Vector of Diagnostic Features in the Form of Decomposition Coefficients of Statistical Estimates Using a Cyclic Random Process Model of Cardiosignal

The statistics of a strongly anisotropic rough surface are briefly described. The elastic contact of rough surfaces is treated by approximating the summits of a random process model by parabolic ellipsoids and applying the Hertzian solution for their deformation. Load and real contact area are derived as functions of the separation and for all separations the load is found to be approximately proportional to the contact area. The limits of elastic/plastic contact are discussed in terms of the plasticity index.

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Random Process Model for Urban Traffic Flow Using a Wavelet-Bayesian Hierarchical Technique

Computer-Aided Civil and Infrastructure Engineering ◽

10.1111/j.1467-8667.2010.00681.x ◽

2010 ◽

Vol 25 (8) ◽

pp. 613-624 ◽

Cited By ~ 22

Author(s):

Bidisha Ghosh ◽

Biswajit Basu ◽

Margaret O’Mahony

Keyword(s):

Random Process ◽

Traffic Flow ◽

Process Model ◽

Urban Traffic ◽

Bayesian Hierarchical

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Cyclic Linear Random Process As A Mathematical Model Of Cyclic Signals

Acta Mechanica et Automatica ◽

10.1515/ama-2015-0035 ◽

2015 ◽

Vol 9 (4) ◽

pp. 219-224 ◽

Cited By ~ 7

Author(s):

Sergiy Lupenko ◽

Nadiia Lutsyk ◽

Yuri Lapusta

Keyword(s):

Mathematical Model ◽

Random Process ◽

Science And Technology ◽

Random Processes ◽

Stochastic Signals ◽

Cyclic Random Process ◽

The Mathematical Model

Abstract In this study the cyclic linear random process is defined, that combines the properties of linear random process and cyclic random process. This expands the possibility describing cyclic signals and processes within the framework of linear random processes theory and generalizes their known mathematical model as a linear periodic random process. The conditions for the kernel are given and the probabilistic characteristics of generated process of linear random process in order to be a cyclic random process. The advantages of the cyclic linear random process are presented. It can be used as the mathematical model of the cyclic stochastic signals and processes in various fields of science and technology.

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Analysis of multiple cracking of nanocoating as a cyclic random process

Optoelectronics Instrumentation and Data Processing ◽

10.3103/s8756699013020088 ◽

2013 ◽

Vol 49 (2) ◽

pp. 164-170 ◽

Cited By ~ 1

Author(s):

I. V. Lytvynenko ◽

S. A. Lupenko ◽

P. O. Marushchak

Keyword(s):

Random Process ◽

Multiple Cracking ◽

Cyclic Random Process

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New Metrics for Validation of Data-Driven Random Process Models in Uncertainty Quantification

Journal of Verification Validation and Uncertainty Quantification ◽

10.1115/1.4031813 ◽

2015 ◽

Vol 1 (2) ◽

Cited By ~ 4

Author(s):

Hongyi Xu ◽

Zhen Jiang ◽

Daniel W. Apley ◽

Wei Chen

Keyword(s):

Uncertainty Quantification ◽

Random Process ◽

Process Model ◽

Goodness Of Fit ◽

Experimental Tests ◽

Process Models ◽

Data Driven ◽

Gaussian Copula ◽

High Dimensional ◽

Marginal Distributions

Data-driven random process models have become increasingly important for uncertainty quantification (UQ) in science and engineering applications, due to their merit of capturing both the marginal distributions and the correlations of high-dimensional responses. However, the choice of a random process model is neither unique nor straightforward. To quantitatively validate the accuracy of random process UQ models, new metrics are needed to measure their capability in capturing the statistical information of high-dimensional data collected from simulations or experimental tests. In this work, two goodness-of-fit (GOF) metrics, namely, a statistical moment-based metric (SMM) and an M-margin U-pooling metric (MUPM), are proposed for comparing different stochastic models, taking into account their capabilities of capturing the marginal distributions and the correlations in spatial/temporal domains. This work demonstrates the effectiveness of the two proposed metrics by comparing the accuracies of four random process models (Gaussian process (GP), Gaussian copula, Hermite polynomial chaos expansion (PCE), and Karhunen–Loeve (K–L) expansion) in multiple numerical examples and an engineering example of stochastic analysis of microstructural materials properties. In addition to the new metrics, this paper provides insights into the pros and cons of various data-driven random process models in UQ.

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COMPUTER SIMULATION OF DETERMINING SILTATION VOLUMES OF WATER RESERVOIR STORAGE ON THE AKSAY RIVER

Herald of Dagestan State Technical University Technical Sciences ◽

10.21822/2073-6185-2019-46-4-102-112 ◽

2020 ◽

Vol 46 (4) ◽

pp. 102-112

Author(s):

M. R. Magomedova ◽

Z. A. Kurbanova ◽

B. A. Shangereeva

Keyword(s):

Mathematical Model ◽

Computer Simulation ◽

Random Process ◽

Process Model ◽

Probabilistic Approach ◽

Water Reservoir ◽

Temporal Correlation ◽

Programming System ◽

Reservoir Storage ◽

Hydrological System

Objectives. The development of a mathematical model for the increased turbidity zones of the Aksay river in order to determine the siltation volumes of the Aksay water reservoir storage.Method. The mathematical model is developed using the theory of probability and the theory of random process outliers. The model takes the normal distribution of the horizontal and vertical components of the instantaneous flow velocities into account, as well as the Rayleigh law of the distribution of their maxima. The proposed model is used to calculate the “turbidity tail” of the Aksay river.Result. Due to the multifactorial nature of the continuously associated processes of siltation and deposition of suspended and bottom sediments in the upper pounds of the Aksay reservoir storage hydrological system, a mathematical model of the reservoir accretion process is developed. This model provides the reliability of accretion forecasting with spatial and temporal correlation with the siltation process model, which is actually feasible on the basis of computer simulation.Conclusion. The developed model, which is based on a probabilistic approach and the theory of random process outliers, reflects the overall process of sediment transport in open channels. The development and execution of simulation programmes is carried out using the Microsoft Developer Studio (MDS) and the Fortran Power Station algorithmic language, which comprises not only a programming system, but also a set of tools for supporting large software projects integrated into MDS.

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