Research scientist and designer of the optical-electronic, digital signal processing and computer image processing systems with 32 years of experience. The main research directions and interests belong to mathematical models identification, signal and image formation, analysis, representation, recognition, etc., multidimensional optimal filtering, stochastic dynamic systems, interferometric, digital holography and optical tomography systems.
2005—2012: National Research University of Information Technologies, Mechanics and Optics, Saint-Petersburg, Russia, Head of Department, Computer Photonics and Videomatics.
1990—2004: Saint Petersburg State University of Information Technologies, Mechanics and Optics, Saint-Petersburg, Russia, leading research worker, professor (since 1995).
1979—1990: D.I. Mendeleyev Institute for Metrology, Leningrad, USSR, research worker, Head of the scientific laboratory of Length Standards (since 1987).
1976—1979: Science — Production Association «Avangard», Leningrad, USSR, engineer.
I. Gurov, M. Volynsky, «Interference fringe analysis based on recurrence computational algorithms» Optics and Lasers in Engineering, 2011. Electronic access: http://www.sciencedirect.com/science/article/ pii/S0143816611002338.
A.N. Averkin, I.P. Gurov, M.V. Peterson, A.S. Potapov. «Spectral-differential feature matching and clustering for multi-body motion estimation», in: Proc. MVA2011 IAPR Conference on Machine Vision Applications, 2011. (June 13-15, Nara, Japan) P. 173–176.
I. Gurov, M. Volynsky, E.Vorobeva, «Dynamic wavefront evaluation in phase shifting interferometry based on recurrence fringe processing», in: Int. Conf. on Advanced Phase Measurement Methods in Optics and Imaging, P.K. Rastogi and E. Hack, eds. AIP Conference Series, vol. 1236, pp. 479-484 (2010).
I. Gurov, M. Volynsky, «White-light microscopy for evaluating transparent films using switching model of overlapped fringes», in: Int. Conf. on Advanced Phase Measurement Methods in Optics and Imaging, P.K. Rastogi and E. Hack, eds. AIP Conference Series, vol. 1236, pp. 295-300 (2010).
M. A. Volynskii, I. P. Gurov, and A. S. Zakharov, «Dynamic analysis of the signals in optical coherent tomography by the method of nonlinear Kalman filtering», J. Opt. Technology, Vol. 75, Iss. 10, pp. 682–686 (2008).
2011—2013: Evaluation and diagnostics of biotissues by noninvasive high-resolving methods of Optical Coherence Tomography and 3D Microscopy (Project Leader).
2011—2012: Formation, analysis and representation of 3D images in information and telecommunication systems (Project Leader).
2010—2012: Development of optical-digital diagnostic complex for telemedicine (Project Leader).
2010—2011: Investigation of problems of image recognition in information systems and development of theory of recognition algorithm synthesis with intelligent technologies (Responsible Executor).
2009—2010: Development of image analysis theory on the base of representational minimum description length principle (Project Leader).
2009—2010: Investigation and development of multiparametric measuring instruments of multifunctional manufacture for industrial control systems (Responsible Executor).
2006—2009: Development of image analysis and pattern recognition systems in high-performance video-applications (Responsible Executor).