[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.12989/sem.2017.61.1.105

Optimal extended homotopy analysis method for Multi-Degree-of-Freedom nonlinear dynamical systems and its application

Qian, Y.H. (College of Mathematics, Physics and Information Engineering, Zhejiang Normal University)
Zhang, Y.F. (College of Mathematics, Physics and Information Engineering, Zhejiang Normal University)

Publication Information

Structural Engineering and Mechanics / v.61, no.1, 2017 , pp. 105-116 More about this Journal

Abstract

In this paper, the optimal extended homotopy analysis method (OEHAM) is introduced to deal with the damped Duffing resonator driven by a van der Pol oscillator, which can be described as a complex Multi-Degree-of-Freedom (MDOF) nonlinear coupling system. Ecumenically, the exact solutions of the MDOF nonlinear coupling systems are difficult to be obtained, thus the development of analytical approximation becomes an effective and meaningful approach to analyze these systems. Compared with traditional perturbation methods, HAM is more valid and available, and has been widely used for nonlinear problems in recent years. Hence, the method will be chosen to study the system in this article. In order to acquire more suitable solutions, we put forward HAM to the OEHAM. For the sake of verifying the accuracy of the above method, a series of comparisons are introduced between the results received by the OEHAM and the numerical integration method. The results in this article demonstrate that the OEHAM is an effective and robust technique for MDOF nonlinear coupling systems. Besides, the presented methods can also be broadly used for various strongly nonlinear MDOF dynamical systems.

Keywords

optimal extended homotopy analysis method; Duffing resonator; van der Pol oscillator; coupling stiffness; Multi-Degree-of-Freedom;

Citations & Related Records

Times Cited By KSCI : 1 (Citation Analysis)

