecology and Development, 8 (3), 94 p.  web

Papers in peer-reviewed international journals

·     Florinsky I.V., 2023. Larsemann Hills: Geomorphometric modeling and mapping. Polar Science, 38: 100969.  doi

·     Dedkova, A.A., and Florinsky, I.V., 2023. Geomorphometry and microelectronic metrology: Converged realms. Transactions in GIS, 27: 16421661.  doi

·     Dedkova, A.A., and Florinsky, I.V., 2023. Study of topographic features, shape, and mechanical stresses in microelectronic structures using geomorphometric techniques. Russian Microelectronics, 52: S257-S262.  doi

·     Dedkova, A.A., Florinsky, I.V., and Chernyshev, A.K., 2023. The use of morphometric variables in the surface topography study of X-ray optical elements. Technical Physics, 68: 988996.  doi

·     Li, Y., Qiao, G., Popov, S., Cui, X., Florinsky, I.V., Yuan, X., and Wang, L., 2023. Unmanned aerial vehicle remote sensing for Antarctic research: A review of progress, current applications, and future use cases. IEEE Geoscience and Remote Sensing Magazine, 11: 7393.  doi

·     Qiao, G., Yuan, X., Florinsky, I., Popov, S., He, Y., and Li, H. 2023. Topography reconstruction and evolution analysis of outlet glacier using data from unmanned aerial vehicles in Antarctica. International Journal of Applied Earth Observation and Geoinformation, 117: 103186.  doi

·     Skrypitsyna, T.N., Florinsky, I.V., and Qiao, G., 2023. Motion of the Dålk Glacier (Prydz Bay, East Antarctica): Application of unmanned aerial survey. Polar Science, 38: 100949.  doi

·     Trevisani, S., Skrypitsyna, T.N., and Florinsky, I.V., 2023. Global digital elevation models for terrain morphology analysis in mountain environments: Insights on Copernicus GLO-30 and ALOS AW3D30 for a large Alpine area. Environmental Earth Sciences, 82: 198.  doi.

·     Dedkova, A.A., Florinsky, I.V., and Djuzhev, N.A., 2022. Approaches to determining curvature of wafers by their topography. Physics – Uspekhi, 65: 706–722.  doi

·     Dedkova, A.A., Florinsky, I.V., and Djuzhev, N.A., 2022. Technique for investigation of the shape changes of wafers and thin-film membranes by using geomorphometric approaches. Technical Physics, 67: 933–942.  doi

·     Dedkova, A.A., Florinsky, I.V., Gusev, E.E., Dyuzhev, N.A., Fomichev, M.Yu., and Shtern, M.Yu., 2021. Technique for analyzing volumetric defects using a digital elevation model of a surface. Russian Journal of Nondestructive Testing, 57: 1000–1007.  doi

·     Florinsky, I.V., and Filippov, S.V., 2021. Three-dimensional geomorphometric modeling of the Arctic Ocean submarine topography: A low-resolution desktop application. IEEE Journal of Oceanic Engineering, 46: 88–101.  doi

·     Guth, P.L., van Niekerk, A., Grohmann, C.H., Muller, J.-P., Hawker, L., Florinsky, I.V., Gesch, D., Reuter, H.I., Herrera-Cruz, V., Riazanoff, S., López-Vázquez, C., Carabajal, C.C., Albinet, C., and Strobl, P., 2021. Digital elevation models: Terminology and definitions. Remote Sensing, 13: # 3581.  doi

·     Ishalina, O.T., Bliakharskii, D.P., and Florinsky, I.V., 2021. Recognition of crevasses with high-resolution digital elevation models: Application of geomorphometric modeling and texture analysis. Transactions in GIS, 25: 2529–2552.  doi

·     Skrypitsyna, T.N., Florinsky, I.V., Beloborodov, D.E., and Gaydalenok, O.V., 2020. Mud volcanism at the Taman Peninsula: Multiscale analysis of remote sensing and morphometric data. Remote Sensing, 12: # 3763.  doi

·     Bliakharskii, D.P., Florinsky, I.V., and Skrypitsyna, T.N., 2019. Modelling glacier topography in Antarctica using unmanned aerial survey: Assessment of opportunities. International Journal of Remote Sensing, 40: 2517–2541.  doi

·     Florinsky, I.V., and Bliakharskii, D.P., 2019. Detection of crevasses by geomorphometric treatment of data from unmanned aerial surveys. Remote Sensing Letters, 10: 323–332.  doi

·     Florinsky, I.V., and Bliakharskii, D.P., 2019. The 2017 catastrophic subsidence in the Dålk Glacier, East Antarctica: Unmanned aerial survey and terrain. Remote Sensing Letters, 10: 333–342.  doi

·     Florinsky, I.V., and Filippov, S.V., 2019. Three-dimensional terrain modeling with multiple-source illumination. Transactions in GIS, 23: 937–959.  doi

·     Florinsky, I.V., Skrypitsyna, T.N., Trevisani, S., and Romaikin, S.V., 2019. Statistical and visual quality assessment of nearly-global and continental digital elevation models of Trentino, Italy. Remote Sensing Letters, 10: 726–735.  doi

·     Florinsky, I.V., 2018. Geomorphometry on the surface of a triaxial ellipsoid: Towards the solution of the problem. International Journal of Geographical Information Science, 32: 1558–1571.  doi

·     Florinsky, I.V., 2018. Multiscale geomorphometric modeling of Mercury. Planetary and Space Science, 151: 56–70.  doi

·     Florinsky, I.V., Garov, A.S., and Karachevtseva, I.P., 2018. A web system of virtual morphometric globes for Mars and the Moon. Planetary and Space Science, 159: 105–109.  doi

·     Florinsky, I.V., Kurkov, V.M., and Bliakharskii, D.P., 2018. Geomorphometry from unmanned aerial surveys. Transactions in GIS, 22: 58–81.  doi

·     Florinsky, I.V., Skrypitsyna, T.N., and Luschikova, O.S., 2018. Comparative accuracy of the AW3D30 DSM, ASTER GDEM, and SRTM1 DEM: A case study on the Zaoksky testing ground, Central European Russia. Remote Sensing Letters, 9: 706–714.  doi

·     Florinsky, I.V., 2017. An illustrated introduction to general geomorphometry. Progress in Physical Geography, 41: 723–752.  doi

·     Florinsky, I.V., 2017. Spheroidal equal angular DEMs: The specificity of morphometric treatment. Transactions in GIS, 21: 1115–1129.  doi

·     Florinsky, I.V., and Filippov, S.V., 2017. A desktop system of virtual morphometric globes for Mars and the Moon. Planetary and Space Science, 137: 3239.  doi

·     Florinsky, I.V., 2016. Earthquake lights in legends of the Greek Orthodoxy. Mediterranean Archaeology and Archaeometry, 16: 159168.  web

·     Florinsky, I.V., and Pankratov, A.N., 2016. A universal spectral analytical method for digital terrain modeling. International Journal of Geographical Information Science, 30: 2506–2528.  doi

·     Florinsky, I.V., 2012. The Dokuchaev hypothesis as a basis for predictive digital soil mapping (On the 125th anniversary of its publication). Eurasian Soil Science, 45: 445–451.  doi

·     Florinsky, I.V., Eilers, R.G., Wiebe, B.H., and Fitzgerald, M.M., 2009. Dynamics of soil salinity in the Canadian prairies: Application of singular spectrum analysis. Environmental Modelling and Software, 24: 1182–1195.  doi

·     Florinsky, I.V., 2009. Computation of the third-order partial derivatives from a digital elevation model. International Journal of Geographical Information Science, 23: 213–231.  doi

·     Florinsky, I.V., 2007. Solving three problems of exploration and engineering geology by digital terrain analysis. International Journal of Ecology and Development, 8 (3): 52–65.  web

·     Golyandina, N.E., Usevich, K.D., and Florinsky, I.V., 2007. Filtering of digital terrain models by two-dimensional singular spectrum analysis. International Journal of Ecology and Development, 8 (3): 81–94.  web

