The autonomous drifting buoys equipped with satellite link turn into one of the most important components of the global system of operative observations of the ocean and the surface layer of the atmosphere. However, on the regional level, the problem of analysis of the surface circulation of waters in the coastal zone and sea straits remains quite urgent because the available drifters cannot be used in this case due to their sizes and long intervals between measurements. We present the results of development and testing of a new drifter system aimed at measuring currents. The system is based on the use of buoys operating at depths less than 1 m. To improve the space-and-time resolution of measurements, the buoys are equipped with receivers of the global positioning system (GPS) and GSM modems for the data transfer via cellular communication networks. The drifter system guarantees the possibility of determination of the coordinates of buoys with a resolution of 3 min in time and 14 m in space. We describe the specific features of the design of the proposed information-and-measuring drifter system and present the first results of application of new buoys called “minidrifters” for the pilot monitoring of currents in the Kerch Strait.
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References
V. N. Eremeev, V. A. Ivanov, and Yu. P. Il’in, “Oceanographic conditions and ecological problems of the Kerch Strait,” Morsk. Ékol. Zh., 2, No. 3, 27–40 (2003).
G. A. Grishin, I. G. Makeev, and S. V. Motyzhev, “Observations of circulation in the west part of the Black Sea by the methods of remote sensing,” Morsk. Gidrofiz. Zh., No. 2, 54–62 (1990).
S. V. Motyzhev, “Investigation of the surface circulation in the Black Sea with the help of drifting buoys with satellite links,” Morsk. Gidrofiz. Zh., No. 6, 65–71 (1998).
A. L. Sybrandy, P. P. Niiler, C. Martin, W. Scuba, E. Charpentier, and D. T. Meldrum, Barometer Drifter Design Reference, DBCP Technical Document, Report #4, Re. 2.2, UNESCO, New York (2009).
P.-M. Poulain, R. Barbanti, S. Motyzhev, and A. Zatsepin, “Statistical description of the Black-Sea near-surface circulation using drifters in 1999–2003,” Deep-Sea Res., Part I, 52, No. 12, 2250–2274 (2005).
A. P. Tolstosheev, E. G. Lunev, and V. S. Motyzhev, “Development of the means and methods of the drifter technology as applied to the problems of investigation of the Black Sea,” Okeanologiya, 48, No. 1, 138–146 (2008).
C. Ortega and B. Woodward, “Argos data transmission: Strategies and performance,” in: Development in Buoy Technology, Communication, Science, and Data Application. Article No. 17, CD-ROM DBCP Technical Document Series #21 (2002).
R. Heinmiller, Ngoc Hoang, and S. Piotrowicz, “A system for the delivery of data from remote, unattended platforms using the Iridium Low Earth Orbit Satellite System,: in: Development in Buoy Technology, Communication, Science, and Data Application. Article No. 16, CD-ROM DBCP Technical Document Series #21 (2002).
É. N. Al’tman, “Dynamics of waters in the Kerch Strait,” in: Hydrometeorology and Hydrology of Seas in the USSR. Vol. 4: Black Sea [in Russian], Gidrometeoizdat, Leningrad (1991), pp. 291–328.
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Translated from Morskoi Gidrofizicheskii Zhurnal, No. 5, pp. 52–64, September–October, 2010.
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Lunev, E.G., Ivanov, V.A., Kirichenko, A.G. et al. Information-and-measuring drifter system for the monitoring of currents in the coastal zone of the sea. Phys Oceanogr 20, 366–378 (2011). https://doi.org/10.1007/s11110-011-9092-8
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DOI: https://doi.org/10.1007/s11110-011-9092-8