Numerical analysis of a system of semilinear singularly perturbed first‐order differential equations on an adaptive grid

Liu, Li-Bin; Zhu, Ciwen; Long, Guangqing

doi:10.1002/mma.7904

Cited by 2 publications

(2 citation statements)

References 23 publications

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“…Then, there must be a point C ∈ [A, B], such that F(C) = t. In other words, regardless of the situation, as long as the value interval of the original function is within the defined domain, there must be at least one pointMake, F(K) obtain this value at this point. The results were used to solve the existence of the initial problem [19][20][21].…”

Section: Solution Of Nonlinear Second Order Neutral Differential Equa...mentioning

confidence: 99%

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Oscillation Analysis Algorithm for Nonlinear Second-Order Neutral Differential Equations

2023

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Differential equations are useful mathematical tools for solving complex problems. Differential equations include ordinary and partial differential equations. Nonlinear equations can express the nonlinear relationship between dependent and independent variables. The nonlinear second-order neutral differential equations studied in this paper are a class of quadratic differentiable equations that include delay terms. According to the t-value interval in the differential equation function, a basis is needed for selecting the initial values of the differential equations. The initial value of the differential equation is calculated with the initial value calculation formula, and the existence of the solution of the nonlinear second-order neutral differential equation is determined using the condensation mapping fixed-point theorem. Thus, the oscillation analysis of nonlinear differential equations is realized. The experimental results indicate that the nonlinear neutral differential equation can analyze the oscillation behavior of the circuit in the Colpitts oscillator by constructing a solution equation for the oscillation frequency and optimizing the circuit design. It provides a more accurate control for practical applications.

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Section: Solution Of Nonlinear Second Order Neutral Differential Equa...mentioning

confidence: 99%

“…(Au)( ) − x 0 = x 0 + 0 f (s , u(s ), (Tu)(s ))ds − x 0 = 0 f (s , u(s ), (Tu)(s ))ds . (21) Formula ( 21) can be obtained from the general number.…”

Section: Solution Of Nonlinear Second Order Neutral Differential Equa...mentioning

confidence: 99%

Oscillation Analysis Algorithm for Nonlinear Second-Order Neutral Differential Equations

2023

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A robust adaptive grid method for first-order nonlinear singularly perturbed Fredholm integro-differential equations

Mao

Luo

2023

NHM

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<abstract><p>In this paper, a robust adaptive grid method is developed for solving first-order nonlinear singularly perturbed Fredholm integro-differential equations (SPFIDEs). Firstly such SPFIDEs are discretized by the backward Euler formula for differential part and the composite numerical quadrature rule for integral part. Then both a prior and an a posterior error analysis in the maximum norm are derived. Based on the prior error bound and the mesh equidistribution principle, it is proved that there exists a mesh gives optimal first-order convergence which is robust with respect to the perturbation parameter. Finally, the posterior error bound is used to choose a suitable monitor function and design a corresponding adaptive grid generation algorithm. Numerical results are given to illustrate our theoretical result.</p></abstract>

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Numerical analysis of a system of semilinear singularly perturbed first‐order differential equations on an adaptive grid

Cited by 2 publications

References 23 publications

Oscillation Analysis Algorithm for Nonlinear Second-Order Neutral Differential Equations

Oscillation Analysis Algorithm for Nonlinear Second-Order Neutral Differential Equations

A robust adaptive grid method for first-order nonlinear singularly perturbed Fredholm integro-differential equations

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