Vol. 17, no. 5, 2025
РусскийEnglish
VLADIMIR I. GRACHEV
Corresponding Member of Russian Academy of Natural Sciences
Kotelnikov Institute of Radioengineering and Electronics, Russian Academy of Sciences, http://www.cplire.ru
11/7, Mokhovaya str., Moscow 125009, Russian Federation
grachev@cplire.ru
Personalia Signatures
Garnov S.V., Grachev V.I., Gulyaev Yu.V., et al. "IN MEMORY OF VALERY A. MILYAEV". RENSIT, 2011, 3(2):118-121.
Papers:
1. Grachev V.I., Kolesov V.V. METHODS AND APPARATUS FOR EHF-PUNCTURE THERAPY. RENSIT, 2009, 1(1-2):171-194.
2. Grachev V.I., Potapov A.A., Potapov V.A. FRACTAL LABYRINTHS. RENSIT, 2011, 3(2):103-109.
3. Zaritski A.R., Grachev V.I., Vorontsov Yu.P., Pronin V.S. ENERGY ASPECTS OF ABIOGENESIS IN THE ATMOSPHERE ON HYDROCARBON AEROSOL NANODROPLETS. 2013, 5(2):105-125.
4. Zaritsky A.R., Grachev V.I., Vorontsov Yu.P., Pronin V.S. ABIOGENESIS TRANSITION FROM THE ATMOSPHERE INTO THE HYDROSPHERE: FROM VESICLES TO PROTOCELLS. RENSIT, 2014, 6(2):221-231; DOI: 10.17725/RENSITe.0006.201412f.0221.
5. Zaritsky Alexander R., Grachev Vladimir I., Vorontsov Yuriy P., Kirichenko Marina N., Pronin Vyacheslav S. ANAEROBIC STAGE OF THE EVOLUTIONARY DEVELOPMENT OF ANIMAL CELLS. RENSIT, 2015, 7(1):87-99; DOI: 10.17725/rensit.2015.07.087.
6. Grachev Vladimir I. FIRST RUSSIAN CONFERENCE "GRAPHENE – MOLECULE AND 2D-CRYSTAL" (Novosibirsk, 8-12.09.2015). RENSIT, 2015, 7(2):108-130; DOI: 10.17725/rensit.2015.07.108.
7. Zaritsky Alexander R., Zaytseva Galina V., Grachev Vladimir I., Kirichenko Marina N. ELECTRIC FIELD IN THE CYTOMEMBRANE AS A FACTOR OF ENERGY METABOLISM INTENSIFICATION. RENSIT, 2016, 8(1):91-103; DOI: 10.17725/rensit.2015.08.091.
8. Alexander R. Zaritsky, Vladimir I. Grachev, Galina V. Zaytseva, Marina N. Kirichenko. EVOLUTIONARY ASPECTS OF THE GEL APPEARANCE AND ITS FUNCTIONS IN THE CELL CYTOPLASM. RENSIT, 2016, 8(2):215-222; DOI: 10.17725/rensit.2016.08.215.
9. Vladimir I. Grachev, Sergey P. Gubin. SCIENTIFIC-TECHNOLOGICAL FORECASTING. RENSIT, 2017, 9(1):3-4; DOI: 10.17725/rensit.2017.09.003.
10. Anri A. Rulhadze, Vladimir I. Grachev. LENR IN RUSSIA. RENSIT, 2017, 9(1):5-7; DOI: 10.17725/rensit.2017.09.005.
11. Vladimir I. Grachev. GRAFENIKA. RUSSIAN GUBIN'S SEMINAR (MOSCOW). RENSIT, 2017, 9(2):230; DOI: 10.17725/rensit.2017.09.230.
12. Nikolay D. Devyatkov, Vladimir Ya. Kislov, Vladimir V. Kolesov, Vladimir I. Grachev. DIAGNOSTICS AND CORRECTION OF THE FUNCTIONAL STATE OF THE HUMAN ORGANISM WITH THE "CHARM"-DIAGNOSTIC COMPLEX. RENSIT, 2018, 10(2):257-268; DOI: 10.17725/rensit.2018.10.257.
