Merits of an analytical theory of the satellite motion in comparison with numerical integration for applications to problems of geodynamics and satellite geodesy are discussed. Urgent need of further advance of modern theories is proved. A method is described of the development of an analytical theory by means of integration in the first and second orders of differential equations for elements of E. P. Aksenov intermediate orbit. The Earth´s oblateness is fully taken into account in the intermediate orbit. The theory takes into account combined perturbations with respect to different perturbing factors. The appropriate computer algorithm for the obtention of the perturbations is offered. A comparison of the theory with the results of numerical integration is made for the case of perturbations caused by the terrestrial gravitational field. The comparison shows that the accuracy of the new theory turns out to be no worse that 18 in satellite coordinates.
In this article we solve the non-standard situation that arose after publishing our paper "Crustal deformations in the epicentral area of the West Bohemia 2008 earthquake swarm in central Europe" (Schenk et al., 2012). Horálek and Fischer wrote a statement regarding our publication, sent it to specialists interested in research in the West Bohemia swarm area, and questioned the reliability of the seismic data used in our work. Since the statement regarding the reliability of our work was not directly sent to us we are using this journal to return to professional discussion regarding our results. In this paper we review scientific arguments made in their statement and provide review of various studies on West Bohemia tectonics and related seismicity., Vladimír Schenk and Zdeňka Schenková., and Obsahuje bibliografii