ALGORITHMS FOR AN APPROXIMATE SOLUTION OF THE TRACK POSSESSION PROBLEM ON THE RAILWAY NETWORK SEGMENT

AbstractA method of approximate solution of the linear one-dimensional Fredholm integral equation of the second kind is constructed. With the help of the Steklov averaging operator the integral equation is approximated by a system of linear algebraic equations. On the basis of the approximation used an increased order convergence solution has been obtained.

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Approximate Solution Of A Singular Integral Equation With A Multiplicative Cauchy Kernel In The Half-Plane

Computational Methods in Applied Mathematics ◽

10.2478/cmam-2008-0010 ◽

2008 ◽

Vol 8 (2) ◽

pp. 143-154 ◽

Cited By ~ 1

Author(s):

P. KARCZMAREK

Keyword(s):

Integral Equation ◽

Approximate Solution ◽

Singular Integral Equation ◽

Half Plane ◽

Singular Integral ◽

Trigonometric Polynomials ◽

Cauchy Kernel

AbstractIn this paper, Jacobi and trigonometric polynomials are used to con-struct the approximate solution of a singular integral equation with multiplicative Cauchy kernel in the half-plane.

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Approximate Solution for advection dispersion equation of time Fractional order by using the Chebyshev wavelets-Galerkin Method

Iraqi Journal of Science ◽

10.24996/ijs.2017.58.3b.14 ◽

2017 ◽

Vol 58 (3B) ◽

Keyword(s):

Approximate Solution ◽

Galerkin Method ◽

Dispersion Equation ◽

Fractional Order ◽

Chebyshev Wavelets ◽

Advection Dispersion ◽

Equation Of Time

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Approximate solution on the elastic contact problems between two-layered bodies

10.2514/6.1992-2531 ◽

1992 ◽

Author(s):

JUHACHI ODA ◽

TAKASHI KUBOTA

Keyword(s):

Approximate Solution ◽

Contact Problems ◽

Elastic Contact ◽

Layered Bodies

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Normalization Bernstein Basis For Solving Fractional Fredholm-Integro Differential Equation

Ibn AL- Haitham Journal For Pure and Applied Science ◽

10.30526/2017.ihsciconf.1821 ◽

2018 ◽

pp. 491

Author(s):

Abdul Khaleq O. Al-Jubory ◽

Shaymaa Hussain Salih

Keyword(s):

Differential Equation ◽

Approximate Solution ◽

Linear System ◽

Differential Equations ◽

Bernstein Basis ◽

Traditional Methods ◽

Integro Differential Equation

In this work, we employ a new normalization Bernstein basis for solving linear Freadholm of fractional integro-differential equations nonhomogeneous of the second type (LFFIDEs). We adopt Petrov-Galerkian method (PGM) to approximate solution of the (LFFIDEs) via normalization Bernstein basis that yields linear system. Some examples are given and their results are shown in tables and figures, the Petrov-Galerkian method (PGM) is very effective and convenient and overcome the difficulty of traditional methods. We solve this problem (LFFIDEs) by the assistance of Matlab10.

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THE ROLE OF FINITE ELEMENT METHOD IN CIVIL ENGINEERING

International Journal of Recent Advances in Science and Technology ◽

10.30750/ijarst.528 ◽

2018 ◽

Vol 5 (02) ◽

Author(s):

Er. Hardik Dhull

Keyword(s):

Finite Element Method ◽

Finite Element ◽

Approximate Solution ◽

Analytical Method ◽

Civil Engineering ◽

The Finite Element Method ◽

Engineering Problems ◽

Building Components ◽

Element Method

The finite element method is a numerical method that is used to find solution of mathematical and engineering problems. It basically deals with partial differential equations. It is very complex for civil engineers to study various structures by using analytical method,so they prefer finite element methods over the analytical methods. As it is an approximate solution, therefore several limitationsare associated in the applicationsin civil engineering due to misinterpretationof analyst. Hence, the main aim of the paper is to study the finite element method in details along with the benefits and limitations of using this method in analysis of building components like beams, frames, trusses, slabs etc.

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