13. Rostislav V. Belyaev, Vladimir I. Grachev, Vladimir V. Kolesov, Galina Ya. Menshikova, Alexander M. Popov, Viktor I. Ryabenkov. Oculomotor reactions in fixations and saccades with visual perception of information. RENSIT, 2020, 12(2):263-274. DOI: 10.17725/rensit.2020.12.263.
14. Vladimir I. Grachev, Vladimir V. Kolesov, Galina Ya. Menshikova, Viktor I. Ryabenkov. Physiological aspects of visual information perception of the oculomotor apparatus. RENSIT, 2021, 13(3):389-402. DOI: 10.17725/rensit.2021.13.389.
15. Nikita A. Ageykin, Vladimir I. Grachev, Viktor I. Ryabenkov, Vladimir V. Kolesov. Information Technologies Based on Noise-like Signals: I. Discrete Chaotic Algorithms. RENSIT, 2022, 14(1):47-64. DOI: 10.17725/rensit.2022.14.47.
16. Vadim V. Kashin, Vladimir I. Grachev, Viktor I. Ryabenkov, Vladimir V. Kolesov. Information Technologies Based on Noise-like Signals: II. Statistical and Fractal Properties of Chaotic Algorithms. RENSIT, 2022, 14(2):151-164. DOI: 10.17725/rensit.2022.14.151.
17. Nikita A. Ageykin, Vladimir I. Grachev, Nadezhda G. Petrova, Alexander M. Popov, Viktor I. Ryabenkov, Vladimir V. Kolesov. Information Technologies Based on Noise-like Signals: III. Spectrum of Sequences Periods Forming by a Discrete Chaotic Algorithm. RENSIT, 2022, 14(3):269-278. DOI: 10.17725/rensit.2022.14.269.
18. Vladimir I. Grachev, Viktor I. Ryabenkov, Anastsiya V. Surgay, Vladimir V. Kolesov. Information Technologies Based on Noise-like Signals: IV. Algorithmic pseudo-random number generators based on dynamic chaos. RENSIT, 2022, 14(4):437-462. DOI: 10.17725/rensit.2022.14.437.
19. Venedikt M. Kuz'kin, Sergey A. Pereselkov, Yuri V. Matvienko, Vladimir I. Grachev, Sergey A. Tkachenko, Nadezhda P. Stadnaya. Holographic processing of hydroacoustic information using linear antennas. RENSIT, 2023, 15(2):169-178. DOI: 10.17725/rensit.2023.15.169.
20. Vladimir I. Grachev. In memory of Rostislav V. Belyaev. RENSIT, 2023, 15(2):199-200. DOI: 10.17725/rensit.2023.15.199.
21. Vladimir I. Grachev. In memory of Nikolay N. Zalogin. RENSIT, 2023, 15(2):201-202. DOI: 10.17725/rensit.2023.15.201.
22. Venedikt M. Kuz'kin, Sergey A. Pereselkov, Vladimir I. Grachev, Sergey A. Tkachenko, Nikolay V. Ladykin, Mikhail V. Kutsov. Holographic method for localization of a moving underwater sound source in the presence of intense internal waves. RENSIT, 2023, 15(3):317-326. DOI: 10.17725/rensit.2023.15.317.
23. Sergey L. Ilmenkov, Sergey A. Pereselkov, Vladimir I. Grachev, Nikolay V. Ladykin. Sound reflection from an elastic finite cylindrical shell of different relative lengths. RENSIT, 2023, 15(4):425-432. DOI: 10.17725/rensit.2023.15.425.
24. Venedikt M. Kuz'kin, Sergey A. Pereselkov, Vladimir I. Grachev, Pavel V. Rybyanets, Sergey A. Tkachenko. Maximum detection range of an underwater noise source using holographic processing. RENSIT, 2024, 16(1):129-136. DOI: 10.17725/rensit.2024.16.129.
