Вестник МГТУ, 2021, Т. 24, № 1.

Федоров И. С. и др. О регистрации схода снежных лавин геофизическими методами. Gibbons S. J., Asming V., Eliasson L., Fedorov A. [et al.]. The European Arctic: A laboratory for seismoacoustic studies // Seismological Research Letters. 2015. Vol. 86, Iss. 3. P. 917-928. DOI: https://doi.org/10.1785/ 0220140230. van Herwijnen A., Schweizer J. Monitoring avalanche activity using a seismic sensor // Cold Regions Science and Technology. 2011. Vol. 69, Iss. 2-3. P. 165-176. DOI: https://doi.org/10.1016/j.coldregions.2011.06.008. Humstad T., Soderblom 0., Ulivieri G., Langeland S. [et al.]. Infrasound detection of avalanches in Grasdalen and Indreeidsdalen, Norway // Proceedings, International Snow Science Workshop, Breckenridge, Colorado, 2016. P. 621-627. Infrasound monitoring for atmospheric studies / eds.: A. Le Pichon et al. Springer Netherlands, 2009. DOI: https://doi.org/10.1007/978-1-4020-9508-5. Kogelnig A., Surinach E., Vilajosana I., Hubl J. [et al.]. On the complementariness of infrasound and seismic sensors for monitoring snow avalanches // Natural Hazards and Earth System Sciences. 2011. Vol. 11, Iss. 8. P. 2355-2370. DOI: https://doi.org/10.5194/nhess-11-2355-2011. Marchetti E., Ripepe M., Ulivieri G., Kogelnig A. Infrasound array criteria for automatic detection and front velocity estimation of snow avalanches: Towards a real-time early-warning system // Natural Hazards and Earth System Sciences. 2015. Vol. 15, Iss. 11. P. 2545-2555. DOI: https://doi.org/10.5194/nhess-15-2545-2015. Scott E. D., Hayward C. T., Colgan T. J., Hamann J. C. [et al.]. Practical implementation of avalanche infrasound monitoring technology for operational utilization near Teton pass Wyoming // International Snow Science Workshop (ISSW), 2006. Ulivieri G., Marchetti E., Ripepe M., Chiambretti I. [et al.]. Monitoring snow avalanches in Northwestern Italian Alps using an infrasound array // Cold Regions Science and Technology. 2011. Vol. 69, Iss. 2-3. P. 177-183. DOI: https://doi.org/10.1016/j.coldregions.2011.09.006. References Asming, V. E., Baranov, S. V., Vinogradov, A. N., Vinogradov, Yu. A. et al. 2016. The use of the infrasound method for monitoring the destruction of glaciers in arctic conditions. Acoustical Physics, 62(5), pp. 582-591. DOI: https://doi.org/10.7868/s0320791916040031. (In Russ.) Asming, V. E., Vinogradov, Yu. A., Evtyugina, Z. A., Kremenetskaya, E. O. et al. 2008. On the results of observations at the Apatity seismic-infrasound complex. Vestnik o fMSTU, 11(3), pp. 512-518. (In Russ.) Vikulina, M. A. 2019. Assessment of avalanche risk in the Khibiny. Gi support o f sustainable development o f territories. InterCarto/InterGIS, 25(2), pp. 66-67. DOI: https://doi.org/10.35595/2414-9179-2019-2-25-66-76. (In Russ.) Vikulina, M. A. 2009. Assessment of avalanche activity, hazard and risk (by the example of Khibiny). Abstract of Ph.D. dissertation. Moscow. (In Russ.) Vinogradov, Yu. A., Asming, V. E. 2010. Mobile infrasound group. Proceedings of Intern. conf. Science and education, 5-9 April, 2010. Murmansk, pp. 379-382. (In Russ.) Vinogradov, Yu. A. 2004. The Apatity seismic-infrasound complex is a new instrument for remote geomonitoring in the Euro-Arctic region. In coll. articles North - 2003. Challenges and solutions. Apatity, pp. 103-108. (In Russ.) Geography o f avalanches. 1992. Eds.: S. M. Myagkov, L. A. Kanaev. Moscow. (In Russ.) Ivanov, M. N., Fedotova, D. A. 2015. Cases of deaths in avalanches in the Khibiny. Proceedings of the VIII Intern. School-conf. "Meridian", 21-24 May, 2015. Moscow, pp. 42-45. (In Russ.) Pankov, M. 2014. Modern means of fighting and protecting against avalanches. Inzhenernaya zashchita, 1, pp. 20-25. (In Russ.) Pilgaev, S. V., Chernous, P. A., Filatov, M. V., Larchenko, A. V. et al. 2017. Avalanche signaling complex and the results of its tests. Proceedings of the III Intern. Symposium Physics, chemistry and mechanics o f snow, 2-6 October, 2017. Yuzhno-Sakhalinsk, pp. 31-36. (In Russ.) Firstov, P. P., Sukhanov, A. A., Pergament, V. Kh., Radionovskiy, M. V. 1990. Acoustic and seismic signals from avalanches. Doklady Akademii nauk SSSR, 312(1), pp. 67-71. (In Russ.) Fedorov, A. V., Fedorov, I. S., Voronin, A. I. 2018. Registration of snow avalanches by seismic-infrasound method. Proceedings of the XIII Intern. Seismological School Modern methods o fprocessing and interpretation o f seismological data. Tajikistan, Dushanbe, 11-15 September, 2018. Obninsk, pp. 273-276. (In Russ.) Allen, R. V. 1978. Automatic earthquake recognition and timing from single traces. Bulletin o f the Seismological Society o fAmerica, 68(5), pp. 1521-1532. Bedard, A., Greene, G. E. Jr., Intrieri, J., Rodriguez, R. 1988. On the feasibility and value of detecting and characterizing avalanches remotely by monitoring radiated sub-audible atmospheric sound at long distances. Proceedings; A Multidisciplinary Approach to Snow Engineering, Santa Barbara, CA. Blom, P., Waxler, R., Frazier, W. G. 2013. Beamforming methods in infTasonic array processing - Continuous signals. The Journal o f the Acoustical Society o fAmerica, 134(5). DOI: https://doi.org/10.1121/L4831515. 78