The problem of the instrument stabilization during hydrographic measurements

Felski, A.; Naus, K.; Wąż, M.

doi:10.1515/rgg-2016-0006

Artykuł - szczegóły

Tytuł artykułu

The problem of the instrument stabilization during hydrographic measurements

Autorzy

Felski A. , Naus K. , Wąż M.

Treść / Zawartość

Pełne teksty:

5 The Problem of the Instrument Stabilization During Hydrographic Measurements.pdf

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Identyfikatory

DOI

10.1515/rgg-2016-0006

Warianty tytułu

Języki publikacji

Abstrakty

Performing any measurement on watercraft is connected with many additional difficulties caused by the sea-environment. The most important is the problem of spatial stabilization of measurement systems, which are usually fastened to craft body. As soon as usually these measurement are executed during the move of the craft additional question is the accuracy of execution the planed trajectory. This is a problem for all investigators, especially when system use spatially configured beams of any antennas or other sensors, regardless is it receiving or transmitting one. Different aspects of these question are the subject of research activity of Institute of Navigation and Maritime Hydrography of Polish Naval Academy. In this paper the review of works executed in last years are presented.

Słowa kluczowe

hydrography measurement stabilization ship

hydrografia pomiar stabilizacja statek

Wydawca

Wydział Geodezji i Kartografii Politechniki Warszawskiej

Czasopismo

Reports on Geodesy and Geoinformatics

Rocznik

2016

Tom

Vol. 100

Strony

55--65

Opis fizyczny

Bibliogr. 27 poz., rys., wykr.

Twórcy

autor

Felski A.

a.felski@amw.gdynia.pl

Institute of Navigation and Marine Hydrography, Faculty of Navigation and Ship's Warfare, Polish Naval Academy, 69 Smidowicza Str., 81-000, Gdynia, Poland

autor

Naus K.

k.naus@amw.gdynia.pl

Institute of Navigation and Marine Hydrography, Faculty of Navigation and Ship's Warfare, Polish Naval Academy, 69 Smidowicza Str., 81-000, Gdynia, Poland

autor

Wąż M.

m.waz@amw.gdynia.pl

Institute of Navigation and Marine Hydrography, Faculty of Navigation and Ship's Warfare, Polish Naval Academy, 69 Smidowicza Str., 81-000, Gdynia, Poland

