- INTAS project "Study of mass transfer processes in a porous medium in relation to the movement of salt water and salt solutions in aquifers".
- Geological and geophysical stability of urbanized territories (intergovernmental bilateral agreement with the Geological Mining Service of France).
- International Project No. 425 of the International Geological Correlation Program "Assessment and reduction of landslide hazards for cultural heritage sites and high social significance".
- The Bistro-TACIS project "Prevention of geoecological and technogenic problems in Moscow".
- INTAS project "The effect of electromagnetic discharge induced by the MHD generator on the seismic regime".
- ISTC Project No. 3193. Engineering-geological, hydrogeological and radioecological justification of the construction of toxic and radioactive waste storage facilities in the Cambrian and Vendian clays of the North-Western region of Russia.
- ISTC Project No. 1565. A permanent model of the groundwater basin.
- ISTC 3590 project. Tritium/helium-3 is a method of dating young groundwater in hydrogeoecology.
- ISTC KR-1430 project. Study of formation factors and assessment of the impact of reservoirs of the Nizhne-Naryn cascade of hydroelectric power plants on the quality of water resources of the Naryn River basin by isotopic methods.
- International program "Global Terrestrial Permafrost Network (GTN-P)" (under an agreement with the Geophysical Institute of the University of Alaska).
- International program "Creation of Permafrost/Active Layer Monitoring Stations in Arctic Communities to provide education, promotion and assessment of future permafrost sustainability" (under an agreement with the Institute of Northern Engineering of the University of Alaska).
- The project of the International Consortium on Landslides "Mechanical and mathematical modeling and monitoring of landslide processes".
- The Russian-Japanese project "The influence of the mineral composition of clays and geochemistry of groundwater on the mechanism of landslide formation".
- Russian-Italian project "Modeling of hydrodynamics and groundwater pollution of urban industrial territories".
- The Russian-Spanish project "Integrated geophysical studies to detect water leaks from the water supply networks of the municipal services of Madrid and St. Petersburg".
- The Russian-Spanish project "Study of hydrogeological and hydrodynamic characteristics of aquifers in the province of Almeria (Andalusia, Spain)".
- Assessment of hydrogeological conditions of transboundary water bodies (Russia-Estonia).
- Assessment and prevention of geoecological hazards of natural phenomena and man-made impacts on the sustainable development of natural and economic systems (bilateral agreement of the Russian Academy of Sciences with the Polish Academy of Sciences).
- Assessment of the geo-ecological state of urbanized territories (bilateral agreement of the Russian Academy of Sciences with the Polish Academy of Sciences).
- Development of criteria and bases for assessing anthropogenic changes in the river basin (on the example of the cities of the Upper Volga region) (bilateral agreement of the Russian Academy of Sciences with the Polish Academy of Sciences).
- Quantitative assessment of the danger and risk of landslides and soil liquefaction (bilateral agreement of the Russian Academy of Sciences with the Montenegrin Academy of Sciences and Arts).
- "Geoecology" - The study of geoecology and hazardous natural processes based on remote sensing and geoinformation technologies (a bilateral agreement of the Russian Academy of Sciences with the Bulgarian Academy of Sciences).
- Research of the geothermal field, geothermal resources and ecology of the Black and Caspian Seas region (bilateral agreement of the Russian Academy of Sciences with the Bulgarian Academy of Sciences).
- Geothermal resources of Russia and Hungary (bilateral agreement of the Russian Academy of Sciences with the Hungarian Academy of Sciences).
- A joint project with Amec Offshore Services Ltd (UK), co-executor of Sakhalin Energy Investment Company, "Acceleration monitoring system aimed at the upper parts of offshore oil and gas platforms (Sakhalin 2 project)".
- Contract "Allocation of zones of increased fracturing on the construction sites of tunnels of the Madrid–Valladolid high-speed railway, (Spain)". Customer: TIHGSA Company (Spain); general customer – GIF Railway Infrastructure Management (Gestor de Infraestructuras Ferroviarias).
- Russian-Dutch RFBR project "Development of a risk analysis procedure for managing the underground space of urbanized and industrial territories".
- Russian-Austrian RFBR project "Assessment of the impact of global climate change on the isotopic composition of groundwater D/18O and the 234U/238U system in Russia and Austria".
- The Russian-Belarusian RFBR project "Risk assessment, modeling and methods of monitoring groundwater within environmentally hazardous industrial facilities in Russia and Belarus (chemical, mining and processing enterprises, nuclear power plants)".
- Russian-Indian RFBR project "Assessment of the risk of contamination of groundwater and soil with pesticides in irrigated areas".
- Russian-Taiwanese RFBR project "Theory and methods of earthquake early warning systems for underground pipelines and dangerous slopes" (2008-2011).
- Russian-Bulgarian RFBR project "Heat flow and geothermal activity of Bulgaria" (2018-2020).
- Russian-Indian RNF- RSF-DST project "Hazardous Natural processes and monitoring of mountainous territories of Russia and India" (2018-2021).
- Participation in the development of the Industry Road Methodological Document of the ODM 218.11.007-2022 "Methodological recommendations for the organization of engineering-geocryological monitoring and equipment of engineering-geocryological monitoring stationary posts in the right-of-way of highways in the cryolithozone" (2021-2022).
- RPF Grant No. 16-17-00125 "Risk assessment of hazardous natural processes in urbanized territories" (2016-2020).
- RNF Grant No. 18-77-00065 "Development and justification of effective technologies for protecting the territory from deep landslides for rational and safe development of coastal slopes (on the example of Moscow)" (2019-2021).
- RNF Grant No. 14-17-00357 "Theory and methods of natural risk assessment based on mathematical modeling of morphological structure of landscapes".
- RFBR-RGO Grant No. 17-05-41141 RGO a "Development of new methods for assessing natural risks for transport and communication networks of Siberia and the Far East based on remote surveys".
- RNF grant 18-17-00226 "Dynamic equilibrium of morphological structures in cryolithozone landscapes under climate change conditions"; after successful completion in 2020, it was continued until 2022.