Modern gravimeters of aviation gravimetric system
Keywords:sensor element, gravimeter, gravity acceleration, gravitational field of the Earth
The expediency of using aviation gravimetric systems for gravimetric measurements and receiving information about the Earth's gravitational field is proved. An analysis of existing gravimeters of aviation gravimetric systems is done, identified their strengths and weaknesses. Modern perspective developments in the area of designing a new type of aviation gravimeters with higher accuracy and speed than the known ones are considered.
Bezvesilna O. M., 2007. Aviation gravimetric systems and gravimeters. Zhytomyr: ZSTU, 604 p. (in Ukrainian).
Bezvesilna O. M., Tkachuk A. G., 2014. Аviation gravimetric system. Sborka v mashinostroenii, priborostroenii (6), 32—37 (in Russian).
Bezvesilna O. M., Tkachuk A. G., 2013. Piezoelectric gravimeter of aviation gravimetric system. Zhytomyr: ZSTU, 240 p. (in Ukrainian).
Bezvesilna O. M., Koval A. V., 2013. Twogyro gravimeter of automated aviation gravimetric system. Zhytomyr: ZSTU, 252 p. (in Ukrainian).
Bezvesilna O. M., Ostapchuk O. O., Tymchyk G. S., 2014. Automated laser ballistic gravimeter. Zhytomyr: ZSTU, 180 p. (in Ukrainian).
Bezvesilna O. M., Chepyuk L. O., 2013. String gravimeter of aviation gravimetric system. Visnyk Inzhenernoi akademii Ukrainy (2), 26—30 (in Ukrainian).
Bezvesilna O. M., Chepyuk L. O., 2015. String gravimeter of automated aviation gravimetric system. Zhytomyr: ZSTU, 224 p. (in Ukrainian).
Popov E. I., 1987. Determination of gravity on the moving base. Moscow: Nauka, 218 p. (in Russian).
Veselov K. E., 1968. Gravimetric exploration. Moscow: Nedra, 512 p. (in Russian).
Pat. 88473 Ukraine, 2009. Two rotary integrating gyro gravimeter with controlled parameters. O. M. Bezvesilna, О. О. Dobrzhanskiy. Published 26.10.2009. Bull. № 20 (in Ukrainian).
Pat. 99084 Ukraine, 2012. Piezogravimeter. O. M. Bezvesilna, A. G. Tkachuk. Published 10.07.2012. Bull. № 13 (in Ukrainian).
Pat. 105122 Ukraine, 2014. Aviation Gravimetric system for measuring the gravity anomalies. O. M. Bezvesilna, A. G. Tkachuk, K. S. Kozko. Published 10.04.2014. Bull. № 7 (in Ukrainian).
Bezvesilna O. M., Tkachuk A. H., 2014. Corrected gyrocompass synthesis as a system with changeable structure for aviation gravimetric system with piezoelectric gravimeter. Aviation (18), 134—140. doi:10.3846/16487788.2014.969878.
Bezvesilna O. M., Tkachuk A. H., Chepyuk L. O., Ostapchuk O. O., 2013a. Angle measurement device for posting the sensitivity axis of aviation gravimeter. Adv. Sci. J. (12), 31—37.
Bezvesilna O. M., Tkachuk A. H., Chepyuk L. O., Ostapchuk O. O., 2014. Electromechanical gravimeter. Adv. Sci. J. (7), 45—48, doi: 10.15550/ASJ.2014.07.045.
Bezvesilna O. M., Tkachuk A. G., Kozko K. S., 2013b. System for airborne gravimetry. Eur. Appl. Sci. J. (5), 37—40 (in English).
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