An investigation of physical properties of celestial bodies by means of continuous base functions on the example of the Moon
1Nikulishyn, VI 1Lviv Polytechnic National University, Lviv, Ukraine |
Kinemat. fiz. nebesnyh tel (Online) 2014, 30(2):77- |
Start Page: Notes |
Language: Ukrainian |
Abstract: We consider a procedure for investigation of the Moon’s gravitational field which is based on continuous wavelet-transformation. The obtained spectral descriptions are used for explanation of differences between mascons of the visible and invisible sides of the Moon. |
Keywords: function, method, Moon |
1.N. M. Astaf’eva, “Wavelet-analysis: principles of theory and examples of usage,” Phys.-Usp. 166(11), 1145–1170 (1996).
2.I. M. Dremin, O. Ivanov, and V. Nechitailo, “Wavelets and their application,” Phys.-Usp. 171(5), 465–501 (2001).
3.P. M. Zazulyak, V. I. Nikulishyn, “The model of gravitational field of the Moon obtained due to anomalies in free air,” Geod. Cartogr. Aerial Photogr. 75, 3–5 (2011).
4.P. M. Zazuliak, V. I. Nikulishyn, “The models of distribution of mass mascons of the Moon designed by means of continuous wavelet-transformation,” Geod. Cartogr. Aerial Photogr. 78, 160–168 (2013).
5.E. V. Utemov and D. K. Nurgaliev, “Natural wavelet-transformations of gravity data: theory and applications,” Izv., Phys. Solid Earth 41(4), 333–340 (2005).
6.F. Moreau, D. Gibert, M. Holschneider, et al., “Wavelet analysis of potential field,” Invisible Problems 13(1), 165–178 (1997).
https://doi.org/10.1088/0266-5611/13/1/013