25. Alexander F. Scherbatyuk, Yury V. Matvienko, Venedikt M. Kuz'kin, Sergey A. Pereselkov, Vladimir I. Grachev. One approach for group navigation of unmanned underwater vehicles. RENSIT, 2024, 16(2):267-274. DOI: 10.17725/rensit.2024.16.267.
26. Venedikt M. Kuz'kin, Sergey A. Pereselkov, Vladimir I. Grachev, Pavel V. Rybyanets, Sergey A. Tkachenko. Noise signals resolution in the random inhomogeneities presence of oceanic environment. RENSIT, 2024, 16(3):395-406. DOI: 10.17725/rensit.2024.16.395.
27. Venedikt M. Kuz'kin, Sergey A. Pereselkov, Vladimir I. Grachev, Pavel V. Rybyanets, Sergey A. Tkachenko. Adaptive algorithm for localizing underwater noise sources in shallow waters. RENSIT, 2024, 16(4):533-544. DOI: 10.17725/rensit.2024.16.533.
28. Venedikt M. Kuz'kin, Sergey A. Pereselkov, Vladimir I. Grachev, Vladimir V. Logachev, Ivan M. Kosenko. Holographic method for processing hydroacoustic signals from a high-frequency source in shallow water. RENSIT, 2024, 16(4):545-554. DOI: 10.17725/rensit.2024.16.545.
29. Venedikt M. Kuz'kin, Sergey A. Pereselkov, Vladimir I. Grachev, Sergey A. Tkachenko, Alexey S. Pereselkov. Underwater noise source localization by a moving receiver based on holographic processing. RENSIT, 2024, 16(7):931-940. DOI: 10.17725/rensit.2024.16.931.
30. Venedikt M. Kuz'kin, Sergey A. Pereselkov, Vladimir I. Grachev, Ivan M. Kosenko, Nikolay V. Ladykin, Alexei S. Pereselkov. Localization of a moving noise source in a shallow water area with irregular bathymetry. RENSIT, 2024, 16(8):1081-1088. DOI: 10.17725/rensit.2024.16.1081.
31. Yuri V. Matvienko, Venedikt M. Kuz'kin, Vladimir V. Kostenko, Sergey A. Pereselkov, Yurii A. Khvorostov, Vladimir I. Grachev, Nikolay V. Ladykin. Hybrid autonomous uninhabited underwater vehicle for underwater lighting in shallow waters. RENSIT, 2025, 17(1):125-132. DOI: 10.17725/rensit.2025.17.125.
32. Yuri V. Matvienko, Venedikt M. Kuz'kin, Sergey A. Pereselkov, Nikolay V. Ladykin, Vladimir I. Grachev. Detection and localization of underwater noise source in shallow waters against the background of heavy shipping. RENSIT, 2025, 17(2):211-220. DOI: 10.17725/rensit.2025.17.211.
33. Venedikt M. Kuz'kin, Sergey A. Pereselkov, Ivan M. Kosenko, Vladimir I. Grachev, Alexey S. Pereselkov. Detection range estimation of an underwater noise source in shallow waters with irregular bathymetry. RENSIT, 2025, 17(3):321-330. DOI: 10.17725/rensit.2025.17.321.
34. Venedikt M. Kuz'kin, Sergey A. Pereselkov, Ivan M. Kosenko, Vladimir I. Grachev, Alexey S. Pereselkov. Noise source bearing estimation in shallow waters. RENSIT, 2025, 17(4):455-462. DOI: 10.17725/rensit.2025.17.455.
35. Venedikt M. Kuz'kin, Sergey A. Pereselkov, Vladimir A. Bashkarev, Nikolay V. Ladykin, Vladimir I. Grachev. Angular distribution of the spectral density of the noise emission hologram of an underwater vehicle. RENSIT, 2025, 17(4):463-472. DOI: 10.17725/rensit.2025.17.463.
36. Yuri V. Matvienko, Venedikt M. Kuz'kin, Sergey A. Pereselkov, Vladimir I. Grachev, Alexey S. Pereselkov. A model of a combined direction finder for low-frequency sonar signals with multidirectional reception. RENSIT, 2025, 17(5):607-614. DOI: 10.17725/rensit.2025.17.607.
