Publications

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2006
2011
El-Beltagy, M. A., O. H. Galal, M. I. Wafa, T. E. Simos, G. Psihoyios, C. Tsitouras, and Z. Anastassi, "Uncertainty Quantification of a 1-D Beam Deflection Due to Stochastic Parameters", AIP Conference Proceedings, vol. 1389, no. 1: AIP, pp. 2000–2003, 2011. Abstract
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2012
Khalil, A., M. Hesham, and M. El-Beltagy, "Domain-limited solution of the wave equation in Riemannian coordinates", Geophysics, vol. 78, no. 1: Society of Exploration Geophysicists, pp. T21–T27, 2012. Abstract
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Grace, S. R., J. R. Graef, and M. A. El-Beltagy, "On the oscillation of third order neutral delay dynamic equations on time scales", Computers & Mathematics with Applications, vol. 63, no. 4: Elsevier, pp. 775–782, 2012. Abstract
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El-Beltagy, M. A., M. I. Wafa, and O. H. Galal, "Upwind finite-volume solution of Stochastic Burgers’ equation", Applied Mathematics, vol. 3, no. 11: Scientific Research Publishing, pp. 1818, 2012. Abstract
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2013
Grace, S. R., M. A. El-Beltagy, and S. A. Deif, "Asymptotic Behavior of Non-oscillatory Solutions of Second order Integro-Dynamic Equations on Time Scales", J Appl Computat Math, vol. 2, no. 134, pp. 2, 2013. Abstract
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El-Beltagy, M. A., and A. S. Al-Johani, "Higher-Order WHEP Solutions of Quadratic Nonlinear Stochastic Oscillatory Equation", Engineering, vol. 5, no. 05: Scientific Research Publishing, pp. 57, 2013. Abstract
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El-Beltagy, M. A., and A. S. Al-Johani, "Numerical approximation of higher-order solutions of the quadratic nonlinear stochastic oscillatory equation using WHEP technique", Journal of Applied Mathematics, vol. 2013: Hindawi Publishing Corporation, 2013. Abstract
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Al-Johani, A. S., M. A. El-Beltagy, T. Simos, G. Psihoyios, and C. Tsitouras, "Numerical solution of stochastic nonlinear differential equations using wiener-hermite expansion", AIP Conference Proceedings, vol. 1558, no. 1: AIP, pp. 2099–2102, 2013. Abstract
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Fareed, A. A., H. H. El-Zoheiry, M. A. El-Tawil, M. A. El-beltagy, and H. N. Hassan, "Solving nonlinear stochastic diffusion models with nonlinear losses using the homotopy analysis method", Applied Mathematics, vol. 5, no. 01: Scientific Research Publishing, pp. 115, 2013. Abstract
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El-Beltagy, M. A., and M. I. Wafa, "Stochastic 2D incompressible Navier-Stokes solver using the vorticity-stream function formulation", Journal of Applied Mathematics, vol. 2013: Hindawi Publishing Corporation, 2013. Abstract
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El-Beltagy, M., and A. Al-Johani, "Stochastic response of duffing oscillator with fractional or variable-order damping", Journal of Fractional Calculus and Applications, vol. 4, no. 2, pp. 357–366, 2013. Abstract
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El-Beltagy, M. A., and M. A. El-Tawil, "Toward a solution of a class of non-linear stochastic perturbed PDEs using automated WHEP algorithm", Applied Mathematical Modelling, vol. 37, no. 12: Elsevier, pp. 7174–7192, 2013. Abstract
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2014
Al-Nory, M., and M. El-Beltagy, "An energy management approach for renewable energy integration with power generation and water desalination", Renewable Energy, vol. 72: Elsevier, pp. 377–385, 2014. Abstract
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Grace, S. R., and M. A. El-Beltagy, "Oscillatory behavior of solutions of certain integrodynamic equations of second order on time scales", Abstract and Applied Analysis, vol. 2014: Hindawi Publishing Corporation, 2014. Abstract
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Hamed, M., A. Magdy, B. El-desouky, and M. A. El-Beltagy, "Solution of nonlinear stochastic Langevin’s equation using WHEP, Pickard and HPM methods", Applied Mathematics, vol. 5, no. 03: Scientific Research Publishing, pp. 398, 2014. Abstract
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El-Beltagy, M. A., and N. A. Al-Mulla, "Solution of the stochastic heat equation with nonlinear losses using Wiener-Hermite expansion", Journal of Applied Mathematics, vol. 2014: Hindawi Publishing Corporation, 2014. Abstract
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2015
Al-Nory, M. T., and M. El-Beltagy, "Optimal selection of energy storage systems", Smart Grid (SASG), 2015 Saudi Arabia: IEEE, pp. 1–6, 2015. Abstract
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Grace, S. R., and M. A. El-Beltagy, "Oscillation criteria for some higher order integrodynamic equations on timescales", Abstract and Applied Analysis, vol. 2015: Hindawi Publishing Corporation, 2015. Abstract
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2016
Beltagy, M. E., "Solution of Stochastic Nonlinear PDEs Using Wiener-Hermite Expansion of High Orders", Welcome from the Directors of KAUST SRI Center for Uncertainty Quantification in Computational Science and Engineering, pp. 34, 2016. Abstract
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Sattar, A. M. A., and M. El-Beltagy, "Stochastic Solution to the Water Hammer Equations Using Polynomial Chaos Expansion with Random Boundary and Initial Conditions", Journal of Hydraulic Engineering: American Society of Civil Engineers, pp. 04016078, 2016. Abstract
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2019
El-Beltagy, M., "A Practical Comparison Between the Spectral Techniques in Solving the SDEs", Engineering Computations, vol. 36, issue 7, pp. 2369-2402, 2019.
El-Beltagy, M., and A. Noor, Analysis of the stochastic point reactor using Wiener-Hermite expansion, , vol. 134, pp. 250 - 257, 2019. AbstractWebsite

