THE WAVEGRAPH FOR HYDRO CONDITIONS MONITORING ON THE SHELF WATER AREA
Abstract
The physical principles of the hydroacoustic wavegraph’s operation, which is the facility for measuring of hydro conditions on the seadrome’s aviation water area, are considered. The device includes channels for both measuring the parameters of sea waves in the wave recorder mode by the "inverted" echo sounder method and processing Doppler information to search for the general direction of propagation of the surface wind wave due to oblique echo sounding of the agitated interface from the bottom of the water area. A distinctive feature of the wave recorder is the use of a bottom receiving-emitting antenna assembly of an original design, which allows the simultaneous operation of both channels, moreover, on several working ultrasonic signals due to the use of nonlinear acoustics effects - self-action and self-demodulation. For example, due to the effect of self-action, the spectrum of the probing signal with a frequency is "enriched" with higher harmonic components with frequencies, where is the number of harmonics for which ultrasonic fields have features - the angular width of the main lobe of the directivity characteristic in the radiation mode for each subsequent harmonic is less, and the level of the side field - below. The device can provide registration of sea waves parameters (direction of wave movement, height and wavelength, wave period) for a long time with high accuracy, reliability and stability, which makes it promising for use as part of reference systems.
References
hydroacoustics]. Leningrad: Sudostroenie, 1981, 264 p.
2. Kobzev V.A., Fortinov L.G. Innovatsionnyy podkhod k sintezu oblika okeanskogo patrul'nogo
gidrosamoleta pri predvaritel'nom proektirovanii [An innovative approach to the synthesis of
the appearance of an ocean patrol seaplane during preliminary design], Sb. dokladov VIII
nauchnoy konferentsii po gidroaviatsii «Gidroaviasalon-2010» [Collection of reports of the
VIII Scientific conference on hydroaviation "Hydroaviasalon-2010"]. Moscow: TSAGI, 2010.
Part 1, pp. 26-34.
3. Veter i volny v okeanakh i moryakh. Spravochnye dannye [Wind and waves in the oceans and
seas. Reference data]. Leningrad: Transport, 1974, 335 p.
4. Korovin V.P., Timets V.M. Metody i sredstva gidrometeorologicheskikh izmereniy: ucheb.
posobie [Methods and means of hydrometeorological measurements: a textbook]. Saint Petersburg:
Gidrometeoizdat, 2000, 310 p.
5. Korovin V.P. Okeanologicheskie nablyudeniya v pribrezhnoy zone morya: ucheb. posobie
[Oceanological observations in the coastal zone of the sea: a textbook]. Saint Petersburg: Izdvo
RGGMU, 2007, 434 p.
6. Akusticheskiy sposob opredeleniya vysoty morskikh vol. A.s. № 412578, SSSR,
№1705438/18-10; zayavl. 13.10.1971, opubl. 5.01.1974 [Acoustic method for determining the
height of sea waves. A.S. No. 412578, USSR, No. 1705438/18-10; decl. 13.10.1971, publ.
5.01.1974], 24 p.
7. Sposob izmereniya kharakteristik vzvolnovannoy vodnoy poverkhnosti. Pat. № 2466425,
Rossiyskaya Federatsiya, №2011123364/28, zayavl. 01.06.2011, opubl. 20.11.2012 [A method
for measuring the characteristics of an agitated water surface. Patent No. 2466425, Russian
Federation, No. 2011123364/28, decl. 01.06.2011, publ. 20.11.2012], 12 p.
8. Gidroakusticheskiy avtonomnyy volnograf. Pat. № 2011132211, Rossiyskaya Federatsiya,
№2011132211/28; zayavl. 29.07.2011, opubl. 10.02.2013 [Hydroacoustic autonomous wave
detector. Patent No. 2011132211, Russian Federation, No. 2011132211/28; decl. on
29.07.2011, publ. on 10.02.2013], 12 p.