·     Florinsky, I.V., 2005. Artificial lineaments in digital terrain modelling: Can operators of topographic variables cause them? Mathematical Geology, 37: 357–372.  doi

·     Florinsky, I.V., McMahon, S., and Burton, D.L., 2004. Topographic control of soil microbial activity: A case study of denitrifiers. Geoderma, 119: 33–53.  doi

·     Farenhorst, A., Florinsky, I.V., Monreal, C.M., and Muc, D., 2003. Evaluating the use of digital terrain modelling for quantifying the spatial variability of 2,4-D sorption by soil within agricultural landscapes. Canadian Journal of Soil Science, 83: 557–564.  doi

·     Florinsky, I.V., 2002. Errors of signal processing in digital terrain modelling. International Journal of Geographical Information Science, 16: 475–501.  doi

·     Florinsky, I.V., Eilers, R.G., Manning, G., and Fuller, L.G., 2002. Prediction of soil properties by digital terrain modelling. Environmental Modelling and Software, 17: 295–311.  doi

·     Farenhorst, A., Muc, D., Monreal C., and Florinski, I., 2001. Sorption of herbicides in relation to soil variability and landscape position. Journal of Environmental Science and Health, Part B – Pesticides, Food Contaminants, and Agricultural Wastes, 36: 379–387.  doi

·     Manning G., Fuller L.G., Eilers R.G., and Florinsky, I., 2001. Topographic influence on the variability of soil properties within an undulating Manitoba landscape. Canadian Journal of Soil Science, 81: 439–447.  doi

·     Manning G., Fuller L.G., Eilers R.G., and Florinsky, I., 2001. Soil moisture and nutrient variation within an undulating Manitoba landscape. Canadian Journal of Soil Science, 81: 449–458.  doi

·     Florinsky, I.V., 2000. Relationships between topographically expressed zones of flow accumulation and sites of fault intersection: Analysis by means of digital terrain modelling. Environmental Modelling and Software, 15: 87–100.  doi

·     Florinsky, I.V., and Kuryakova, G.A., 2000. Determination of grid size for digital terrain modelling in landscape investigations – Exemplified by soil moisture distribution at a micro-scale. International Journal of Geographical Information Science, 14: 815–832.  doi

·     Florinsky, I.V., Eilers, R.G., and Lelyk, G.W., 2000. Prediction of soil salinity risk by digital terrain modelling in the Canadian prairies. Canadian Journal of Soil Science, 80: 455–463.  doi

·     Florinsky, I.V., 1998. Accuracy of local topographic variables derived from digital elevation models. International Journal of Geographical Information Science, 12: 47–61.  doi

·     Florinsky, I.V., 1998. Combined analysis of digital terrain models and remotely sensed data in landscape investigations. Progress in Physical Geography, 22: 33–60.  doi

·     Florinsky, I.V., 1998. Derivation of topographic variables from a digital elevation model given by a spheroidal trapezoidal grid. International Journal of Geographical Information Science, 12: 829–852.  doi

·     Florinsky, I.V., and Arlashina, H.A., 1998. Quantitative topographic analysis of gilgai soil morphology. Geoderma, 82: 359–380.  doi

·     Florinsky, I.V., 1996. Quantitative topographic method of fault morphology recognition. Geomorphology, 16: 103–119.  doi

·     Florinsky, I.V., and Kuryakova, G.A., 1996. Influence of topography on some vegetation cover properties. Catena, 27: 123–141.  doi

·     Florinsky, I.V., Kulagina, T.B., and Meshalkina, J.L., 1994. Influence of topography on landscape radiation temperature distribution. International Journal of Remote Sensing, 15: 3147–3153.  doi

Papers in peer-reviewed national journals

·     Dedkova, A.A., and Florinsky, I.V., 2023. Analysis of digital elevation models of semiconducter wafers and structures by methods of geomorphometry. Izvestia Vuzov. Geodesy and Aerophotosurveying, 67: 32–40 (in Russian).  web

·     Dedkova, A.A., Florinsky, I.V., and Chernyshev, A.K., 2023. The use of morphometric variables in the surface topography study of X-ray optical elements. Journal of Technical Physics, 93: 1059–1068 (in Russian).  doi

·     Florinsky, I.V., 2023. On the assignment of new geographic names in the Larsemann Hills oasis (East Antarctica). Geodesy and Cartography, 84 (4): 60–64 (in Russian, with English abstract).  doi

·     Dedkova, A.A., Florinsky, I.V., and Djuzhev, N.A., 2022. Technique for investigation of the shape changes of wafers and thin-film membranes by using geomorphometric approaches. Journal of Technical Physics, 92: 11131123 (in Russian).  doi

·     Dedkova, A.A., Florinsky, I.V., and Djuzhev, N.A., 2022. Approaches to determining curvature of wafers by their topography. Uspekhi Fizicheskikh Nauk, 192: 754–771 (in Russian, with English abstract).  doi

·     Dedkova, A.A., Florinsky, I.V., Gusev, E.E., Djuzhev, N.A., Fomichev, M.Yu., and Shtern, M.Yu., 2021. Technique for analyzing volumetric defects using a digital elevation model of a surface. Defectoscopiya, No. 11: 4148 (in Russian).  doi

·     Skrypitsyna, T.N., Zakharov, V.G., Kiseleva, A.S., Bliakharskii, D.P., Qiao, G., Yuan, X., and Florinsky, I.V., 2021. Topography evolution of the Dålk outlet glacier (Prydz Bay, East Antarctica) based on data from unmanned aerial surveys performed in 2017–2019. Izvestia Vuzov. Geodesy and Aerophotosurveying, 65: 517528 (in Russian, with English abstract).  web

·     Skrypitsyna, T.N., Beloborodov, D.E., and Florinsky, I.V., 2020. Mud volcanism at the Taman Peninsula studied with remote sensing and geomorphometric modelling data. Izvestia Vuzov. Geodesy and Aerophotosurveying, 64: 532540 (in Russian, with English abstract).  web

·     Skrypitsyna, T.N., Florinsky, I.V., and Luschikova, O.S., 2017. A comparative assessment of accuracy of quasi-global terrain models AW3D30 DSM, ASTER GDEM, and SRTM1 DEM. Izvestia Vuzov. Geodesy and Aerophotosurveying, 61 (5): 8690 (in Russian, with English abstract).  web

·     Florinsky, I.V., 2016. An illustrated introduction to geomorphometry. Almanac Space and Time, 11 (1): 20 p. (in Russian, with English abstract).  web

·     Kurkov, V., Bliakharskii, D., and Florinsky, I., 2016. Application of unmanned aerial surveying for geomorphometric modelling. Izvestia Vuzov. Geodesy and Aerophotosurveying, 60 (6): 6977 (in Russian, with English abstract).  web

·     Florinsky, I.V., 2015. Legendarization of earthquake lights. Space and Time, No. 3 (21): 320327 (in Russian, with English abstract).  web

·     Florinsky, I.V., and Pankratov, A.N., 2015. Digital terrain modeling with orthogonal polynomials. Machine Learning and Data Analysis, 1: 1647–1659.  web

·     Florinsky, I.V., 2014. A palaeodelta of the Crimean rivers in the Sea of Azov. Space and Time, No. 2 (16): 231233, (in Russian, with English abstract).  web

·     Florinsky, I.V., 2012. The Dokuchaev hypothesis as a basis for predictive digital soil mapping (On the 125th anniversary of its publication). Pochvovedenie, No. 4: 500–506 (in Russian).  web

·     Lysenko, O.B., Skulsky, N.A., Sobotovich, E.V., and Florinsky, I.V., 2012. Restrictions in the radiocarbon dating method. Geological Journal, No. 1: 31–38 (in Russian, with English abstract).  doi