Corresponding Member of Russian Academy of Natural Sciences
Kotelnikov Institute of Radioengineering and Electronics, Russian Academy of Sciences, http://www.cplire.ru
11/7, Mokhovaya str., Moscow 125009, Russian Federation
grachev@cplire.ru
Personalia Signatures
Garnov S.V., Grachev V.I., Gulyaev Yu.V., et al. "IN MEMORY OF VALERY A. MILYAEV". RENSIT, 2011, 3(2):118-121.
Papers:
1. Grachev V.I., Kolesov V.V. METHODS AND APPARATUS FOR EHF-PUNCTURE THERAPY. RENSIT, 2009, 1(1-2):171-194.
2. Grachev V.I., Potapov A.A., Potapov V.A. FRACTAL LABYRINTHS. RENSIT, 2011, 3(2):103-109.
3. Zaritski A.R., Grachev V.I., Vorontsov Yu.P., Pronin V.S. ENERGY ASPECTS OF ABIOGENESIS IN THE ATMOSPHERE ON HYDROCARBON AEROSOL NANODROPLETS. 2013, 5(2):105-125.
4. Zaritsky A.R., Grachev V.I., Vorontsov Yu.P., Pronin V.S. ABIOGENESIS TRANSITION FROM THE ATMOSPHERE INTO THE HYDROSPHERE: FROM VESICLES TO PROTOCELLS. RENSIT, 2014, 6(2):221-231; DOI: 10.17725/RENSITe.0006.201412f.0221.
5. Zaritsky Alexander R., Grachev Vladimir I., Vorontsov Yuriy P., Kirichenko Marina N., Pronin Vyacheslav S. ANAEROBIC STAGE OF THE EVOLUTIONARY DEVELOPMENT OF ANIMAL CELLS. RENSIT, 2015, 7(1):87-99; DOI: 10.17725/rensit.2015.07.087.
6. Grachev Vladimir I. FIRST RUSSIAN CONFERENCE "GRAPHENE – MOLECULE AND 2D-CRYSTAL" (Novosibirsk, 8-12.09.2015). RENSIT, 2015, 7(2):108-130; DOI: 10.17725/rensit.2015.07.108.
7. Zaritsky Alexander R., Zaytseva Galina V., Grachev Vladimir I., Kirichenko Marina N. ELECTRIC FIELD IN THE CYTOMEMBRANE AS A FACTOR OF ENERGY METABOLISM INTENSIFICATION. RENSIT, 2016, 8(1):91-103; DOI: 10.17725/rensit.2015.08.091.
8. Alexander R. Zaritsky, Vladimir I. Grachev, Galina V. Zaytseva, Marina N. Kirichenko. EVOLUTIONARY ASPECTS OF THE GEL APPEARANCE AND ITS FUNCTIONS IN THE CELL CYTOPLASM. RENSIT, 2016, 8(2):215-222; DOI: 10.17725/rensit.2016.08.215.
9. Vladimir I. Grachev, Sergey P. Gubin. SCIENTIFIC-TECHNOLOGICAL FORECASTING. RENSIT, 2017, 9(1):3-4; DOI: 10.17725/rensit.2017.09.003.
10. Anri A. Rulhadze, Vladimir I. Grachev. LENR IN RUSSIA. RENSIT, 2017, 9(1):5-7; DOI: 10.17725/rensit.2017.09.005.
11. Vladimir I. Grachev. GRAFENIKA. RUSSIAN GUBIN'S SEMINAR (MOSCOW). RENSIT, 2017, 9(2):230; DOI: 10.17725/rensit.2017.09.230.
12. Nikolay D. Devyatkov, Vladimir Ya. Kislov, Vladimir V. Kolesov, Vladimir I. Grachev. DIAGNOSTICS AND CORRECTION OF THE FUNCTIONAL STATE OF THE HUMAN ORGANISM WITH THE "CHARM"-DIAGNOSTIC COMPLEX. RENSIT, 2018, 10(2):257-268; DOI: 10.17725/rensit.2018.10.257.