9. Grekov A.N., Vasil'ev D.M., Kotov M.N. Akusticheskiy izmeritel' parametrov voln [Acoustic
wave parameter meter], Sistemy kontrolya okruzhayushchey sredy [Environmental monitoring
systems], 2006, Issue 09, pp. 51-56.
10. Fissel D.B., Birch J.R., Borg K., Melling H. Wave measurements using upward-looking sonar
for continental shelf application, In Proc. Offshore Technology Conference, Houston, TX,
USA, 3-6 May 1999, www.aslenv.com, 9 p.
11. Akusticheskiy volnograf: Pat. № 168083, Rossiyskaya Federatsiya, №2016108213; zayavl.
09.03.2016.; opubl. 17.01.2017 [Acoustic wave detector: Patent No. 168083, Russian Federation,
No. 2016108213; declared on 09.03.2016.; publ. 17.01.2017], 24 p.
12. Akusticheskiy sposob i ustroystvo izmereniya parametrov morskogo volneniya. Pat. №
2721307 Rossiyskaya Federatsiya, №2019124489, zayavl. 01.08.2019, opubl. 18.05.2020
[Acoustic method and device for measuring the parameters of sea waves. Patent No. 2721307
Russian Federation, No. 2019124489, decl. 01.08.2019, publ. 18.05.2020], 48 p.
13. Voloshchenko V.Yu. Gidroaerodrom: povyshenie bezopasnosti vzletno-posadochnykh deystviy
na akvatorii letnogo basseyna [The hydro-port: improve safety of runway operations in the waters
of the flight basin], Izvestiya VUZov. Aviatsionnaya tekhnika [Izvestiya VUZov. Aviation
equipment], 2016, No. 2, pp. 108-113.
14. Voloshchenko V.Yu. Gidroaerodrom: tekhnologii kompleksnoy navigatsii bespilotnykh
gidrosamoletov na akvatorii letnogo basseyna [The hydro-port: the technology of the integrated
navigation of unmanned seaplane on the waters of the flight basin], Izvestiya VUZov.
Aviatsionnaya tekhnika [Izvestiya VUZov. Aviation equipment], 2018, No. 1, pp. 97-105.
15. Myuir T.Dzh. Nelineynaya akustika i ee rol' v geofizike morskikh osadkov [Nonlinear acoustics
and its role in Geophysics marine sediments], Akustika morskikh osadkov [Acoustics of marine
sediments]: trans. from engl., ed. by Yu.Yu. Zhitkovskogo. Moscow: Mir, 1977, pp. 227-273.
16. Sistema mnogochastotnogo akusticheskogo zondirovaniya. Pat. № 108642, Rossiyskaya
Federatsiya, №2011122973/28: zayavl. 07.06.2011, opubl. 20.09.2011 [Multi-frequency
acoustic sounding system. Patent. No. 108642, Russian Federation, No. 2011122973/28: decl.
07.06.2011, publ. 20.09.2011], 2 p.
17. Evtyutov A.P., Mit'ko V.B. Inzhenernye raschety v gidroakustike [Engineering calculations
in hydroacoustics]. 2nd ed. Leningrad: Sudostroenie, 1988, 288 p.
18. System and method for measuring wave directional spectrum and wave height. Patent
20080094940 SSHA, MKI GO1s 15/58 / Brumley et al (SSHA), Teledyne RD Instruments
(SSHA) No. 11/959377; decl. 18.12.2007; publ. 24.04.2008; NKI 367/90, 35 p.
19. Voloshchenko V.Yu., Voloshchenko A.P. Parametricheskie gidroakusticheskie sredstva
blizhnego podvodnogo nablyudeniya [Parametric hydroacoustic means of near underwater
observation]. Part 2. Rostov-on-Don; Taganrog: Izd-vo YuFU, 2018, 176 p.
20. Zarayskiy V.A., Tyurin A.M. Teoriya gidrolokatsii [Theory of sonar]. Leningrad: Voennomorskaya
ordenov Lenina i Ushakova akademiya, 1975, 604 p.
