Analytic approximations of Von Kármán plate under arbitrary uniform pressure—equations in integral form

Zhong, Xiaoxu; Liao, Shijun

doi:10.1007/s11433-017-9096-1

Cited by 23 publications

(8 citation statements)

References 29 publications

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“…Thus, the HAM can indeed greatly enlarge the convergence interval of solution series by means of properly choosing the so-called "convergence-control parameter" . Note that perturbation methods for many problems have been found to be a special case of the HAM when = −1, as illustrated by Zhong & Liao (2017, 2018, and this well explains why perturbation results are often invalid in case of high nonlinearity. In addition, the HAM provides us great freedom to choose initial approximation so that iteration can be easily used to accelerate convergence in the frame of the HAM.…”

Section: )mentioning

confidence: 93%

“…In this paper, the limiting Stokes' wave in arbitrary water depth is successfully solved by an analytic approximation method, namely the homotopy analysis method (HAM) (Liao 1992(Liao , 1999(Liao , 2003(Liao , 2009(Liao , 2010(Liao , 2012Van Gorder & Vajravelu 2008;Mastroberardino 2011;Kimiaeifar et al 2011;Vajravelu & Van Gorder 2012;Sardanyés et al 2015;Liao et al 2016;Zhong & Liao 2017, 2018Liu et al 2018a,b). Unlike perturbation methods (Schwartz 1974;Cokelet 1977), the HAM is independent of any small/large physical parameter.…”

Section: Introductionmentioning

confidence: 99%

“…For example, perturbation techniques are invalid for large deformation of Von Kármán plate, a famous classic problem in solid mechanics. However, Zhong & Liao (2017, 2018 successfully applied the HAM to gain convergent series solution even for extremely large deformation of Von Kármán plate. It is worthwhile mentioning that some mathematical theorems of convergence have been rigorously proved in the frame of the HAM (Liao 2012).…”

Section: Introductionmentioning

confidence: 99%

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On the limiting Stokes wave of extreme height in arbitrary water depth

Zhong

Liao

2018

J. Fluid Mech.

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As mentioned by Schwartz (1974) and Cokelet (1977), it was failed to gain convergent results of limiting Stokes' waves in extremely shallow water by means of perturbation methods even with the aid of extrapolation techniques such as Padé approximant. Especially, it is extremely difficult for traditional analytic/numerical approaches to present the wave profile of limiting waves with a sharp crest of 120 • included angle first mentioned by Stokes in 1880s. Thus, traditionally, different wave models are used for waves in different water depths. In this paper, by means of the homotopy analysis method (HAM), an analytic approximation method for highly nonlinear equations, we successfully gain convergent results (and especially the wave profiles) of the limiting Stokes' waves with this kind of sharp crest in arbitrary water depth, even including solitary waves of extreme form in extremely shallow water, without using any extrapolation techniques. Therefore, in the frame of the HAM, the Stokes' wave can be used as a unified theory for all kinds of waves, including periodic waves in deep and intermediate depth, cnoidal waves in shallow water and solitary waves in extremely shallow water.

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Section: )mentioning

confidence: 93%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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On the limiting Stokes wave of extreme height in arbitrary water depth

Zhong

Liao

2018

J. Fluid Mech.

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“…Besides, different from all other approximation techniques, the HAM provides us a convenient way to guarantee the convergence of solution series. As illustrated by Zhong and Liao [38], perturbation methods are often only special cases of the HAM, but the HAM still works well even if perturbation methods fail. More importantly, as a new analytic method, the HAM can provide us something completely new/different [39][40][41].…”

Section: Concluding Remarks and Discussionmentioning

confidence: 99%

On the generalized wavelet-Galerkin method

Yang

Liao

2018

Journal of Computational and Applied Mathematics

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In the frame of the traditional wavelet-Galerkin method based on the compactly supported wavelets, it is important to calculate the so-called connection coefficients that are some integrals whose integrands involve products of wavelets, their derivatives as well as some known coefficients in considered differential equations. However, even for linear differential equations with non-constant coefficient, the computation of connect coefficients becomes rather time-consuming and often even impossible. In this paper, we propose a generalized wavelet-Galerkin method based on the compactly supported wavelets, which is computationally very efficient even for differential equations with non-constant coefficients, no matter linear or nonlinear problems. Some related mathematical theorems are proved, based on which the basic ideas of the generalized wavelet-Galerkin method are described in details. In addition, some examples are used to illustrate its validity and high efficiency. A nonlinear example shows that the generalized wavelet-Galerkin method is not only valid to solve nonlinear problems, but also possesses the ability to find new solutions of multi-solution problems. This method can be widely applied to various types of both linear and nonlinear differential equations in science and engineering.

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“…Furthermore, homotopy analysis method (HAM) (Xu et al, 2015;Nawaz et al, 2015;Zhong and Liao, 2016;Ellahi et al, 2015a,b;Rashidi et al, 2015;Zeeshan et al, 2014) has been developed for solving strongly nonlinear systems. The HAM is based on the homotopy in topology, which is, however, different from perturbation method.…”

Section: Introductionmentioning

confidence: 99%

An analytical approximate technique to investigate a finite extensibility nonlinear oscillator

Razzak

2017

Journal of the Association of Arab Universities for Basic and A

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In this paper, an analytical approximate technique based on modified harmonic balance method is presented to study about the dynamics of a finite extensibility nonlinear oscillator described by Febbo (2011) and Bele´ndez et al. (2012). Generally, a second-order approximation is only considered in this paper. In the proposed method, the approximate period of oscillations and the corresponding periodic solutions are determined, which are valid for both range of amplitudes 0 < A 0.9 and 0.9 < A < 1 of oscillation. The approximate periods obtained in this paper are compared with numerical result (considered to be exact) and other existing results. Firstly, the results are obtained for the amplitude 0 < A 0.9 and show that the present method gives high accuracy than other existing results. Moreover, the results are also obtained for the rest of the amplitude 0.9 < A < 1. The relative error measure in this paper is 0.03% for A = 0.9 while the relative errors obtained by Febbo (2011) and Bele´ndez et al. (2012), were 3.53% and 0.60% respectively. On the other hand, Belendez et al. (2012) did not obtain approximate period for 0.9 < A < 1. In this article, the approximate periods have been determined in the range of value 0.9 < A < 1 and they have provided better results than the existing result of Febbo (2011).

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Analytic approximations of Von Kármán plate under arbitrary uniform pressure—equations in integral form

Cited by 23 publications

References 29 publications

On the limiting Stokes wave of extreme height in arbitrary water depth

On the limiting Stokes wave of extreme height in arbitrary water depth

On the generalized wavelet-Galerkin method

An analytical approximate technique to investigate a finite extensibility nonlinear oscillator

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