Mathematical Modelling and Differential Equations
A mathematical modelling and analytical solutions of nonlinear differential equations model with using Homotopy Perturbation method
... a mathematical modelling and analytical solutions of nonlinear differential equations model with using homotopy perturbation method ...ordinary differential equation systems ...
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Oscillation Conditions of First Order Delay Differential Equations with Positive and Negative Coefficients V. Amudhamalar *1 , P. Sathish 2
... delay differential Equations. Delay Differential Equations are one of the most powerful mathematical modelling tools & they arise naturally in various applications from the ...
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Modelling of macrophages interactions in breast cancer by partial differential equations
... a mathematical modelling using continuum and discrete model that describe the invasion of host tisue by tumor cells through ECM which is facilitated by ...
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Mathematical analysis for tumor growth model of ordinary differential equations
... in mathematical modelling for solving optimization problems in both engineering and scientific ...of modelling for example explanations on the background of PSO, its algorithm and parameter setting ...
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Vol 5, No 3 (2014)
... Mathematical modelling of real-life problems usually results in functional equations, ...partial differential equations, integral and integro-differential equation, stochastic ...
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The Bernoulli Ritz-collocation method to the solution of modelling the pollution of a system of lakes
... useful mathematical tools for solving these ...of differential, integral and integro-differential-difference equations and their systems [9, 10, 11, 12, 13, 14, ...
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Wavelets optimization method for evaluation of fractional partial differential equations: an application to financial modelling
... The mathematical and financial background of pricing options is described here in order to identify the problem. The Brownian motion is a famous stochastic process and is a part of the Black-Scholes model. It is ...
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Modelling of oedemous limbs and venous ulcers using partial differential equations
... The aim of this paper is to show how it is possible to develop a system for measuring the shape and size of limbs and venous ulcers by means of utilising an econom- ical mathematical model. In particular, one of ...
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3D modelling using partial differential equations (PDEs)
... Partial differential equations (PDEs) provide a quantitative description for many primary models in physical, biological, and the social ...fundamental differential relations, nonlinear PDEs governs ...
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Modelling of oedemous limbs and venous ulcers using partial differential equations
... The aim of this paper is to show how it is possible to develop a system for measuring the shape and size of limbs and venous ulcers by means of utilising an econom- ical mathematical model. In particular, one of ...
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A mathematical modeling and simulation of non linear ordinary differential equations using HPM
... The system of nonlinear ordinary differential equation is investigated in various aspects [1]. Now a day ’ s much attention paid to ordinary differential equations. In this model they will see how ...
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Modeling long range dependent Gaussian processes with application in continuous time financial models
... stochastic differential equation is included. A modelling procedure is then established through estimating the parameters involved in the spectral density by using an extended continuous–time version of the ...
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[Y938.Ebook] Download Ebook Mathematical Modeling Third Edition By Mark M Meerschaert.pdf
... of mathematical model, this book covers the broad spectrum of modeling problems, from optimization to dynamical systems to stochastic ...processes. Mathematical modeling is the link between mathematics and ...
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Sliding Mode Control with RBF Neural Network for Two Link Robot Manipulator
... The mathematical model of two DOF robot manipulator is designed in the form of differential equations and then feedback linearization technique is applied to obtain the plant model and two control ...
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Laplace And Sumudu Transforms And Their Application
... Laplace transform is a very powerful mathematical tool applied in various areas of engineering and science. Although not so well-known as Laplace transform, the Sumudu transform, proposed in the early 1990s, has ...
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Application of PDE and Mathematical Morphology in the Extraction Validation of the Roads
... partial differential equations is favored due to the characteristic of explicit equations, in addition to the extensive amount of numerical methods in the lit- ...
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Detection of Moving Targets Using Soliton Resonance Effect
... the Equations (26) and (24), solve inhomogeneous KdV Equations (22)-(23), find soliton trajectories along x and y directions and, finally, obtain the target trajectory in ...
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Numerical methods for ill-posed, linear problems
... R., ''Some Numerical Results for the Solution of the Heat Equation Backwards in Time," Numerical Solutions of Nonlinear Differential Equations.. and Hilbert D., Methods of Mathematical P[r] ...
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Numerical solution of Solving Higher order Boundary Value Problems using Collocation Methods
... Mathematical problems arise in numerous practical situations, particularly in Science and Engineering, for many of these problems, the most appropriate method of solution may not be purely mathematical. ...
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Global Stability of Nonlinear Transports Equations
... the initial condition π 0 x = x for x ∈ ( ) 0, 1 . The solution is well defined for π s x ≤ 1 . We can omit the problem of the global existence of the solutions of differential equation by extending the function g ...
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