·     Florinsky, I.V., 2009. Soil mapping based on digital terrain modelling (using data from kinematic GPS and soil surveys). Issledovanie Zemli iz Cosmosa, No. 6: 56–65 (in Russian, with English abstract).  web

·     Florinsky, I.V., 2009. Analysis of global topography of Mars, Venus, and the Moon using data of Mars Global Surveyor, Magellan, and Clementine missions. Issledovanie Zemli iz Cosmosa, No. 5: 32–48 (in Russian, with English abstract).  web

·     Florinsky, I.V., 2009. Accurate method for derivation of local topographic variables. Geodesy and Cartography, No. 4: 19–22 (in Russian).  web

·     Florinsky, I.V., Eilers, R.G., Burton, D.L., McMahon, S.K., Monreal, C.M., and Farenhorst, A., 2009. Predictive soil mapping based on digital terrain modelling. Geoinformatika, No. 1: 22–32 (in Russian, with English abstract).  web

·     Florinsky, I.V., 2008. Estimating the derivating function of elevation to detect structural lines using satellite data and topographic maps. Issledovanie Zemli iz Cosmosa, No. 6: 43–51 (in Russian, with English abstract).  web

·     Florinsky, I.V., 2008. 100 years anniversary of the Tunguska Event: Digital terrain modelling of the epicenter area. Geodesy and Cartography, No. 8: 20–22 (in Russian).  web

·     Florinsky, I.V., 2008. On calculation accuracy in digital terrain modelling. Geodesy and Cartography, No. 6: 28–32 (in Russian).  web

·     Golyandina, N.E., Usevich, K.D., and Florinsky, I.V., 2008. Singular spectrum analysis for filtering of digital terrain models. Geodesy and Cartography, No. 5: 21–28 (in Russian).  web

·     Florinsky, I.V., 2008. Maps of relative accumulation zones for solving problems of exploration and engineering geology. Geodesy and Cartography, No. 3: 23–29 (in Russian).  web

·     Florinsky, I.V., 2008. Morphometric maps of the world. Geodesy and Cartography, No. 1: 25–29 (in Russian).  web

·     Florinsky, I.V., 2007. Small scale morphometric maps of the Northern Eurasia. Geodesy and Cartography, No. 2: 15–21 (in Russian).  web

·     Florinsky, I.V., 2007. The monument for a map. Captain Cook as a hydrographer. Geodesy and Cartography, No. 3: 51–55 (in Russian).  web

·     Florinsky, I.V., 2001. Junctions of fault intersections and zones of flow accumulations: Analysis of relationships. Izvestiya Akademii Nauk, Geographical Series, No. 6: 83–95 (in Russian, with English abstract).  web

·     Florinsky, I.V., 1995. International experience of the use of digital terrain models in automated analysis of remotely sensed data. Geodesy and Cartography, No. 12: 33–38 (in Russian).  web

·     Florinsky, I.V., Grokhlina, T.I., and Mikhailova, N.L., 1995. LandLord 2.0: The software for analysis and mapping of geometric characteristics of topography. Geodesy and Cartography, No. 5: 46–51 (in Russian).  web

·     Kulagina, T.B., Meshalkina, J.L., and Florinsky, I.V., 1994. The influence of topography on the distribution of radiation temperature of the landscape. Issledovanie Zemli iz Cosmosa, No. 3: 108–115 (in Russian, with English abstract).  web

Peer-reviewed book chapters (international)

·     Trevisani, S., and Florinsky, I.V., 2021. Morphometry. In: Sagar, B.S.D., Cheng, Q., McKinley, J., and Agterberg, F. (Eds.), Encyclopedia of Mathematical Geosciences. Springer, Cham, pp. 928–934.  doi

·     Florinsky, I.V., 2010. Sacred places and geophysical activity. In: Florinsky, I.V. (Ed.), Man and the Geosphere. Nova Science Publishers, New York, pp. 215–255.  web

·     Sobotovich, E.V., Florinsky, I.V., Lysenko, O.B., and Grodzinsky, D.M., 2010. Role of isotopes in the biosphere. In: Florinsky, I.V. (Ed.), Man and the Geosphere. Nova Science Publishers, New York, pp. 33–68.  web

·     Florinsky, I.V., McMahon, S., and Burton, D.L., 2009. Topographic factors of nitrous oxide emission. In: Sheldon, A.I., and Barnhart, E.P. (Eds.), Nitrous Oxide Emissions Research Progress. Nova Science Publishers, New York, pp. 105–126.  web

·     Florinsky, I.V., 2008. Global morphometric maps of Mars, Venus, and the Moon. In: Moore, A., and Drecki, I. (Eds.), Geospatial Vision: New Dimensions in Cartography (Lecture Notes in Geoinformation and Cartography). Springer, Berlin, pp. 171–192.  doi

·     Florinsky, I.V., 2008. Global lineaments: Application of digital terrain modelling. In:Zhou, Q., Lees, B., and Tang, G.-a. (Eds.), Advances in Digital Terrain Analysis (Lecture Notes in Geoinformation and Cartography). Springer, Berlin, pp. 365–382.  doi

·     Florinsky, I.V., Eilers, R.G., and Lelyk, G.W., 2003. Prediction of soil salinity risk by digital terrain modelling in the Canadian prairies. In: Rapport, D.J., Lasley, B.L., Rolston, D.E., Nielsen, N.O., Qualset, C.O., and Damania, A.B. (Eds.), Managing for Healthy Ecosystems. Lewis Publishers, Boca Raton, pp. 1221–1228.  web

Peer-reviewed book chapters (national)

·     Florinsky, I.V., 2012. The Dokuchaev hypothesis The central idea of predictive digital soil mapping mapping (On the 125th anniversary of its publication). In: Sorokina, N.P., and Savin, I.Y. (Eds.), Digital Soil Mapping: Theoretical and Experimental Studies. Dokuchaev Soil Institute, Moscow, pp. 19–25 (in Russian, with English abstract).

·     Chistov, S.V., and Florinsky, I.V., 1996. Environmental Mapping. In: Rybalsky, N.G., and Snakin, V.V. (Eds.), Results of the Government Program ‘Environmental Security of Russia’ (1993–1995), Vol. 5: Environmental Monitoring, Environmental Mapping, Data Provision for Environmental Security. Russian Ecological Federal Information Agency, Moscow, pp. 95–124 (in Russian).

·     Kuryakova, G.A., and Florinsky, I.V., 1993. On two regularities in spatial relationships between ring structures, topography, soil, and geological situation. In: Ezhov, B.V. (Ed.), Problems of Focal Tectogenesis. Dalnauka, Vladivostok, pp. 102–106 (in Russian).

·     Florinsky, I.V., 1991. On recognition of natural borders and image generalisation of land surface structures. In: Stepanov, I.N. (Ed.), The Geometry of the Earth Surface Structures. Pushchino Research Centre Press, Pushchino, pp. 60–89 (in Russian).

·     Shary, P.A., Kuryakova, G.A., and Florinsky, I.V., 1991. On the international experience of the use of topographic techniques in landscape investigations (a brief review). In: Stepanov, I.N. (Ed.), The Geometry of the Earth Surface Structures. Pushchino Research Centre Press, Pushchino, pp. 15–29 (in Russian).

·     Shary, P.A., Kuryakova, G.A., and Florinsky, I.V., 1991. On the possible role of valley percolation in hydrogeology. In: Stepanov, I.N. (Ed.), The Geometry of the Earth Surface Structures. Pushchino Research Centre Press, Pushchino, pp. 89–91 (in Russian).

·     Stepanov, I.N., Florinsky, I.V., and Shary, P.A., 1991. On the conceptual scheme of landscape investigations. In: Stepanov, I.N. (Ed.), The Geometry of the Earth Surface Structures. Pushchino Research Centre Press, Pushchino, pp. 9–15 (in Russian).

Articles in international newsletters

·     Florinsky, I.V., 2011. The soil formation equation: Imaginary scientific priority of Hans Jenny. Pedometron, 30: 1–3.