13. Rostislav V. Belyaev, Vladimir I. Grachev, Vladimir V. Kolesov, Galina Ya. Menshikova, Alexander M. Popov, Viktor I. Ryabenkov. Oculomotor reactions in fixations and saccades with visual perception of information. RENSIT, 2020, 12(2):263-274. DOI: 10.17725/rensit.2020.12.263.
14. Vladimir I. Grachev, Vladimir V. Kolesov, Galina Ya. Menshikova, Viktor I. Ryabenkov. Physiological aspects of visual information perception of the oculomotor apparatus. RENSIT, 2021, 13(3):389-402. DOI: 10.17725/rensit.2021.13.389.
15. Nikita A. Ageykin, Vladimir I. Grachev, Viktor I. Ryabenkov, Vladimir V. Kolesov. Information Technologies Based on Noise-like Signals: I. Discrete Chaotic Algorithms. RENSIT, 2022, 14(1):47-64. DOI: 10.17725/rensit.2022.14.47.
16. Vadim V. Kashin, Vladimir I. Grachev, Viktor I. Ryabenkov, Vladimir V. Kolesov. Information Technologies Based on Noise-like Signals: II. Statistical and Fractal Properties of Chaotic Algorithms. RENSIT, 2022, 14(2):151-164. DOI: 10.17725/rensit.2022.14.151.
17. Nikita A. Ageykin, Vladimir I. Grachev, Nadezhda G. Petrova, Alexander M. Popov, Viktor I. Ryabenkov, Vladimir V. Kolesov. Information Technologies Based on Noise-like Signals: III. Spectrum of Sequences Periods Forming by a Discrete Chaotic Algorithm. RENSIT, 2022, 14(3):269-278. DOI: 10.17725/rensit.2022.14.269.
18. Vladimir I. Grachev, Viktor I. Ryabenkov, Anastsiya V. Surgay, Vladimir V. Kolesov. Information Technologies Based on Noise-like Signals: IV. Algorithmic pseudo-random number generators based on dynamic chaos. RENSIT, 2022, 14(4):437-462. DOI: 10.17725/rensit.2022.14.437.
19. Venedikt M. Kuz'kin, Sergey A. Pereselkov, Yuri V. Matvienko, Vladimir I. Grachev, Sergey A. Tkachenko, Nadezhda P. Stadnaya. Holographic processing of hydroacoustic information using linear antennas. RENSIT, 2023, 15(2):169-178. DOI: 10.17725/rensit.2023.15.169.
20. Vladimir I. Grachev. In memory of Rostislav V. Belyaev. RENSIT, 2023, 15(2):199-200. DOI: 10.17725/rensit.2023.15.199.
21. Vladimir I. Grachev. In memory of Nikolay N. Zalogin. RENSIT, 2023, 15(2):201-202. DOI: 10.17725/rensit.2023.15.201.
22. Venedikt M. Kuz'kin, Sergey A. Pereselkov, Vladimir I. Grachev, Sergey A. Tkachenko, Nikolay V. Ladykin, Mikhail V. Kutsov. Holographic method for localization of a moving underwater sound source in the presence of intense internal waves. RENSIT, 2023, 15(3):317-326. DOI: 10.17725/rensit.2023.15.317.
23. Sergey L. Ilmenkov, Sergey A. Pereselkov, Vladimir I. Grachev, Nikolay V. Ladykin. Sound reflection from an elastic finite cylindrical shell of different relative lengths. RENSIT, 2023, 15(4):425-432. DOI: 10.17725/rensit.2023.15.425.
24. Venedikt M. Kuz'kin, Sergey A. Pereselkov, Vladimir I. Grachev, Pavel V. Rybyanets, Sergey A. Tkachenko. Maximum detection range of an underwater noise source using holographic processing. RENSIT, 2024, 16(1):129-136. DOI: 10.17725/rensit.2024.16.129.
25. Alexander F. Scherbatyuk, Yury V. Matvienko, Venedikt M. Kuz'kin, Sergey A. Pereselkov, Vladimir I. Grachev. One approach for group navigation of unmanned underwater vehicles. RENSIT, 2024, 16(2):267-274. DOI: 10.17725/rensit.2024.16.267.
