On Given Diameter MST Problem on Random Input Data

Author(s):  
Edward Kh. Gimadi ◽  
Ekaterina Yu. Shin
2020 ◽  
Vol 28 (02) ◽  
pp. 2050009
Author(s):  
Felix Kronowetter ◽  
Lennart Moheit ◽  
Martin Eser ◽  
Kian K. Sepahvand ◽  
Steffen Marburg

A novel method to solve exterior Helmholtz problems in the case of multipole excitation and random input data is developed. The infinite element method is applied to compute the sound pressure field in the exterior fluid domain. The consideration of random input data leads to a stochastic infinite element formulation. The generalized polynomial chaos expansion of the random data results in the spectral stochastic infinite element method. As a solution technique, the non-intrusive collocation method is chosen. The performance of the spectral stochastic infinite element method is demonstrated for a time-harmonic problem and an eigenfrequency study.


2020 ◽  
Vol 223 ◽  
pp. 02001
Author(s):  
Boris Dobronets ◽  
Olga Popova ◽  
Alexey Merko

The article deals with the issues of numerical modeling of problems with random input data. Finding the joint probability density function of the vector of output parameters is considered. It is proposed to use computational probabilistic analysis and the transformation method. A numerical example of the joint probability density function of the vector of a solution of a system of nonlinear equations with random input data is given.


2019 ◽  
Vol 75 ◽  
pp. 01004
Author(s):  
Boris Dobronets ◽  
Olga Popova

The study is devoted to the remote sensing data processing using the models with random input data. In this article we propose a new approach to calculation of functions with random arguments, which is a technique of fast computations, based on the idea of parallel computations and the application of numerical probability analysis. To calculate a function with random arguments we apply one of the basic concepts of numerical probabilistic analysis as the probabilistic extension. To implement the technique of fast computations, a new method based on parallel recursive calculations is proposed.


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