Reference
Cited By KSCI

1	Bozyigit, B. and Yesilce, Y. (2016), "Dynamic stiffness approach and differential transformation for free vibration analysis of a moving Reddy-Bickford beam", Struct. Eng. Mech., 58(5), 847-868. DOI
2	Gepreel, K.A. and Nofal, T.A. (2015), "Optimal homotopy analysis method for nonlinear partial fractional differential equations", Math. Sci., 9(1), 47-55. DOI
3	Guo, Z.J., Leung, A.Y.T. and Yang, H.X. (2011a), "Oscillatory region and asymptotic solution of fractional van der Pol oscillator via residue harmonic balance technique", Appl. Math. Model., 35(35), 3918-3925. DOI
4	Guo, Z.J., Leung, A.Y.T. and Yang, H.X. (2011b), "Iterative homotopy harmonic balancing approach for conservative oscillator with strong odd-nonlinearity", Appl. Math. Model., 35(4), 1717-1728. DOI
5	Handam, A.H.H., Freihat, A.A. and Zurigat, M. (2015), "The multi-step homotopy analysis method for solving fractionalorder model for HIV infection of CD4+T cells", Proyecciones, 34(4), 307-322. DOI
6	Liao, S.J. (1992), "The proposed homotopy analysis techniques for the solution of nonlinear problems", Ph.D. Dissertation, Shanghai Jiao Tong University, Shanghai.
7	Hoshyar, H.A., Ganji, D.D., Borran, A.R. and Falahati, M. (2015), "Flow behavior of unsteady incompressible Newtonian fluid flow between two parallel plates via homotopy analysis method", Latin Am. J. Solid. Struct., 12(10), 1859-1869. DOI
8	Leung, A.Y.T. and Guo, Z.J. (2010), "Residue harmonic balance for discontinuous nonlinear oscillator with fractional power restoring force", Int. J. Nonlin. Sci. Numer. Simul., 11(9), 705-723. DOI
9	Leung, A.Y.T. and Guo, Z.J. (2011), "Forward residue harmonic balance for autonomous and non-autonomous systems with fractional derivative damping", Commun. Nonlin. Sci. Numer. Simul., 16(4), 2169-2183. DOI
10	Liao, S.J. (2012), Homotopy analysis method in nonlinear differential equations, Higher Education Press, Beijing, China.
11	Liu, L., Dowel, E.H. and Thomas, J.P. (2007), "A high dimensional harmonic balance approach for an aeroelastic airfoil with cubic restoring forces", J. Fluid. Struct., 23(3), 351-363. DOI
12	Lu, N.C., Cheng, Y.H., Li, X.G. and Jin, C. (2012), "Analytical solutions of dynamic mode I crack under the conditions of displacement boundary", Nonlin. Dyn., 67(3), 2197-2205. DOI
13	Tasbozan, O., Esen, A. and Yagmurlu, N.M. (2012), "Approximate analytical solutions of fractional coupled mKdV equation by Homotopy analysis method", Open J. Appl. Sci., 2(3), 193-197. DOI
14	Lu, Z.H., Feng, Z.D. and Fang, C.L. (1991), "A new matrix perturbation method for analytical solution of complex modal eigenvalue problem of viscously damped linear vibration systems", Appl. Math. Mech., 12(8), 767-776. DOI
15	Odibat, Z.M. (2010), "A study on the convergence of homotopy analysis method", Appl. Math. Comput., 217(2), 782-789. DOI
16	Qian, Y.H. and Chen, S.M. (2010), "Accurate approximate analytical solution for multi-degree-of-freedom coupled van der Pol-Duffing oscillators by homotopy analysis method", Commun. Nonlin. Sci. Numer. Simul., 15(10), 3113-3130. DOI
17	Qian, Y.H., Ren, D.X., Lai, S.K. and Chen, S.M. (2012), "Analytical approximations to nonlinear vibration of an electrostatically actuated microbeam", Commun. Nonlin. Sci. Numer. Simul., 17(4), 1947-1955. DOI
18	Ray, S.S., Chaudhuri, K.S. and Betra, R.K. (2006), "Analytical approximate solution of nonlinear dynamic systems containing fractional derivatively by modified decomposition method", Appl. Math. Comput., 182(1), 544-552. DOI
19	Vishal, K., Kumar, S. and Das, S. (2011), "Application of homotopy analysis method for fractional swift Hohenberg equation-revisited", Appl. Mathem. Model., 36(8), 3630-3637. DOI
20	Wei, X., Randrianandrasana, M.F., Ward, M. and Lowe, D. (2011), "Nonlinear dynamics of a periodically driven duffing resonator coupled to a van der pol oscillator", Math. Prob. Eng., Article ID 248328, 16.
21	Xin, X.B., Kumar, S. and Kumar, D. (2015), "A modified homotopy analysis method for solution of fractional wave equations", Adv. Mech. Eng., 7(12), 2015.
22	Yuan, L.G. and Alam, Z. (2016), "An optimal homotopy analysis method based on particle swarm optimization: Applization to fractional-order differential equation", J. Appl. Anal. Comput., 6(1), 103-118.
23	Zhang, W., Qian, Y.H. and Lai, S.K. (2012), "Extended homotopy analysis method multi-degree-of-freedom non-autonomous nonlinear dynamical systems and its application", Acta Mechanica, 223(12), 2537-2548. DOI

12	(2018) International Journal of Bifurcation and Chaos Fast–Slow Dynamics Analysis of a Coupled Duffing System with Periodic Excitation / 28 (12) , 1850148
04	(2018) International Journal of Bifurcation and Chaos Study on a Multi-Frequency Homotopy Analysis Method for Period-Doubling Solutions of Nonlinear Systems / 28 (04) , 1850049
1	(2018) Structural engineering and mechanics : An international journal A nonlocal strain gradient theory for nonlinear free and forced vibration of embedded thick FG double layered nanoplates / 68 (1) , 103
5	(2017) Structural engineering and mechanics : An international journal Non-stationary vibration and super-harmonic resonances of nonlinear viscoelastic nano-resonators / 70 (5) , 623
3	(2017) Journal of low frequency noise, vibration, and active control New approach based on operational strain modal analysis to identify dynamical properties of the high-speed reciprocating operation mechanism / 38 (3) , 1345
3	(2019) Journal of low frequency noise, vibration, and active control Periodic solutions of delay nonlinear system by multi-frequency homotopy analysis method / 38 (3) , 1439