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The article presents and describes the structure of a new piezoelectric gravimeter of automated aviation gravimetric system (AGS), which has a higher accuracy (1mGal) than other types of gravimeters known to date and automated signal processing. It also describes the operation principle of a piezoelectric gravimeter and presents its mathematical model. There have been determined conditions under which the need to use lowpass filter in automated AGS is prevented.
Rocznik
Tom
Strony
43--47
Opis fizyczny
Bibliogr. 19 poz., rys.
Twórcy
autor
- Institute of Automatic Control and Robotics, Warsaw University of Technology, Boboli 8, 02-525 Warsaw, Poland
autor
- National Technical University of Ukraine “Kyiv Polytechnic Institute”, Avenue Peremogy, 37, Kyiv, Ukraine, 03056
autor
- Zhytomyr State Technological University, 10005 Zhуtomуr, Ukraine
autor
- Zhytomyr State Technological University, 10005 Zhуtomуr, Ukraine
autor
- Industrial Research Institute for Automation and Measurements, Jerozolimskie 202, 02-486 Warsaw, Poland
autor
- Institute of Metrology and Biomedical Engineering, Warsaw University of Technology, Boboli 8, 02-525 Warsaw, Poland
Bibliografia
- [1] Bezvesilna O.M., Aviation gravimetric systems and gravimeters, Zhytomyr: ZSTU, 2007, 604 p. (in Ukrainian).
- [2] Korobiichuk I., Bezvesilna O., Tkachuk A., Nowicki M., Szewczyk R., Shadura V., “Aviation gravimetric system”, International Journal of Scientific & Engineering Research, vol. 6, ni. 7, July 2015, 1122–1127.
- [3] Krasnov A.A., Nesenyuk L.P., Peshekhonov V.G., Sokolov A.V., Elinson L.S., “Integrated marine gravimetric system. Development and operation results”, Gyroscopy and Navigation, vol. 2, issue 2, April 2011, 75–81. DOI: 10.1134/S2075108711020052.
- [4] Forsberg R. , Olesen A.V., Einarsson I., “Airborne gravimetry for geoid determination with Lacoste Romberg and Chekan gravimeters”, Gyroscopy and Navigation, vol. 6, issue 4, 1 October 2015, 265–270. DOI: 10.1134/S2075108715040069
- [5] Bezvesilna O.M., Tkachuk A. H., Piezoelectric gravimeter of aviation gravimetric system, Zhytomyr: ZSTU, 2013, 240 p. (in Ukrainian).
- [6] Bezvesilna O.M., Ostapchuk O.O., Tymchyk G.S., Automated laser ballistic gravimeter, Zhytomyr: ZSTU, 2014, 180 p. (in Ukrainian).
- [7] Bezvesilna O.M., Tkachuk A.H., “Corrected gyrocompass synthesis as a system with changeable structure for aviation gravimetric system with piezoelectric gravimeter”, Aviation, vol. 18, no. 3, July 2014, 134–140, DOI:10.3846/16487788.2014.969878.
- [8] Bezvesilna O.M., Tkachuk A.H., “Аviation gravimetric system”, Assembly in mechanical engineering, instrument. Journal, no. 6, 2014, 32–37.(in Russian).
- [9] Williams S., MacQueen J.D., “Development of a versatile, commercially proven, and cost-effective airborne gravity system”, The Leading Edge, vol. 20, issue 6, June 2001, 651–654. DOI: DOI:10.1190/1.1439018
- [10] Cai S., Zhang K., Wu M., Huang Y., “Long-term stability of the SGA-WZ strap down airborne gravimeter”, Sensors, vol. 12, issue 8, August 2012, Switzerland, 11091–11099. DOI: 10.3390/s120811091.
- [11] Wang W., Luo C., Xue Z., et al., “Progress in the development of Laser Strapdown Airborne Gravimeter in China”, Gyroscopy and Navigation, vol. 6, issue 4, 1 October 2015, 271–277. DOI: 0.1134/S2075108715040161.
- [12] Jentzsch G., Schulz R., Weise A., “A well-known principle in a new gravimeter: The automated Burris Gravity Meter”, AVN Allgemeine Vermessungs-Nachrichten, vol. 122, issue 5, 1 January 2015, 168–175.
- [13 Baumann H., Klingele E.E., Marson I., “Absolute airborne gravimetry: a feasibility study”, Geophysical Prospecting, 2012, no. 60, 361–372.
- [14] Bezvesilna O. M., Tkachuk A.H., Piezogravimeter, 2012, Ukraine. Pat. 99084 (in Ukrainian).
- [15] Bezvesilna O. M., Koval A.V., Two gyro gravimeter of automated aviation gravimetric system, Zhytomyr: ZSTU, 2013, 252 p. (in Ukrainian).
- [16] Bezvesilna O. M., Tkachuk A.H., Aviation Gravimetric system for measuring the gravity anomalie, 2014, Ukraine. Pat. 105949 (in Ukrainian).
- [17] Korobiichuk I., Nowicki M., Szewczyk R., “Design of the novel double-ring dynamical gravimeter” Journal of Automation, Mobile Robotics and Intelligent Systems, vol. 9, nr 3, 2015, 47–52. DOI:DOI: 10.14313/JAMRIS_2-2015/23.
- [18] Bezvesilna O.M., Tkachuk A.H., Kozko K.S., “System for airborne gravimetry”, European Applied Sciences Journal, no. 5, 2013, 37–40.
- [19] Bezvesilna O.M., Tkachuk A. H., Chepyuk L.O., Ostapchuk O.O., “Electromechanical gravimeter”, The Advanced Science Journal, no. 7, 2014, 45–48, DOI: 10.15550/ASJ.2014.07.045.
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-ea6fc8fb-4184-4be0-ac27-28efe9c0d173