Conference papers

·     Florinsky, I.V., 2024. Geomorphometric modeling, field interpretation, and atlas mapping of ice-free territories of Antarctica: Problem statement. In: Loginov V.F., Lysenko S.A., Ryzhikov V.A., Giginyak Yu.G. (Eds.), Natural Environment of Antarctica: Proceedings of the V International Scientific and Practical Conference, Kamenyuki, Belarus, 25–27 Sept. 2024. IVC Minfin, Minsk, pp. 305–309 (in Russian, with English abstract).

·     Florinsky, I.V., 2023. Geomorphometric modeling and mapping of the Larsemann Hills Antarctic oasis. InterCarto. InterGIS, 29 (1): 482–510 (in Russian, with English abstract).  doi

·     Dedkova, A.A., and Florinsky, I.V., 2022. Geomorphometric modeling of nanotopography using data from atomic force microscopy. In: Lakhno, V.D. (Ed.), Proceedings of the International Conference "Mathematical Biology and Bioinformatics", Vol. 9. Institute of Mathematical Problems of Biology, Russian Academy of Sciences, Pushchino, # e49 (in Russian, with English abstract).  doi

·     Dedkova, A.A., Florinsky, I.V., and Djuzhev, N.A., 2022. Techniques for analyzing digital elevation models of surface topography of microelectronics objects. Proceedings of SPIE, 12157: 121571K.  doi

·     Florinsky, I.V., 2022. Unmanned aerial survey in the summer season of the 67th Russian Antarctic Expedition. InterCarto. InterGIS, 28 (1): 284–304 (in Russian, with English abstract).  doi

·     Florinsky, I.V., 2022. 50 years of IMPB RAS. Group of geomorphometric modeling. In: Lakhno, V.D. (Ed.), Proceedings of the International Conference "Mathematical Biology and Bioinformatics", Vol. 9. Institute of Mathematical Problems of Biology, Russian Academy of Sciences, Pushchino, # e7 (in Russian, with English abstract).  doi

·     Florinsky, I.V., and Skrypitsyna, T.N., 2022. Unmanned aerial survey of the Molodezhny and Vecherny oases area in the season of the 67th Russian Antarctic Expedition: First results. In: Loginov, V.F., Lysenko, S.A., Ryzhikov V.A., and Giginyak Yu.G. (Eds.), The Natural Environment of Antarctica: Cross-Disciplinary Study Approaches: Proceedings of the IV International Scientific and Practical Conference, Domzheritsy, Belarus, 21–23 Sept. 2022. Belorus State Technological University, Minsk, pp. 250–253 (in Russian, with English abstract).

·     Wang, L., Qiao, G., Florinsky, I.V., and Popov, S., 2022. Landfast iceberg height retrieval and evaluation based on remote sensing approaches in Antarctica. International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, XLIII-B3-2022: 785-785.  doi

·     Dedkova, A.A., Florinsky, I.V., and Djuzhev, N.A., 2021. Analysis of topography of silicon wafers and wafer-based structures by geomorphometric modeling. In: Proceedings of the Geomorphometry 2021 Conference, Perugia, Italy, 1317 Sept 2021.  doi

·     Florinsky, I.V., 2021. Geomorphometry today. InterCarto. InterGIS, 27 (2): 394–448 (in Russian, with English abstract).  doi

·     Skrypitsyna, T.N., Zakharov, V.G., Kiseleva, A.S., Bliakharskii, D.P., Qiao, G., Yuan, X., and Florinsky, I.V., 2021. Investigating changes in the topography of the margin of the Dålk outlet glacier (Prydz Bay, East Antarctica) from unmanned aerial survey data. In: Sidorina, I.E. (Ed.), Geodesy, Cartography, Geoinformatics, and Cadaster. Industry and Education: Proceedings of the 4th Pan-Russian Scientific and Practical Conference, Saint Petersburg, 2021. Politechnika, Saint Petersburg, pp. 112117 (in Russian, with English abstract).

·     Florinsky, I.V., Filippov, S.V., and Govorov, A.V., 2020. 3D marine geomorphometry for the Arctic Ocean. In: Alvioli, M., Marchesini, I., Melelli, L., and Guth, P. (Eds.), Proceedings of the Geomorphometry 2020 Conference, Perugia, Italy. CNR Edizioni, Roma, pp. 8386.  doi

·     Florinsky, I., Skrypitsyna, T., Bliakharskii, D., Ishalina, O., and Kiseleva, A., 2020. Digital microtopography of glaciers from unmanned aerial survey data: Statement of the problem. In: Pyankov, S.V., Buzmakov, S.A., Kalinin, N.A., Nazarov, N.N., and Kopyitov, S.V. (Eds.), Digital Geography: Proceedings of the All-Russian Scientific-Practical Conference with Internatonal Participation (Perm, Russia, 16–18 September 2020). Vol. 1: Digital and GIS–technologies in the Study of Natural Processes, Ecology, Nature Management and Hydrometeorology. Perm State University, Perm, pp. 185–188 (in Russian, with English abstract).

·     Florinsky, I.V., Skrypitsyna, T.N., Bliakharskii, D.P., Ishalina, O.T., and Kiseleva, A.S., 2020. Towards the modeling of glacier microtopography using high-resolution data from unmanned aerial survey. International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, XLIII-B2-2020: 10651071.  doi

·     Ishalina, O.T., Bliakharskii, D.P., and Florinsky, I.V., 2020. Detection of crevasses using high-resolution digital elevation models: Comparison of geomorphometric modeling and texture analysis. In: Alvioli, M., Marchesini, I., Melelli, L., and Guth, P. (Eds.), Proceedings of the Geomorphometry 2020 Conference, Perugia, Italy. CNR Edizioni, Roma, pp. 9–12.  doi

·     Florinsky, I.V., and Filippov, S.V., 2019. Three-dimensional desktop morphometric models for the Arctic Ocean floor. Proceedings of the International Cartographic Association, 2: 32.  doi

·     Florinsky, I.V., and Filippov, S.V., 2019. Three-dimensional geomorphometric modelling of the Arctic Ocean submarine topography (A testing, low-resolution desktop system). InterCarto. InterGIS, 25 (1): 275–289 (in Russian, with English abstract).  doi

·     Florinsky, I.V., and Filippov, S.V., 2019. Three-dimensional, low-resolution desktop geomorphometric modelling of the Arctic Ocean floor. In: Proceedings of the International Conference OCEANS 2019 MTS/IEEE SEATTLE, 27-31 Oct. 2019, Seattle, WA, USA. IEEE, pp. 17.  doi

·     Bliakharskii, D., and Florinsky, I., 2018. Unmanned aerial survey for modelling glacier topography in Antarctica: First results. In: Grueau, C., Laurini, R., and Ragia, L. (Eds.), Proceedings of the 4th International Conference on Geographical Information Systems Theory, Applications and Management (GISTAM 2018), 1719 March, 2018, Funchal, Madeira, Portugal. Scitepress, Setúbal, pp. 319326.  doi

·     Florinsky, I.V, and Bliakharskii, D.P., 2018. Crevasse detection by geomorphometric modelling of data from unmanned aerial survey. In: Popov, S.V., Gavrilkina, S.A., and Pryakhina, G.V. (Eds.), Theory and Methods of Polar Science: Proceedings of International Youth Scientific Conference on the Polar Geodesy, Glaciology, Hydrology and Geophysics, St. Petersburg, Russia, 17–19 May 2018. St. Petersburg, pp. 247255.

·     Florinsky, I.V., and Filippov, S.V., 2018. Three-dimensional terrain modeling: Application of the Blender package. InterCarto. InterGIS, 24 (2): 250-261 (in Russian, with English abstract).  doi

·     Florinsky, I.V., Filippov, S.V., Abramova, A.S., Zarayskaya, Y.A., and Selezneva, E.V., 2018. Towards geomorphometric modelling of the topography of the Arctic Ocean floor. In: Bandrova, T., and Konečný, M. (Eds.), Proceedings of the 7th International Conference on Cartography & GIS, 1823 June 2018, Sozopol, Bulgaria, Vol. 1. Bulgarian Cartographic Association, Sofia, pp. 166173.

