"JOURNAL OF RADIO ELECTRONICS" (Zhurnal Radioelektroniki ISSN 1684-1719, N 5, 2018

contents of issue      DOI  10.30898/1684-1719.2018.5.9     full text in Russian (pdf)  

Correction algorithms of bathymetry data at the formation of a digital elevation map of the bottom surface on a regular grid 

V. I. Kaevitser, A. P. Krivtsov, I. V. Smolyaninov, A. V. Elbakidze
Fryazino Branch of Kotelnikov Institute of Radioengineering and Electronics of Russian Academy of Sciences, Vvedensky Sq.1, Fryazino Moscow region 1411
90, Russia

 The paper is received on May 3, 2018

 

Abstract. The paper considers the correction algorithms of bathymetry data used for the construction of a detailed digital map of the sea-bottom relief on a regular grid according to the data of the interferometric side-scan sonar (ISSS). The capabilities of the proposed algorithms are demonstrated by the example of the formation of a digital elevation model (DEM) of a small section of the sea floor. It has been noted the applicability of the correction algorithm of the roll angle bathymetry data for calibration of the interferometric side-scan sonar.

Key words: sonar systems, interferometric side-scan sonar, sea floor bathymetry, sea-bottom relief, digital elevation model.

References

1.         Dolotov S.A., Kaevitser V.I., Krivtsov A.P., Razmanov V.M., Smolyaninov I.V. The use of interferometric side-scan sonar with chirp probing signal for studying the seabed. Izvestiya TRTU - Proceedings of Taganrog State Radio Engineering University, 2004, No. 5, pp. 268 – 273. (In Russian)

2.         Kaevitser V. I., Razmanov V. M., Krivtsov A. P., Smolyaninov I. V., Dolotov S. A. Remote Acoustic Sounding of Sea Bottom with Using Linear-Frequency Modulated (Chirp) Signals. Radiotekhnika - Radio Engineering, 2008, No. 8, pp. 35 – 42. (In Russian)

3.         Kaevitser V. I., Razmanov V. M. Remote sensing of sea bottom by hydroacoustic systems with complex signals.  Advances in Physical Sciences, 2009, Vol. 179, No. 2, pp. 218-224.

4.         Khromykh V. V., Khromykh O. V. Tsifrovye modeli relyefa [Digital elevation models]. Tomsk, Publishing house "TML-Press", 2007. 178 p. (In Russian)

5.         Novakovsky B. A., Prasolov S. V., Prasolova A. I. Tsifrovye modeli relyefa real'nykh i abstraktnykh geopoley [Digital elevation models of real and abstract geopoli]. Moscow, Scientific world Publ.,  2003. 104 p. (In Russian)

6.         Kaevitser V.I., Rimskii-Korsakov N.A., Smolyaninov I.V., Razmanov V.M., Krivtsov A.P. Possible manifestations of underwater mud volcanoes based on results of sonar investigations in region of Taman peninsula. Oceanology, 2016, Vol. 56, No. 5, pp. 714-720.

7.         Kaevitser V.I., Krivtsov A.P., Razmanov V.M., Smolyaninov I.V., Elbakidze A.V., Denisov E.Yu. Development and test results of hydroacoustic system for studying the bottom of the shelf zone of the Arctic sea. Zhurnal Radioelektroniki – Journal of Radio Electronics, 2016, No. 11, Available at: http://jre.cplire.ru/jre/nov16/1/text.pdf (In Russian)

8.         Krivtsov A.P., Smolyaninov I.V., Elbakidze A.V., Stepanov A.V. Estimation of depth fitting, obtained at the area survey of sea-bottom relief by multibeam echosounder and interferometric side-scan sonar. Zhurnal Radioelektroniki – Journal of Radio Electronics, 2017, No. 4, Available at: http://jre.cplire.ru/jre/apr17/2/text.pdf (In Russian)

 

For citation:
V. I. Kaevitser, A. P. Krivtsov, I. V. Smolyaninov, A. V. Elbakidze. Correction algorithms of bathymetry data at the formation of a digital elevation map of the bottom surface on a regular grid. Zhurnal Radioelektroniki - Journal of Radio Electronics. 2018. No. 5. Available at http://jre.cplire.ru/jre/may18/9/text.pdf

DOI  10.30898/1684-1719.2018.5.9