Results 311 to 320 of about 2,964,605 (375)
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New Method for Solving Eigenvalue Problems
Journal of Mathematical Physics, 1963A new method of solving eigenvalue problems is proposed. The secular equation is represented in the form of a dispersion relation. Three methods of solving the dispersion relation are given. Several examples including both nondegenerate cases and degenerate cases are presented.
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Numerical Methods for Partial Differential Equations, 2019
This paper investigates the lowest‐order weak Galerkin finite element (WGFE) method for solving reaction–diffusion equations with singular perturbations in two and three space dimensions.
Ahmed Al‐Taweel +3 more
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This paper investigates the lowest‐order weak Galerkin finite element (WGFE) method for solving reaction–diffusion equations with singular perturbations in two and three space dimensions.
Ahmed Al‐Taweel +3 more
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International Journal for Numerical Methods in Engineering, 2020
Element differential method (EDM), as a newly proposed numerical method, has been applied to solve many engineering problems because it has higher computational efficiency and it is more stable than other strong‐form methods.
Yong-Tong Zheng +3 more
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Element differential method (EDM), as a newly proposed numerical method, has been applied to solve many engineering problems because it has higher computational efficiency and it is more stable than other strong‐form methods.
Yong-Tong Zheng +3 more
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A NUMERICAL METHOD FOR SOLVING NONLINEAR PROBLEMS
Mathematical Models and Methods in Applied Sciences, 1999A nonlinear equation on a Banach space is written as a linear equation with a linear operator depending on the unknown solution. Inverting this linear operator by one of the known methods, one obtains an equation which, in some cases, is much better for the numerical solution than the original equation.
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A Method for Solving Crew Scheduling Problems
Operational Research Quarterly (1970-1977), 1975The method discussed provides an allocation of jobs to men in a transportation system. Each man is assigned a prespecified shift, associated with a base station, and returned to his base station at the end of his shift. The total number of men required is minimized, subject to a minimum time between jobs, a suitable lunch break, and the performance of ...
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Methods for solving equilibrium programming problems
Differential Equations, 2005This paper gives a survey of methods for solving equilibrium programming problems developed by A. S. Antipin, B. A. Budak and F. P. Vasil'ev in the last decade. To compute equilibrium solutions they generalized basic optimization ideas such as the ideas of proximal, gradient, Newton and penalty function methods.
Antipin, A. S. +2 more
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Methods for Solving Engineering Problems
Physics Bulletin, 1966L. Levine Maidenhead: McGraw-Hill Publishing Co. 1964. Pp. xiii + 485. Price 116s. The first of these books might better be titled 'What Every Tame Mathematician Has To Know'. The contents form a well-integrated check-list of concepts which should be familiar tools to any mathematician who has to give assistance to specialists from other fields of work,
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(2,1)-Method for solving stiff nonautonomous problems
Automation and Remote Control, 2012zbMATH Open Web Interface contents unavailable due to conflicting licenses.
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A Method for Solving Moving Boundary Problems
SIAM Journal on Applied Mathematics, 1986A method is proposed for treating Stefan problems by solving two boundary value problems with moving sources whose strengths and positions become the unknowns. In the one (space) dimensional case three coupled nonlinear integral equations for the unknown source strengths and the position of the moving boundary are obtained by the use of fundamental ...
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Method for Solving Inverse Elastoviscoplastic Problems
Journal of Engineering Mechanics, 1989The solution of transient inverse elastoviscoplastic deformation problems is the topic of this paper. The inverse problems described here involve solving for boundary tractions and displacements given only approximate measurements of displacements at internal points to the body.
Antoinette Maniatty, Nicholas Zabaras
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