·     Luschikova, O.S., Skrypitsyna, T.N., and Florinsky, I.V., 2017. A comparative assessment of accuracy of quasi-global terrain models AW3D30 DSM, ASTER GDEM, and SRTM1 DEM for the MIIGAiK Zaoksky testing ground territory. In: Matishov G.G. (Ed.), Ecology, Economy, Informatics. Vol. 2: Geoinformation Technologies and Space Monitoring. Southern Scientific Center of RAS, Rostov on Don, pp. 221–232 (in Russian, with English abstract).

·     Florinsky, I.V., 2017. Towards geomorphometric modelling on a surface of a triaxial ellipsoid (Formulation of the problem). InterCarto. InterGIS, 23 (2): 130–143 (in Russian, with English abstract).  doi

·     Garov, A.S., Karachevtseva, I.P., Matveev, E.V., Zubarev, A.E., and Florinsky, I.V., 2016. Development of a heterogenic distributed environment for spatial data processing using cloud technologies. International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 41(B4): 385–390.  doi

·     Kurkov, V.M., Bliakharskii, D.P., and Florinsky, I.V., 2016. Unmanned aerial surveying for geomorphometric modelling. In: Matishov G.G. (Ed.), Ecology, Economy, Informatics. Vol. 2: Geoinformation Technologies and Space Monitoring. Southern Scientific Center of RAS, Rostov on Don, pp. 288–302 (in Russian, with English abstract).

·     Florinsky, I.V., 2011. The Dokuchaev hypothesis as the central idea of predictive digital soil mapping. In: Komarov, A.S. (Ed.), Proceedings of the 2nd National Conference 'Mathematical Modelling in Ecology', Pushchino, Russia, 23–27 May 2011. Institute of Physical, Chemical, and Biological Problems of Soil Science, Pushchino, pp. 279–281 (in Russian, CD ROM).

·     Florinsky, I.V., 2008. Influence of geological and geophysical factors on spatial distribution of monasteries (in the context of neurophysiological data). In: Fedorov, A.E. (Ed.), The System of the Planet Earth (Non-Conventional Problems of Geology): Papers of the 16th Scientific Seminar, 30 Jan.–1 Feb. 2008, Moscow, Russia. Librokom Press, Moscow, pp. 515–541 (in Russian).

·     Florinsky, I.V., 2006. Global lineaments and ring structures: Application of digital terrain modelling. In: Liu, X., and Wang, Y. (Eds.), Full Papers, Proceedings of the International Symposium on Terrain Analysis and Digital Terrain Modelling (TADTM 2006), 23–25 Nov. 2006, Nanjing, China. Nanjing Normal University, Nanjing, 17 p. (CD-ROM).

·     Florinsky, I.V., 2002. Analytical test for isotropy of local topographic variables. In: Egenhofer, M., and Mark, D. (Eds.), Proceedings of the 2nd International Conference on Geographic Information Science (GIScience 2002), Boulder, USA, Sept. 2528, 2002. University of California Regents, pp. 245–248.

·     Florinsky, I.V., and Eilers, R.G., 2002. Prediction of the soil organic carbon content at micro-, meso- and macroscales by digital terrain modelling. In: Transactions of the 17th World Congress of Soil Science, 14–21 August 2002, Bangkok, Thailand. Symposium 52. ISSS, Bangkok, pp. 24-1–24-9 (CD ROM).

·     Florinsky, I.V., and Eilers, R.G., 2001. Prediction of soil carbon content at micro-, meso- and macroscales by digital terrain modelling. In: Proceeding of the 44thAnnual Manitoba Society of Soil Science Meeting, Winnipeg, Canada, 23–24 Jan. 2001. MSSS, Winnipeg, pp. 171–179.

·     Florinsky, I.V., 2000. Errors caused by some transformations of digital elevation models. In: Heuvelink, G.B.M., and Lemmens, M.J.P.M. (Eds.), Accuracy 2000: Proceedings of the 4th International Symposium on Spatial Accuracy Assessment in Natural Resource and Environmental Sciences, July 2000, Amsterdam, Netherlands. Coronet Books, Philadelphia, pp. 207–212.

·     Florinsky, I.V., and Kuryakova, G.A., 2000. Analysis of relationships between topography, ring structures, soil cover and rocks. In: Proceedings of the 43rdAnnual Manitoba Society of Soil Science Meeting, Winnipeg, Canada, 25–26 Jan. 2000. MSSS, Winnipeg, pp. 62–75.

·     Florinsky, I.V., Eilers, R.G., Manning, G., and Fuller, L.G., 1999. Application of digital terrain modelling to prediction of soil properties in the Prairie Ecozone. In: Papers of the 42nd Annual Manitoba Society of Soil Science Meeting, Winnipeg, Canada, 2–3 Feb. 1999. MSSS, Winnipeg, pp. 140–154.

·     Florinsky, I.V., and Kuryakova, G.A., 1998. Determination of grid size for digital terrain models in soil investigations. In: Proceedings of the 16th World Congress of Soil Science, 20–26 August 1998, Montpellier, France. Symposia 17. ISSS, Montpellier, pp. 1–7 (CD ROM).

·     Snakin, V.V., Rukhovich, O.V., Florinsky, I.V., Prisyazhnaya, A.A., and Khrisanov, V.R., 1997. Lead in soils of Russia. In: Bashkin, V.N. (Ed.), Heavy Metals in the Environment: Papers of the International Symposium, Pushchino, Russia, 15–18 Oct. 1996. Institute of Soil Science and Photosynthesis, Russian Academy of Sciences, Pushchino, pp. 250–257 (in Russian).

·     Florinsky, I.V., 1996. Fault morphology recognition by digital elevation model processing. International Archives of Photogrammetry and Remote Sensing, 31(B4): 252–257.  web

Maps

·     Florinsky, I.V., 1997. Map ‘Lead Distribution in Soil of Russian Federation’, scale 1:25,000,000. In: Snakin, V.V. (Ed.), Lead Contamination of the Environment in the Russian Federation and Its Effect on Human Health. Russian Ecological Federal Information Agency, Moscow (in Russian & English).

Preprints

·     Florinsky, I.V., 2023. Geomorphometric modeling and mapping of Antarctic oases. arXiv:2305.07523, 84 p.  doi

·     Trevisani, S., Skrypitsyna, T.N., and Florinsky, I.V., 2022. Global digital elevation models for terrain morphology analysis in mountain environments: insights on Copernicus GLO-30 and ALOS AW3D30 for a large Alpine area. Research Square Preprints, 30 p.  doi.

·     Florinsky, I.V., Bliakharskii, D.P., Popov, S.V., and Pryakhin, S.S., 2018. The 2017 catastrophic subsidence in the Dålk Glacier: Unmanned aerial survey and digital terrain analysis. PeerJ Preprints, 6: e27064v1, 4 p.  doi

·     Florinsky, I.V., and Filippov, S.V., 2016. Virtual morphometric globes: Applying the software Blender. KIAM Preprints, No. 37, 18 p. (in Russian, with English abstract).  web

·     Florinsky, I.V., and Filippov, S.V., 2015. Development of virtual morphometric globes using Blender. arXiv:1512.08511, 14 p.  doi

·     Florinsky, I.V., Selezneva, E.V., and Kulikova, A.I., 2015. GIS-based support for the complex botanical studies at the Molnieboi Spur, Altai. arXiv:1512.05143, 10 p.  doi

·     Boyarskikh, I.G., Kulikova, A.I., Agatova, A.R., Bakiyanov, A.I., and Florinsky, I.V., 2015. Mutation activity of Lonicera caerulea population in an active fault zone (the Altai Mountains). arXiv:1508.02016, 12 p.  doi

·     Florinsky, I.V., and Pankratov, A.N., 2015. Digital terrain modeling with the Chebyshev polynomials. arXiv:1507.03960, 10 p.  doi

·     Florinsky, I.V., 1992. Recognition of Lineaments and Ring Structures: Quantitative Topographic Techniques. Pushchino Research Centre Press, Pushchino, 47 p. (in Russian, with English abstract).

