Hypersingular integral equations of the first kind: A modified homotopy perturbation method and its application to vibration and active control

Novin, Reza; Araghi, Mohammad Ali Fariborzi

doi:10.1177/1461348419827378

Cited by 8 publications

(4 citation statements)

References 49 publications

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“…Effective mathematical modelling serves as a valuable tool for elucidating enzymatic reaction processes. Since direct analytical solutions are unavailable for many non-linear enzymatic reaction equations, employing approximate analytical methods such as the variational iteration method (VIM) [4,5], Akbari Ganji method (AGM) [6,7], differential transform method (DTM) [8,9], homotopy perturbation method (HPM) [10,11], and homotopy analysis method (HAM) [12,13] becomes essential for obtaining analytical solutions. Most realistic models across chemistry, engineering, biology, and physics exhibit nonlinearity, making obtaining analytical solutions for such systems impractical.…”

Section: Related Workmentioning

confidence: 99%

Theoretical Analysis of Pre-Steady State Behaviour of Non-Linear Double Intermediate Enzymatic Reaction

2024

Contemp. Math.

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This paper explores the mathematical modelling of a non-linear double intermediate enzymatic reaction, focusing on its pre-steady state behaviour. Using homotopy perturbation and Taylor's series methods, an approximate analytical solution is derived for the concentrations of substrate, the first enzyme-substrate complex, and the second enzyme-substrate complex. The model is applicable in scenarios where the initial substrate concentration dramatically exceeds that of the enzyme and when they are comparable. Comparisons between analytical and numerical solutions are made, highlighting the efficacy of the proposed model. Additionally, an improved understanding is achieved by comparing results obtained from Matlab simulations with analytical solutions. Moreover, sensitivity analysis on parameters affecting the concentrations is conducted. This mathematical model enhances comprehension of biochemical reactions in living organisms.

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Section: Related Workmentioning

confidence: 99%

Theoretical Analysis of Pre-Steady State Behaviour of Non-Linear Double Intermediate Enzymatic Reaction

2024

Contemp. Math.

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“…In certain cases, there exist some analytical methods for solving HSIEs, but in general, there is no known analytical method. Thus, different numerical methods are introduced and developed for solving HSIEs [8,9,[12][13][14][15][16][17][18][19][20][21][22][23][24][25][26].…”

Section: Introductionmentioning

confidence: 99%

A Novel Collocation Method for Numerical Solution of Hypersingular Integral Equation with Singular Right-Hand Function

Elahi

Mahmoudi

Shamloo

et al. 2023

Advances in Mathematical Physics

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In this study, the Fredholm hypersingular integral equation of the first kind with a singular right-hand function on the interval − 1 , 1 is solved. The discontinuous solution on the domain − 1 , 1 is approximated by a piecewise polynomial, and a collocation method is introduced to evaluate the unknown coefficients. This method, which can be applied to both linear and nonlinear integral equations, is very simple and straightforward. The presented illustrations relate that the results are very accurate compared to the other methods in the literature.

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“…There exist lots of literature on related applications of semi-analytical and numerical methods for hypersingular integral equation (1) on its special case K(x, s) = 1 and L(x, s) = 0. The applied methods involve projection method [10], polynomial approximation method [5,11], Bernestein polynomials approximation method [6], Spline collocation method [12,13], Chebyshev polynomials approximation methods [14,15], modified Adomian decomposition method [16,17] and new homotopy perturbation method [18].…”

Section: Introductionmentioning

confidence: 99%

On projection method for numerical solution of hypersingular integral equations of the first kind combined with quadrature methods

et al. 2023

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The Fredholm integral equations of the ﬁrst kind with two regular and hypersingular kernels are considered on [−1, 1]. The hypersingular kernel is considered smooth enough with no additional conditions. A projection method based on second kind Chebyshev polynomials approximation, combined with quadrature integration method, is developed to obtain high accurate approximations. The proposed method reduces the underlying integral equation to a system of algebraic equations. Several illustrative examples are provided to show the eﬃciency of the method.

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Hypersingular integral equations of the first kind: A modified homotopy perturbation method and its application to vibration and active control

Cited by 8 publications

References 49 publications

Theoretical Analysis of Pre-Steady State Behaviour of Non-Linear Double Intermediate Enzymatic Reaction

Theoretical Analysis of Pre-Steady State Behaviour of Non-Linear Double Intermediate Enzymatic Reaction

A Novel Collocation Method for Numerical Solution of Hypersingular Integral Equation with Singular Right-Hand Function

On projection method for numerical solution of hypersingular integral equations of the first kind combined with quadrature methods

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