In the current work, the stochastic point reactor model is analyzed using the Wiener-Hermite expansion (WHE). The simplified stochastic point reactor model (Ayyoubzadeh and Vosoughi, 2014), at which no matrix square root, is considered. The stochastic system is reduced to a set of deterministic equations that are solved to get the mean and variance of the neutron and precursor populations. The well-known numerical deterministic techniques are used to get the solution without the need for the time-consuming sampling techniques. Estimations of the neutron and precursor groups fluctuations at the startup are quantified. Many cases are tested and compared with the results in the literature. The current technique is shown to be efficient, accurate and simple compared with the available techniques.

2020
Noor, A., A. Barnawi, R. Nour, A. Assiri, and M. El-Beltagy, "Analysis of the Stochastic Population Model with Random Parameters", Entropy, vol. 22, no. 5, 2020. AbstractWebsite

The population models allow for a better understanding of the dynamical interactions with the environment and hence can provide a way for understanding the population changes. They are helpful in studying the biological invasions, environmental conservation and many other applications. These models become more complicated when accounting for the stochastic and/or random variations due to different sources. In the current work, a spectral technique is suggested to analyze the stochastic population model with random parameters. The model contains mixed sources of uncertainties, noise and uncertain parameters. The suggested algorithm uses the spectral decompositions for both types of randomness. The spectral techniques have the advantages of high rates of convergence. A deterministic system is derived using the statistical properties of the random bases. The classical analytical and/or numerical techniques can be used to analyze the deterministic system and obtain the solution statistics. The technique presented in the current work is applicable to many complex systems with both stochastic and random parameters. It has the advantage of separating the contributions due to different sources of uncertainty. Hence, the sensitivity index of any uncertain parameter can be evaluated. This is a clear advantage compared with other techniques used in the literature.

AbdelFattah, H., A. Al-Johani, and M. El-Beltagy, "Analysis of the Stochastic Quarter-Five Spot Problem Using Polynomial Chaos", Molecules, vol. 25, no. 15, 2020. AbstractWebsite

Analysis of fluids in porous media is of great importance in many applications. There are many mathematical models that can be used in the analysis. More realistic models should account for the stochastic variations of the model parameters due to the nature of the porous material and/or the properties of the fluid. In this paper, the standard porous media problem with random permeability is considered. Both the deterministic and stochastic problems are analyzed using the finite volume technique. The solution statistics of the stochastic problem are computed using both Polynomial Chaos Expansion (PCE) and the Karhunen-Loeve (KL) decomposition with an exponential correlation function. The results of both techniques are compared with the Monte Carlo sampling to verify the efficiency. Results have shown that PCE with first order polynomials provides higher accuracy for lower (less than 20%) permeability variance. For higher permeability variance, using higher-order PCE considerably improves the accuracy of the solution. The PCE is also combined with KL decomposition and faster convergence is achieved. The KL-PCE combination should carefully choose the number of KL decomposition terms based on the correlation length of the random permeability. The suggested techniques are successfully applied to the quarter-five spot problem.

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