Bibliografia

[1] Dijkstra, S., Armstrong, A., Mayer, L., (2013). Fundamentals of Ocean Mapping course notes, Center for Coastal and Ocean Mapping/Joint Hydrographic Center, University of New Hampshire.
[2] Felski, A. (1998). Satellite Measurements for Determining the Direction in Sea Navigation. Proceedings of the XI International Conference in Navigation. AMW, Gdynia, pp. 117-126.
[3] Felski, A. (1999a). Application of the Least Square Method for Determining Magnetic Compass Deviation. Journal of Navigation vol.52 no 3, pp. 388-393.
[4] Felski, A. (1999b). Some results of experiment in ship’s heading determination by using two DGPS receivers. Reports on Geodesy No 3(44), Warszawa, p.209-216.
[5] Felski, A. (2007a). Gyrocompasses - their Conditions, Direction of Development. Advances in Marine Navigation and Safety of Sea Transportation. AM Gdynia, 2007, pp. 285-290.
[6] Felski, A. (2007b). Method of magnetic compass’ adjustment by analysis of magnetic field’s value XII International Scientific and Technical Conference on Marine Traffic Engineering. Szczecin 2007, pp. 75-82.
[7] Felski, A. (2007c). Present methods of the orientation settlement of the navigation craft (in polish). II Conference on GIS and GPS in practice. Chełm, PWSZ, 19 i 20 April 2007, pp. 43-49.
[8] Felski, A. (2008). Development of Non-Magnetic Sources of Ships’ Heading. Polish Journal of Environmental Studies, Olsztyn vol.17, no. 5A, 2008, pp. 32-36.
[9] Felski, A. (2008). First experiences from the exploitation of the satellite compass (in polish). Zeszyty Naukowe AMW vol. 175, no 4, pp.37-44.
[10] Felski, A. (2010). Exploitative Properties of Different Types of Satellite Compasses. Annual of Navigation no. 16, pp. 33-40.
[11] Felski, A. (2011). Exploitative properties of Different Types of Satellite Compasses. Proceedings of ENC 2011, London.
[12] Felski, A. (2014). Present magnetic sensors in navigational uses (in polish). Logistyka nr 3/2014, pp. 1676-1687.
[13] Felski, A., Mięsikowski, M. (1999). Some Aspects of DGPS Based Heading Determination. Geodezja i Kartografia t. XLVIII no 3-4, Warszawa, pp.97-104.
[14] Felski, A., Mięsikowski, M. (2000). Frequency-Related Compass Errors. Proceedings of the XII International Conference on Navigation. AMW, Gdynia, pp. 141-150.
[15] Felski, A., Nowak, A. (2008). First experiences from the exploitation of the satellite compass (in polish). Zeszyty Naukowe AMW, nr. 4 (175), pp. 37-44.
[16] Felski, A., Przepióra, T. (1999). The influence of environment conditions on the errors of the flux-gate marine compass. Reports on Geodesy No 4 (45), 1999, pp.215-220
[17] Felski, A., Specht, C., Mięsikowski, M., Śledziński, J., Czarnecki, K., Walo, J., Szpunar, R. (2000). The Application of the GPS Total Station for a Ship`s Heading and Attitude Determination. Reports on Geodesy No 6 (52).
[18] Multibeam Sonar Theory of Operation (2000). L3 Communications Sea Beam Instruments, East Walpole. available at http://www.ldeo.columbia.edu/res/pi/MBSystem/sonarfunction/SeaBeamMultibeamTheoryOperation.pdf, access 22.04.2016.
[19] Naus, K. (2010). Evaluation of accuracy the position of the vessel designated stereoscopic cameras system, Reports on Geodesy, No. 1 (88), pp. 79-87.
[20] Naus, K. (2011). Accuracy in fixing ship’s positions by CCD camera survey of horizontal angles. Geomatics and Environmental Engineering, Vol. 5/4, pp. 47-61.
[21] Naus, K., Makar, A. (2005). Usage of camera system for determination of pitching and rolling of sounding vessel. Reports on Geodesy vol. 72, no. 2, pp. 301-307.
[22] Naus, K., Wąż, M. (2011). Accuracy in fixing ship’s position by camera survey of bearings. Geodesy and Cartography, vol. 60, no. 1, pp. 61-73.
[23] Naus, K., Wąż, M. (2016). Precision in determining ship position using the omnidirectional map to visual shoreline image comparative method. Journal of Navigation vol. 69/Issue 02, pp. 391-413.
[24] Naus,. K., Wąż, M., Nowak, A. (2012). Qualifying of the spatial orientation of the sonar beam with the method of three not collinear points (in polish). TTS Technika Transportu Szynowego Nr 9, pp. 3667-3675.
[25] Nowak, A., Naus, K. (2014). Study of the possibility of determining the ship‘s movement parameters by using EGNOS system (in polish). Logistyka 6, pp. 7923-7932.
[26] Różański, K., Felski, A. (2013). The satellite compass as the compass for polar regions. Zeszyty Naukowa AMW, nr 3(194), pp. 129-146.
[27] Schenke, H.-W., Wubbena, G. (1992). GPS-Based Attitude Control of RV „POLARSTERN” for Multibeam Sonar Operation. Hydrographic Symposium Monaco. Jafernik H., Fellner A., (2014). Airborne measurement system during validation of EGNOS/GNSS essential parameters in landing, Rep. Geod. Geoinformat. 2014, vol. 96 iss. 1, pp. 27-37.

Uwagi

Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.

Typ dokumentu

Bibliografia

Identyfikator YADDA

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