·     Florinsky, I.V., 1992. Ring Structures of Central Asia and Kazakhstan. Pushchino Research Centre Press, Pushchino, 44 p. (in Russian, with English abstract).

·     Florinsky, I.V., 1991. Map Generalisation – A Brief Review of the Problem. Pushchino Research Centre Press, Pushchino, 55 p. (in Russian).

·     Kuryakova, G.A., and Florinsky, I.V., 1991. Analysis of Spatial Relationships between Ring Structures, Topography, and Soil Cover. Pushchino Research Centre Press, Pushchino, 14 p. (in Russian, with English abstract).

Conference abstracts

·     Florinsky, I.V., 2024. Geomorphometric atlas mapping of ice-free areas of Antarctica: Problem statement. In: Spatial data: Science and Technology 2024: Abstracts of MIIGAiK Scientific Conference, Moscow, May 28–29, 2024. Moscow State University of Geodesy and Cartography, Moscow, pp. 17–18 (in Russian).

·     Dedkova, A., and Florinsky, I., 2023. Study of topographic features, shape, and mechanical stresses in microelectronic structures using geomorphometric techniques. In: Lukichev, V.F., and Rudenko, K.V. (Eds.), Proceedings of the International Conference "Micro- and Nanoelectronics – 2023" (ICMNE–2023), 2–6 October 2023, Мoscow–Zvenigorod, Russia. Book of Abstracts. Maks Press, Мoscow, p. 144.

·     Dedkova, A.A., Florinsky, I.V., and Chernyshev, A.K., 2023. The use of morphometric variables in the surface topography study of X-ray optical elements. In: Gaponov, S.V. and Krasilnik, Z.F. (Eds.), Nanophysics and Nanoelectronics: Proceedings of XXVII International Symposium, Nizhny Novgorod, 13–16 March 2023, Vol. 2. Institute of Applied Physics, Russian Academy of Sciences, Nizhny Novgorod, pp. 851–852 (in Russian).

·     Dedkova, A.A., Florinsky, I.V., and Djuzhev, N.A., 2022. Study of the shape changes of wafers and thin-film membranes using geomorphometric methods. In: Gaponov, S.V. and Krasilnik, Z.F. (Eds.), Nanophysics and Nanoelectronics: Proceedings of XXVI International Symposium, Nizhny Novgorod, 14–17 March 2022, Vol. 1. Nizhny Novgorod University Press, Nizhny Novgorod, pp. 541542 (in Russian).

·     Dedkova, A., Florinsky, I., and Djuzhev, N., 2021. Analysis of digital elevation models of silicon wafers and wafer-based structures. In: Lukichev, V.F., and Rudenko, K.V. (Eds.), Proceedings of the International Conference "Micro- and Nanoelectronics – 2021" (ICMNE–2021), 4–8 October 2021, Zvenigorod, Russia. Book of Abstracts. Maks Press, Мoscow, p. 142.

·     Dedkova, A., and Florinsky, I., 2020. Analysis of topography of silicon wafers by geomorphometric methods. In: Book of Abstracts, 13th International Conference ‘Intelligent Data Processing: Theory and Applications’, Moscow, Russia, 811 Dec. 2020. Russian Academy of Sciences, Moscow, p. 245.

·     Florinsky, I., Filippov, S., and Govorov, A., 2020. Arctic Ocean submarine topography: 3D geomorphometric models. In: Abstracts, American Association of Geographers Annual Meeting, Denver, CO, USA, 6–10 April 2020. Abstract # 33622.

·     Florinsky, I.V., Skrypitsyna, T.N., Bliakharskii, D.P., Ishalina, O.T., and Kiseleva, A.C., 2020. Modeling and analysis of glacier microtopography using data from unmanned aerial survey. In: Kotlyakov, V.M., and Chernov, R.A. (Eds.), Abstracts of XVII Glaciological Symposium ‘The Role of the Cryosphere in the Past, Present and Future of the Earth’, St. Petersburg, Russia, 17–20 Nov. 2020. St. Petersburg, 2020, p. 133 (in Russian).

·     Florinsky, I.V., and Filippov, S.V., 2019. Three-dimensional morphometric models of the Arctic Ocean submarine topography. In: Mathematical Methods for Pattern Recognition (MMPR-2019): Book of Abstracts, 19th Russian National Conference, Moscow, Russia, 26–29 Nov. 2019. Russian Academy of Sciences, Moscow, p. 331.

·     Florinsky, I.V., and Filippov, S.V., 2019. Development of a system for three-dimensional geomorphometric modelling the Arctic Ocean floor. In: Abstracts, American Association of Geographers Annual Meeting, Washington, DC, USA, 37 April 2019. Abstract # 17176.

·     Florinsky, I., and Govorov, A., 2019. Three-dimensional, multiscale system for geomorphometric modeling of the Arctic Ocean floor: Development of desktop and web applications using the Blender software. In: 2019 AGU Fall Meeting, San Francisco, CA, USA, 913 Dec. 2019. Abstract # IN11B-18.

·     Bliakharskii, D., and Florinsky, I., 2018. Unmanned aerial survey for modelling glacier topography in Antarctica: First results. In: GISTAM 2018: Final Program and Book of Abstracts (4th International Conference on Geographical Information Systems Theory, Applications and Management, 1719 March, 2018, Funchal, Madeira, Portugal). Scitepress, Setúbal, p. 41.

·     Florinsky, I., and Bliakharskii, D., 2018. Crevasse detection by geomorphometric modelling of data from unmanned aerial survey. In: Abstracts, International Youth Scientific Conference on the Polar Geodesy, Glaciology, Hydrology and Geophysics. 1719 May, 2018, Saint Petersburg, Russia. Saint Petersburg University, Institute of Earth Sciences, Arctic and Antarctic Research Institute, Saint Petersburg, p. 79.

·     Florinsky, I.V., and Filippov, S.V., 2018. Three-dimensional geomorphometric modelling of the Arctic Ocean floor: Application of the Blender package. In: Lurie, I.K. (Ed.), Abstracts, National Cartographic Conference – 2018, Moscow, Russia, 16–19 Oct. 2018. Geographical Faculty, Lomonosov Moscow State University, Moscow, pp. 273–276 (in Russian).

·     Florinsky, I., Filippov, S., Abramova, A., Zarayskaya, Yu., and Selezneva, E., 2018. Development of a system for modelling the Arctic Ocean floor topography. In: Book of Abstracts, 12th International Conference ‘Intelligent Data Processing: Theory and Applications’ IDP-2018, 8–13 October 2018, Gaeta, Italy. Torus-Press, Moscow, p. 171.

·     Florinsky, I.V., 2017. Mystical experience as a result of exposure of natural electromagnetic fields in complex geological conditions. In: Lobyshev, V.I., and Vladimirsky, B.M. (Eds.), Physics and Ecology of Electromagnetic Radiations: Proceedings of the I Pan-Russian Conference, Agoi, Russia, 25–30 Sept. 2017. Kuban State University, Krasnodar, p. 73 (in Russian).

·     Florinsky, I.V., 2017. Terrain modelling on a surface of a sphere, ellipsoid of revolution, and triaxial ellipsoid. In: Mathematical Methods for Pattern Recognition (MMPR-2017): Book of Abstracts, 18th Pan-Russian Conference, Taganrog, Russia, 9–13 Oct. 2017. Torus Press, Moscow, p. 177.

·     Florinsky, I., Garov, A., and Karachevtseva, I., 2017. A web-system of virtual morphometric globes. Geophysical Research Abstracts, 19: EGU2017-99.

