Geodesic
Physical basis of quasi-optimal seismoacoustic pulse generating for geophysical prospecting in shallow water and transit zones. Part~1. Theoretical foundations
Žurnal Sibirskogo federalʹnogo universiteta. Matematika i fizika, Tome 12 (2019) no. 6, pp. 747-755.

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Despite the development of alternative energy, hydrocarbon raw materials is one of the most important energy resources in the world. The discovery of new deposits today is an urgent task. Long-term prospects for the development of seismic exploration are associated with the development of the continental shelf, in particular the Arctic. Also, a large raw material potential is expected from poorly studied territories located on the Arctic coast of the Russian Federation, reef zones of the Persian Gulf states, and in the transit and shallow waters (at a depth of up to 10 meters). The article discusses the theoretical aspects of the excitation of seismic waves in the water, addresses the problems of instrumental implementation of a new source of seismic vibrations that can work: in the water area, in tidal and coastal zones, i.e. produce continuous seismic profiling from the water area to the land. The scientific substantiation of the developed seismic source (SS) design is given.
Keywords: seismic source, seismic acoustics, pseudo-random sequence, shallow water
Mots-clés : transit zone. 
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Danil S. Kudinov; Oleg A. Maykov; Pavel V. Balandin. Physical basis of quasi-optimal seismoacoustic pulse generating for geophysical prospecting in shallow water and transit zones. Part~1. Theoretical foundations. Žurnal Sibirskogo federalʹnogo universiteta. Matematika i fizika, Tome 12 (2019) no. 6, pp. 747-755. http://geodesic.mathdoc.fr/item/JSFU_2019_12_6_a10/

[1] V.N. Semenov, Yu.I. Zuenko, I.A. Atamanova et al., Toolkit for assessing the extent of harm to aquatic biological resources in seismic and electrical exploration, Publishing house VNIRO, 2016 (in Russian)

[2] G. Ya.Shaidurov, D.S. Kudinov, A.A. Shchitnikov, “Pulsed Non-Explosive Seismic Sources With an Electromagnetic Drive”, International Journal of Applied Engineering Research, 10:15 (2015), 35907–35913 (in Russian)

[3] G. Ya.Shaidurov, D.S. Kudinov, “System Mathematical Models for the Formation of Signals and Synchronous Interference with the use of pulsed non-explosive seismic sources”, Journal of Siberian Federal University. Mathematics $\$ Physics, 8:4 (2015), 442–453 (in Russian) | DOI | MR

[4] S.A. Zhgenti, “Application of the latest seismic exploration technologies in shallow water and in transit zones objectively ensures the leadership of PGS-Khazard in the Russian market of geophysical services”, Instruments and systems for exploration geophysics, 1:2 (2012), 23–26 (in Russian)

[5] V.A. Detkov, G.Y. Shaydurov, “Pulse non-explosive sources for seismic exploration”, 2011 International Siberian Conference on Control and Communications, SIBCON 2011, v. 1, 2011, 228–229 (in Russian) | DOI

[6] S.R.L. Tenghamn, Coded Signals for Marine Vibrators, Patent US No 20180128927 A1, PGS Geophysical AS, 10 may 2018

[7] M.M. Benjamin, Encoding techniques for marine seismic sources their applications, Doctoral Thesis, 2016

[8] N. Lund, O.C. Olgi, M.D.C. Oskarson, Methods and systems to separate seismic data associated with impulsive and non-impulsive sources, Patent CN No 107430203 A, Geophysical companies, 20 Oct. 2015

[9] O.B. Bull, Calculation methods for magnetic systems of electrical apparatus. Magnetic circuits, fields and the FEMM program, Textbook for universities in the specialty “Electrical and electronic devices” direction “Electrical Engineering, Electromechanics and Electrotechnology”, Publishing House Academy, 2005 (in Russian)

[10] N.E. Kochin, I.A. Kibel, N.V. Rose, Theoretical hydromechanics, Gostekhizdat Publishing House, 1948 (in Russian) | MR

[11] A.N. Sherstyuk, Fluid and gas dynamics: A Training Manual, Institute of Continuing Education of SFU, 2009 (in Russian)

[12] L.G. Loitsyansky, Mechanics of fluid and gas, 6th ed., Publishing House Nauka, 1987 (in Russian) | MR