Alexey Pavlov
Alexey Pavlov, Professor, PhD., Dr.Sc., graduated from Saratov State University named after N.G. Chernyshevsky (1995, diploma with excellence). He defended his dissertation for the degree of Candidate of physical and mathematical sciences (PhD equivalent) in the specialty “Radiophysics” (on the basis of thesis “Reconstruction of dynamical systems and its applications”, 1998) and Doctor of physical and mathematical sciences (Dr.Sc.) in the same specialty (on the basis of thesis “Analysis of nonstationary, short and noisy signals based on the wavelet-transform”, 2009). He worked at SSU at the Department of Radiophysics and Nonlinear Dynamics as Assistant Professor (1999-2002), Associate Professor (2002-2010) and Professor (2010-2017). In the period from 2016 to 2019, he was the Head of the Department of Electrical Engineering and Electronics of Yuri Gagarin State Technical University of Saratov. Since 2019, he has been working at SSU as Professor at the Department of Open Systems Physics and Deputy Head of the Administration of Scientific Activity. Under his supervising, 7 graduate students received PhD-degrees. He took part in the implementation of a large number of scientific projects, including grants from the RSF, RFBR, Foundation of the President of the Russian Federation; INTAS, CRDF, DAAD international funds, projects under several federal target programs. He is a co-author of more than 250 scientific works, including a monograph: Hramov A.E., Koronovskii A.A., Makarov V.A., Pavlov A.N., Sitnikova E., “Wavelets in Neuroscience”, Springer Series in Synergetics, Berlin, Heidelberg, 2015, 318 p. Hirsch Index h = 19 (Web of Science / Scopus).
Main publications:
1. Pavlov A.N., Makarov V.A., Mosekilde E., Sosnovtseva O.V., “Application of wavelet-based tools to study the dynamics of biological processes”, Briefings in Bioinformatics 7, pp. 375-389 (2006).
2. Sosnovtseva O.V., Pavlov A.N., Brazhe N.A., Brazhe A.R., Erokhova L.A., Maksimov G.V., Mosekilde E., “Interference microscopy under double-wavelet analysis: A new approach to studying cell dynamics”, Physical Review Letters 94, pp. 218103(4) (2005).
3. Holstein-Rathlou N.-H., Sosnovtseva O.V., Pavlov A.N., Cupples W.A., Sorensen C.M., Marsh D.J., “Nephron blood flow dynamics measured by laser speckle contrast imaging”, American Journal of Physiology (Renal Physiol.) 300, pp. F319-F329 (2011).
4. Sosnovtseva O.V., Pavlov A.N., Mosekilde E., Yip K.-P., Holstein-Rathlou N.-H., Marsh D.J., “Synchronization among mechanisms of renal autoregulation is reduced in hypertensive rats”, American Journal of Physiology (Renal Physiol.) 293, pp. F1545-F1555 (2007).
5. Marsh D.J., Sosnovtseva O.V., Pavlov A.N., Yip K.-P., Holstein-Rathlou N.-H., “Frequency encoding in renal blood flow regulation”, American Journal of Physiology (Regul. Integr. Comp. Physiol.) 288, pp. R1160-R1167 (2005).
6. Pavlov A.N., Hramov A.E., Koronovskii A.A., Sitnikova E.Yu., Makarov V.A., Ovchinnikov A.A., “Wavelet analysis in neurodynamics”, Physics-Uspekhi 55(9), pp.845-875 (2012).
7. Pavlov A.N., Anishchenko V.S., “Multifractal analysis of complex signals”, Physics-Uspekhi 50(8), pp. 819-834 (2007).
8. Sosnovtseva O.V., Pavlov A.N., Pavlova O.N., Mosekilde E., Holstein-Rathlou N.-H., “Characterizing the effect of L-name on intra- and inter-nephron synchronization”, European Journal of Pharmaceutical Sciences 36, pp. 39-50 (2009).
9. Semyachkina-Glushkovskaya O., Borisova E., Abakumov M., Gorin D., Avramov L., Fedosov I., Namykin A., Abdurashitov A., Serov A., Pavlov A., Zinchenko E., Lychagov V., Navolokin N., Shirokov A., Maslyakova G., Zhu D., Luo Q., Chekhonin V., Tuchin V., Kurths J. “The stress and vascular catastrophes in newborn rats: mechanisms preceding and accompanying the brain hemorrhages”, Frontiers in Physiology 7, 210 (2016).
10. Frolov N.S., Grubov V.V., Maksimenko V.A., Lüttjohann A., Makarov V.V., Pavlov A.N., Sitnikova E., Pisarchik A.N., Kurths J., Hramov A.E. “Statistical properties and predictability of extreme epileptic events”, Scientific Reports 9, 7243 (2019).