·     Florinsky, I.V., Garov, A.S., and Karachevtseva, I.P., 2017. A web-system of virtual morphometric globes as a data source for predictive soil mapping. In: Savin I.Y. (Ed.), International Conference “Global Soil Map 2017”: Materials, Moscow, Russia, 4–6 July 2017. V.V. Dokuchaev Soil Science Institute, Agrarian-Technological Institute, RUDN University, Moscow, pp. 3536.

·     Florinsky, I.V., Garov, A.S., and Karachevtseva, I.P., 2017. A web-system of virtual morphometric globes. In: Reznichenko, G.Y., and Rubin, A.B. (Eds.), Mathematics, Computing, Education: Abstracts of the XXIV International Conference, Pushchino, Russia, 23–28 Jan. 2017. Izhevsk Institute of Computing Research, Moscow–Izhevsk, p. 228 (in Russian).

·     Florinsky, I.V., Gorbunov, R.V., and Selezneva, E.V., 2017. A system for geomorphometric modelling of the Karadag Reserve territory. In: Reznichenko, G.Y., and Rubin, A.B. (Eds.), Mathematics, Computing, Education: Abstracts of the XXIV International Conference, Pushchino, Russia, 23–28 Jan. 2017. Izhevsk Institute of Computing Research, Moscow–Izhevsk, p. 209 (in Russian).

·     Derguzov, A.V., Makhortykh, S.A., and Florinsky, I.V., 2016. Problems of function approximation on a sphere. In: Lakhno, V.D. (Ed.), Mathematical Biology and Bioinformatics: Proceedings of the 6th International Conference, 16–21 Oct. 2016, Pushchino, Russia. Max Press, Moscow, pp. 9495 (in Russian, with English abstract).

·     Florinsky, I.V., and Filippov, S.V., 2016. Global morphometric modelling of Mars and the Moon. In: XIV International Seminar LPpM3 "Mathematical Models & Modeling in Laser Plasma Processes & Advanced Science Technologies" (Moscow, Russia, 4–9 July 2016). Keldysh Institute of Applied Mathematics, Moscow, p. 111 (in Russian).

·     Florinsky, I.V., and Filippov, S.V., 2016. Virtual morphometric globes: The experience of application of the software Blender. In: Geodesy, Cartography, Cadastre, GIS – Problems and Perspectives of Development: Abstracts, International Scientific Technical Conference (Novopolotsk, Belarus, 9–10 June 2016). Polotsk State University, Novopolotsk, pp. 129130 (in Russian).

·     Florinsky, I.V., Garov, A.S., and Karachevtseva, I.P., 2016. Developing a web-system of virtual morphometric globes. In: International Map Year in Russia: Uniting Space and Time: Abstracts of the Pan-Russian Scientific Conference, 2528 Oct. 2016, Moscow, Russia. Russian State Library, Moscow, pp. 287290 (in Russian).

·     Florinsky, I.V., Gorbunov, R.V., and Selezneva, E.V., 2016. Geomorphometric modelling of the Karadag Reserve. In: Lakhno, V.D. (Ed.), Mathematical Biology and Bioinformatics: Proceedings of the 6th International Conference, 16–21 Oct. 2016, Pushchino, Russia. Max Press, Moscow, pp. 167168 (in Russian, with English abstract).

·     Florinsky, I.V., Gorbunov, R.V., and Selezneva, E.V., 2016. A system for geomorphometric modelling of the Karadag Reserve territory. In: International Map Year in Russia: Uniting Space and Time: Abstracts of the Pan-Russian Scientific Conference, 2528 Oct. 2016, Moscow, Russia. Russian State Library, Moscow, pp. 291–293 (in Russian).

·     Florinsky, I.V., and Pankratov A.N., 2016. On the role of the Fejér summation in terrain modeling. In: Book of Abstracts, 11th International Conference on Intelligent Data Processing: Theory and Applications IDP-2016, 10–14 Oct. 2016, Barcelona, Spain. Torus-Press, Moscow, p. 135.

·     Kurkov, V.M., Florinsky, I.V., and Bliakharskii, D.P., 2016. Application of unmanned aerial surveying for geomorphometric modelling and mapping. In: International Map Year in Russia: Uniting Space and Time: Abstracts of the Pan-Russian Scientific Conference, 2528 Oct. 2016, Moscow, Russia. Russian State Library, Moscow, pp. 169–172 (in Russian).

·     Florinsky, I.V., and Pankratov, A.N., 2015. Digital terrain modeling with orthogonal polynomials. In: Mathematical Methods for Pattern Recognition (MMPR17 Book of Abstracts, 17th National Conference, 1925 Sept. 2015, Svetlogorsk, Russia. Torus Press, Moscow, p. 187.

·     Florinsky, I.V., 2008. Global morphometric maps of Mars, Venus, and the Moon. In: Whigham, P.A., Drecki, I., and Moore, A. (Eds.), Space-Time Models & Visualisation: Proceedings of the 20th Annual Colloquium of the SIRC & GEOCOMP, 1–3 Sept. 2008, Auckland, New Zealand. University of Otago, Otago, p.15.

·     Florinsky, I.V., 2007. Zones of increased rock fracturing and monasteries in the Crimea. In: Tishkov, V.A., Yurchenkov, V.A., Nikonova, L.I., Martynova, M.Yu., Kursheva, G.A., Glazkova, E.V., Danilko, E.S., Lomshin, V.A., and Chernov, A.V. (Eds.), Proceedings of the 7th Congress of Ethnographists and Anthropologists of Russia, 9–14 July 2007, Saransk, Russia. Research Institute of Humane Sciences, Saransk, p. 345 (in Russian).

·     Florinsky, I.V., 2006. Global lineaments and ring structures: Application of digital terrain modelling In: Liu, X., and Wang, Y. (Eds.), Proceedings of the International Symposium on Terrain Analysis and Digital Terrain Modelling (TADTM 2006), 23–25 Nov. 2006, Nanjing, China. Nanjing Normal University, Nanjing, p. 40.

·     Florinsky, I.V., 2006. Oscillating processes in soils. In: Lakhno, V.D. (Ed.), Mathematical Biology and Bioinformatics: Proceedings of the 1st International Conference, 915 Oct. 2006, Pushchino, Russia. Max Press, Moscow, pp. 146–147.

·     Florinsky, I.V., 2006. Scale sequence ‘region – platform – continent – planet’: Application of digital terrain modelling. Bulletin of Moscow Society of Naturalists, Geological Series, 81: 83–84 (in Russian).

·     Florinsky, I.V., Eilers, R.G., Fitzgerald, M.M., and Swidinsky, D., 2006. Application of singular-spectrum analysis to study dynamics of soil salinisation in the Canadian prairies. In: Frontiers of Soil Science: Technology and the Information Age. Abstracts of the 18th World Congress of Soil Science, 9–15 July 2006, Philadelphia, USA. ASA-CSSA-SSSA, Philadelphia, Abstract 56-2 (CD ROM).

·     Florinsky, I.V., Eilers, R.G., Fitzgerald, M.M., and Swidinsky, D., 2006. Application of singular-spectrum analysis to study dynamics of soil salinisation in the Canadian prairies. In: Frontiers of Soil Science: Technology and the Information Age. Abstracts of the 18th World Congress of Soil Science, 9–15 July 2006, Philadelphia, USA. ASA-CSSA-SSSA, Philadelphia, p. 124.

·     Florinsky, I.V., Eilers, R., Swidinsky, D., and Fitzgerald, M., 2005. Analysis of spatial dynamics of soil salinization. In: Experimental Data in Soil Science: Theory and Ways of Standardizing. Proceedings of the Conference, 2022 Dec. 2005, Moscow, Russia. Lomonosov Moscow State University, Moscow, pp. 7–8 (in Russian).

·     Florinsky, I.V., and Eilers, R., 2002. Prediction of the soil organic carbon content at micro-, meso- and macroscales by digital terrain modelling. In: Abstracts of the 17th World Congress of Soil Science, 14–21 August 2002, Bangkok, Thailand, Vol. 4. ISSS, Bangkok, p. 1576.