26. Venedikt M. Kuz'kin, Sergey A. Pereselkov, Vladimir I. Grachev, Pavel V. Rybyanets, Sergey A. Tkachenko. Noise signals resolution in the random inhomogeneities presence of oceanic environment. RENSIT, 2024, 16(3):395-406. DOI: 10.17725/rensit.2024.16.395.
27. Venedikt M. Kuz'kin, Sergey A. Pereselkov, Vladimir I. Grachev, Pavel V. Rybyanets, Sergey A. Tkachenko. Adaptive algorithm for localizing underwater noise sources in shallow waters. RENSIT, 2024, 16(4):533-544. DOI: 10.17725/rensit.2024.16.533.
28. Venedikt M. Kuz'kin, Sergey A. Pereselkov, Vladimir I. Grachev, Vladimir V. Logachev, Ivan M. Kosenko. Holographic method for processing hydroacoustic signals from a high-frequency source in shallow water. RENSIT, 2024, 16(4):545-554. DOI: 10.17725/rensit.2024.16.545.
29. Venedikt M. Kuz'kin, Sergey A. Pereselkov, Vladimir I. Grachev, Sergey A. Tkachenko, Alexey S. Pereselkov. Underwater noise source localization by a moving receiver based on holographic processing. RENSIT, 2024, 16(7):931-940. DOI: 10.17725/rensit.2024.16.931.
30. Venedikt M. Kuz'kin, Sergey A. Pereselkov, Vladimir I. Grachev, Ivan M. Kosenko, Nikolay V. Ladykin, Alexei S. Pereselkov. Localization of a moving noise source in a shallow water area with irregular bathymetry. RENSIT, 2024, 16(8):1081-1088. DOI: 10.17725/rensit.2024.16.1081.
31. Yuri V. Matvienko, Venedikt M. Kuz'kin, Vladimir V. Kostenko, Sergey A. Pereselkov, Yurii A. Khvorostov, Vladimir I. Grachev, Nikolay V. Ladykin. Hybrid autonomous uninhabited underwater vehicle for underwater lighting in shallow waters. RENSIT, 2025, 17(1):125-132. DOI: 10.17725/rensit.2025.17.125.
32. Yuri V. Matvienko, Venedikt M. Kuz'kin, Sergey A. Pereselkov, Nikolay V. Ladykin, Vladimir I. Grachev. Detection and localization of underwater noise source in shallow waters against the background of heavy shipping. RENSIT, 2025, 17(2):211-220. DOI: 10.17725/rensit.2025.17.211.
33. Venedikt M. Kuz'kin, Sergey A. Pereselkov, Ivan M. Kosenko, Vladimir I. Grachev, Alexey S. Pereselkov. Detection range estimation of an underwater noise source in shallow waters with irregular bathymetry. RENSIT, 2025, 17(3):321-330. DOI: 10.17725/rensit.2025.17.321.
34. Venedikt M. Kuz'kin, Sergey A. Pereselkov, Ivan M. Kosenko, Vladimir I. Grachev, Alexey S. Pereselkov. Noise source bearing estimation in shallow waters. RENSIT, 2025, 17(4):455-462. DOI: 10.17725/rensit.2025.17.455.
35. Venedikt M. Kuz'kin, Sergey A. Pereselkov, Vladimir A. Bashkarev, Nikolay V. Ladykin, Vladimir I. Grachev. Angular distribution of the spectral density of the noise emission hologram of an underwater vehicle. RENSIT, 2025, 17(4):463-472. DOI: 10.17725/rensit.2025.17.463.
36. Yuri V. Matvienko, Venedikt M. Kuz'kin, Sergey A. Pereselkov, Vladimir I. Grachev, Alexey S. Pereselkov. A model of a combined direction finder for low-frequency sonar signals with multidirectional reception. RENSIT, 2025, 17(5):607-614. DOI: 10.17725/rensit.2025.17.607.