Our investigations are based on the property that the fields of sources, whose depths are numerically equal to survey heights, are most brightly presented in the data of magnetic survey. Therefore, the magnetic field created by the upper boundary of the magnetically active layer is well presented in the data of magnetic surveys (survey heights are up to the first kilometres), whereas the geomagnetic field of the centre mass is well presented in the data of gradient magnetic surveys at heights of 20-40 km. These data were used separately for the interpretation of the depths of the upper and lower boundaries of the lithospheric magnetically active layer by spectral methods. This fact is especially valuable for estimating the positions of deep sources. For the central part of the East European platform, we obtained by spectral methods, the following values: the depth of the upper boundary of the layer is 8.5 km and that of the lower boundary of the layer is 64.3 km. The discrete localisation of the source depths along the profile is performed by the methods of converting the initial information into transformed fields, continuation upward, and reduction to the pole with the determination of singular points. The Poisson integral, representing the solution of the outer Dirichlet problem for the plane, served as a theoretical base for such an interpretation. These approaches made it possible to determine more exactly the localisation of deep sources along the profile and showed that the published magnetic maps based on aeromagnetic data do not contain in full measure the fields of deep-seated magnetic sources.
The problem of the analysis of directions field estimation algorithm is considered. The algorithm of estimation of directions field estimates an angle of anisotropy turn. The formulas of calculating accuracy of turn angle estimation of anisotropy are developed in this article. These formulas are received for algorithm on the basis of Radon transformation.
Pozitivní dopady využití virtuální reality v průmyslu byly již mnohokrát prokázány. Jak je to ale s reálným nasazením této moderní technologie v praxi? Tento článek se zabývá hodnocením ergonomických poloh na výrobní lince v prostředí automotive. Tato výrobní linka byla ve fázi návrhu a díky virtuální realitě bylo možné otestovat kompletní pracovní postup a v kombinaci s motion capture oblekem souběžně otestovat pracovní polohy dle české legislativy.
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