Макромодели, учитывающие фрагментарную верификацию проводимостей материалов корпуса космического аппарата
In the paper we propose a new reduced computational scheme (macromodel) to determine the crosstalk in cables spacecraft. In the computing scheme remains simple dependence on varied parameters that characterize the different materials of the spacecraft. The approach of building such a "mosaic" macromodel requires minimum computational cost of the computer.
This article considers the model of metaphorical transfer of names of natural (atmospheric) phenomena. The worn inner form of many metaphors needs to consult the diachronic aspect, which allowes us to determine the conceptual transfer vector - the emotional attitude of speakers to natural phenomena, deterministic fear of them, faith in their supernatural origin.
Many electronic devices operate in a cyclic mode. This should be considered when forecastingreliability indicators at the design stage.The accuracy of the prediction and the planning for the event to ensure reliability depends on correctness of valuation and accounting greatest possiblenumber of factors. That in turn will affect the overall progress of the design and, in the end,result in the quality and competitiveness of products
Let G be a semisimple algebraic group whose decomposition into the product of simple components does not contain simple groups of type A, and P⊆G be a parabolic subgroup. Extending the results of Popov , we enumerate all triples (G, P, n) such that (a) there exists an open G-orbit on the multiple flag variety G/P × G/P × . . . × G/P (n factors), (b) the number of G-orbits on the multiple flag variety is finite.
I give the explicit formula for the (set-theoretical) system of Resultants of m+1 homogeneous polynomials in n+1 variables