·     Florinsky, I.V., Eilers, R.G., Manning, G., and Fuller, L.G., 1999. Prediction of soil properties with digital terrain modelling. In: Abstracts of Technical Papers of the 1999 Annual Meeting of the Canadian Society of Soil Science, Charlottetown, August 1999. Canadian Journal of Soil Science, 79: 642.

·     Florinsky, I.V., and Kuryakova, G.A., 1998. Determination of grid size for digital terrain models in soil investigations. In: Summaries Symposia 1–24, 16th World Congress of Soil Science, 2026 August 1998, Montpellier, France. Vol. 1. ISSS, Montpellier, p. 357.

·     Florinsky, I.V., and Kuryakova, G.A., 1998. Determination of grid size for digital terrain models in soil moisture modelling. In: Abstracts of the 23rd General Assembly of the European Geophysical Society, Nice, France, 2024 April 1998. Annales Geophysicae, 16 (Suppl. 2): 483.

·     Snakin, V.V., Rukhovich, O.V., Florinsky, I.V., Prisyazhnaya, A.A., and Khrisanov, V.R., 1996. Lead in soils of Russia. In: Heavy Metals in the Environment: Proceedings of the International Symposium, Pushchino, Russia, 15–18 Oct. 1996. Pushchino Research Centre Press, Pushchino, pp. 37–38 (in Russian).

·     Florinsky, I.V., 1995. Flow denudation, transit and accumulation zones of the part of the Crimean Peninsula and adjacent sea bottom. In: Mathematical Methods for Pattern Recognition: Proceedings of the 7th Conference, Pushchino, Russia, 25–30 Sept. 1995. Computing Centre, Russian Academy of Sciences, Moscow, pp. 166–168.

·     Florinsky, I.V., 1995. Quantitative topographic method of lineament visualization and fracture morphology recognition. In: Abstracts of the 20th General Assembly of European Geophysical Society, Hamburg, Germany, 1995. Annales Geophysicae, 13 (Suppl.): 198.

·     Florinsky, I.V., Arlashina, E.A., Kovda, I.V., and Morgun, Ye.G., 1994. Topographic control of gilgai soil profile formation. In: Etchevers B.J.D. (Ed.), Transactions of the 15th World Congress of Soil Science. Acapulco, Mexico, July 1994. Vol. 6b. ISSS, Mexico, pp. 121–122.

·     Kuryakova, G.A., Florinsky, I.V., and Shary, P.A., 1992. On the correlation between soil moisture and some topographic variables. In: Andronikov, V.L. (Ed.), The Modern Problems of Soil Geography and Mapping, Proceedings of the Conference, Moscow, USSR, 24–26 Sept. 1991. Dokuchaev Soil Institute, Moscow, pp. 70–71 (in Russian).

·     Florinsky, I.V., 1991. On a reproducible cartographic algorithm to recognise ring structures. In: Ring Structures and Morphostructures: Theoretical and Applied Aspects. Abstracts of the Conference, Vladivostok, USSR, Apr. 1991. Far-Eastern Research Centre Press, Vladivostok, p. 6 (in Russian).

·     Kuryakova, G.A., and Florinsky, I.V., 1990. On systematic classification of soils. In: Brekhovskikh, S.M. (Ed.), Theory and Practice of Classification and Systematization in Industry, Abstracts of the Symposium, Pushchino, USSR, 17–19 Dec. 1990. VINITI, Moscow, pp. 147–148 (in Russian).

·     Florinsky, I.V., 1990. On the optical generalization method for Relief Plasticity maps. In: Proceedings of the Republican Soil Agrochemical Meeting on Ecology, Fertility, and Protection of Soils, Baku, USSR, 29–31 May 1990. Elm, Baku, p. 18 (in Russian).

·     Florinsky, I.V., 1990. Systematic interpretation of images of the land surface. In: Brilevsky, M.N. (Ed.), Problems of Rational Using and Protection of the Environment: Proceedings of the Conference, Minsk, USSR, 10–12 April 1990. Byelorussian Geographical Society, Minsk, p. 31 (in Russian).

Patents

·     Florinsky, I.V., and Zatravkin, N.A., 1990. A device for automatic feed of documents in microfilm systems. USSR Inventor’s Certificate No. 1582174, G 03 B 27/62, 4 p. (in Russian).

Data bases

·     Ivanov, B.V., Bezgreshnov, A.M., Alexandrov, S.V., and Florinsky, I.V., 2022. UAV-based measurement data of reflectance characteristics for the surface near the Bellingshausen Antarctic Station (Collins Glacier) (UAV_ANTARCTICA_III). Certificate of the data base registration No. 2022622686, 31.10.2022. Application No. 2022622655, 24.10.2022 (in Russian).

Editorials

·     Florinsky, I.V., 2010. Preface. In: Florinsky, I.V. (Ed.), Man and the Geosphere. Nova Science Publishers, New York, pp. vii–xi.

·     Florinsky, I.V., 2007. Editorial. International Journal of Ecology and Development, 8 (3): 5–7.  web

·     Shary, P.A., and Florinsky, I.V., 1991. Editorial. In: Stepanov, I.N. (Ed.), The Geometry of the Earth Surface Structures. Pushchino Research Centre Press, Pushchino, pp. 7–8.

Scientific heritage

·     Florinsky, I.V. (Comp.), 2013. Molchanov, A.M. Writings. Institute of Mathematical Problems of Biology, Russian Academy of Sciences, Pushchino (CD-ROM, collection of books and papers in Russian & English).

·     Florinsky, I.V., 2013. Editorial and comments to the article “Hypothesis of the resonance structure of the Solar system” by A.M. Molchanov. Space and Time, No. 1 (11): 34–48 (in Russian, with English abstract).  web

·     Florinsky, I.V. (Ed. & Comp.), 2013. Molchanov, A.M. On Stability of Nonlinear Systems. Institute of Mathematical Problems of Biology, Russian Academy of Sciences, Pushchino, 103 p. (e-book, in Russian).  doi

·     Florinsky, I.V., 2012. Editorial and comments to the article "Time and evolution" by A.M. Molchanov. Space and Time, No. 2 (8): 71–79 (in Russian, with English abstract).  web

·     Florinsky, I.V. (Comp.), 2012. Molchanov, Albert Makaryevich: Bibliography. Institute of Mathematical Problems of Biology, Russian Academy of Sciences, Pushchino, 124 p. (in Russian).  doi

Theses

·     Florinsky, I.V., 2010. Theory and Applications of Mathematical Cartographic Modelling of Topography. D.Sc. Thesis. Institute of Mathematical Problems of Biology, Russian Academy of Sciences, Pushchino, 267 p. (in Russian).  doi

·     Florinsky, I.V., 2010. Theory and Applications of Mathematical Cartographic Modelling of Topography. Summary of D.Sc. Thesis. Moscow State University of Geodesy and Cartography (MIIGAiK), Moscow, 42 p. (in Russian).  web

·     Florinsky, I.V., 1993. Analysing Digital Elevation Models to Reveal Linear Structures of the Land Surface. Ph.D. Thesis. Institute of Soil Science and Photosynthesis, Russian Academy of Sciences, Pushchino, 133 p. (in Russian).

·     Florinsky, I.V., 1993. Analysing Digital Elevation Models to Reveal Linear Structures of the Land Surface. Summary of Ph.D. Thesis. Moscow State University of Geodesy and Cartography (MIIGAiK), Moscow, 17 p. (in Russian).  web

·     Florinsky, I.V., 1989. Modification of the COPY Subsystem of the Automated Information System for Unpublished Scientific and Engineering Sources (ASINIT-2M). M.Sc. Thesis. Moscow Institute of Engineers for Geodesy, Aerial Photosurveying, and Cartography (MIIGAiK), Moscow, 105 p. (in Russian).