Канев Николай Георгиевич
к.ф.-м.н., доцент
Kanev NIKOLAY
PhD, Associate Professor
ЧИТАЕМЫЕ КУРСЫ
Акустика помещений (магистры)
НАУЧНЫЕ ТРУДЫ
Architectural Acoustics
Kanev N.G. Maximum Sound Absorption by a Monopole in a Room at Low Frequencies // Acoust. Phys. Vol. 66. № 3. 2020. pp. 327-331.
Shirgina N., Livshits A., Ponomarev A., Kanev N., Peretokin A. Acoustic characteristics of concert hall Zaryadye in Moscow // International Symposium on Room Acoustics ISRA-2019, September 15 – 17, 2019, Amsterdam, Netherlands. P.109-116.
Kanev N., Livshits A. Circular concert halls and possible ways to improve their acoustics // Proceedings of the Institute of Acoustics. V. 40. Pt. 3. 2018. P.200-208.
Fadeev A., Kanev N., Livshits A., Nechaev A., Peretokin A., Rodenkov V., Shirgina N. Acoustics of new and renovated chamber music halls in Russia // Proceedings of Meetings on Acoustics. Vol. 28. 2017. 015010.
Kanev N.G. Nonexponential Sound Decay in Concert Halls // Acoust. Phys. Vol. 62. № 1. 2016. pp. 108-111.
Bertman D., Kanev N., Livshits A. Stravinsky Hall of the Moscow Musical Theatre “Helikon-Opera”: acoustic challenges and achieved results // 22nd International Congress on Acoustics, September 05 – 09, 2016, Buenos Aires, Argentina.
Kanev N. Efficiency factors characterizing sound reflection properties of a room ceiling // 22nd International Congress on Acoustics, September 05 – 09, 2016, Buenos Aires, Argentina. Proceedings of Meetings on Acoustics. Vol. 28, 2017. 015007.
Kanev N.G. Acoustic Method for Measuring Air Temperature and Humidity in Rooms // Acoust. Phys. Vol. 60. № 3. 2014. pp. 353-355.
Kanev N.G., Livshits A. Ya. Changes in the Acoustics of the Moscow Conservatory Great Hall Two Years after Reconstruction // Acoust. Phys. Vol. 60. № 2. 2014. pp. 197-199.
Kanev N.G., Livshits A. Ya., Möller H. Acoustics of the Great Hall of the Moscow State Conservatory after Reconstruction in 2010-2011 // Acoust. Phys. Vol. 59. № 3. 2013. pp. 361-368.
Kanev N.G. Reverberation in a Trapezoidal Room // Acoust. Phys. Vol. 59. № 5. 2013. pp. 559-564.
Kanev N.G. Sound Decay in a Rectangular Room with Impedance Walls // Acoust. Phys. Vol. 58. № 5. 2012. pp. 603-609.
Noise and vibration control
Vasilyev M., Lavrova M., Kanev N. Experimental Study of Cubic, Pyramidal and Hemispherical Diffusers at Normal Sound Incidence // International Symposium on Room Acoustics ISRA-2019, September 15 – 17, 2019, Amsterdam, Netherlands. P.209-215.
Kanev N. Adjustability of acoustic properties of surfaces at low frequencies by an array of active resonators // Proc. of Euronoise 2018 Conference, May 28-31, 2018, Crete, Greece. P. 859-866.
Kanev N.G. On Measuring the Scattering Coefficient in a Nondiffuse Sound Field // Acoust. Phys. Vol. 63. № 6. 2017. pp. 731-736.
Kanev N. Measurement of sound scattering coefficients of surfaces in a non-diffuse sound field: theoretical and experimental investigation // Proc. of INTERNOISE 2017, August 27-30, 2017, Hong Kong, China. P.2367-2378.
Kanev N.G. Flexural Vibration Insulation with an Elastic Layer for a Plate under Nonuniform
Vibratory Action // Acoust. Phys. Vol. 60. № 6. 2014. pp. 727-731.
Kanev N.G. The Stabilizing Effect of Feedback on the Operation of an Active Noise Control System // Acoust. Phys. Vol. 58. № 2. 2012. pp. 262-263.
Kanev N., Mironov M., Gladilin A. Robustness of a feedback active noise control // Proc. of INTERNOISE 2010, June 13-16, 2010, Lisbon, Portugal.
Kanev N., Mironov M. On a stability of the shear flow with a tangential discontinuity in the presence of a small scatterer // Proc. of the conference Acoustics’08 Paris, June 29 – July 4, 2008, Paris, France. P. 1851-1855.
Kanev N.G. The Added Masses of a Monopole and a Dipole in a Narrow Pipe // Acoust. Phys. Vol. 53. № 5. 2007. pp. 553-556.
Kanev N., Mironov M. Passive and active dipole reflector for a narrow tube open end // Proc. of Euronoise-2006. Acta Acustica united with Acustica. 2006. Vol. 92. Suppl. 1. P. 15.
Kanev N.G. Effect of Errors on the Efficiency of Local Active Sound Absorbers // Acoust. Phys. Vol. 52. № 5. 2006. pp. 571-575.
Resonators
Kanev, N. Resonant Vessels in Russian Churches and Their Study in a Concert Hall // Acoustics 2020, 2 (2), 399-415.
Kanev N.G. Maximum Sound Absorption by a Helmholtz Resonator in a Room at Low Frequencies // Acoust. Phys. Vol. 64. № 6. 2018. pp. 774-777.
Kanev N.G. Sound Absorption by an Active Resonator Array near an Impedance Surface// Acoust. Phys. Vol. 62. № 6. 2016. pp. 760-763.
Kanev N.G. Attenuation of Flexural Vibrations in a Plate within a Finite-Size Region by Means of Resonators // Acoust. Phys. Vol. 56. № 5. 2010. pp. 290-292.
Kanev N., Gladilin A. An active resonant absorber for flexural waves in a rod // Proc. of 9th Conference on Active Noise and Vibration Control Methods MARDiH, June 24-27, 2009, Krakow-Zakopane, Poland. P. 22-27.
Kanev N.G., Mironov M.A. Active Resonators for Sound Control in Narrow Pipes // Acoust. Phys. Vol. 54. № 3. 2008. pp. 437-443.
Kanev N.G., Mironov M.A. Dipole Resonance Muffler at the Exit of a Narrow Pipe // Acoust. Phys. Vol. 52. № 3. 2006. pp. 278-282.
Kanev N., Mironov M., Gladilin A., Dogadov A. A new approach to active noise control: active resonators // Proc. of 8th Conference on Active Noise and Vibration Control Methods MARDiH, June 11-14, 2007, Krakow-Krasiczin, Poland. P. 225-232.
Kanev N.G., Mironov M.A. A Monopole-Dipole Resonance Absorber in a Narrow Waveguide // Acoust. Phys. Vol. 51. № 1. 2005. pp. 89-94.
Kanev N.G., Mironov M.A. Dipole Resonance Scatterer of Sound // Acoust. Phys. Vol. 49. № 3. 2003. pp. 372-375.
Краткие сведения
Nikolay Kanev is an Associate professor at the Power Engineering Department. He studied applied physics and mathematics at the Department of General and Applied Physics at the Moscow Institute of Physics and Technology, where he graduated (2003) and received his PhD degree (2006). Since 2003 he has been working at the Andreyev Acoustic Institute on different topics related to physical acoustics.
He is a member of the Russian Acoustical Society and the Acoustical Society of America.
Interests: room acoustics, noise and vibration control, resonators, historical acoustics
Контакты:
E-mail: kng[at]bmstu.ru