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Amplitude modulated dynamics of a resonantly excited autoparametric two degree-of-freedom system (1994)

Bajaj, A. K. ; Chang, S. I. ; Johnson, J. M.

Springer

Nonlinear dynamics 5 (1994), S. 433-457

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ISSN: 1573-269X

Keywords: Amplitude dynamics ; resonant vibrations ; bifurcation analysis ; chaotic motions

Source: Springer Online Journal Archives 1860-2000

Topics: Mathematics

Notes: Abstract Forced, weakly nonlinear oscillations of a two degree-of-freedom autoparametric vibration absorber system are studied for resonant excitations. The method of averaging is used to obtain first-order approximations to the response of the system. A complete bifurcation analysis of the averaged equations is undertaken in the subharmonic case of internal and external resonance. The “locked pendulum” mode of response is found to bifurcate to coupled-mode motion for some excitation frequencies and forcing amplitudes. The coupled-mode response can undergo Hopf bifurcation to limit cycle motions, when the two linear modes are mistuned away from the exact internal resonance condition. The software packages AUTO and KAOS are used and a numerically assisted study of the Hopf bifurcation sets, and dynamic steady solutions of the amplitude or averaged equations is presented. It is shown that both super-and sub-critical Hopf bifurcations arise and the limit cycles quickly undergo period-doubling bifurcations to chaos. These imply chaotic amplitude modulated motions for the system.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00052453

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Bifurcations in the dynamics of an orthogonal double pendulum (1993)

Samaranayake, S. ; Bajaj, A. K.

Springer

Nonlinear dynamics 4 (1993), S. 605-633

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ISSN: 1573-269X

Keywords: Nonlinear dynamics ; amplitude equations ; orthogonal pendulum ; bifurcation analysis

Source: Springer Online Journal Archives 1860-2000

Topics: Mathematics

Notes: Abstract The weakly nonlinear resonant response of an orthogonal double pendulum to planar harmonic motions of the point of suspension is investigated. The two pendulums in the double pendulum are confined to two orthogonal planes. For nearly equal length of the two pendulums, the system exhibits 1:1 internal resonance. The method of averaging is used to derive a set of four first order autonomous differential equations in the amplitude and phase variables. Constant solutions of the amplitude and phase equations are studied as a function of physical parameters of interest using the local bifurcation theory. It is shown that, for excitation restricted in either plane, there may be as many as six pitchfork bifurcation points at which the nonplanar solutions bifurcate from the planar solutions. These nonplanar motions can become unstable by a saddle-node or a Hopf bifurcation, giving rise to a new branch of constant solutions or limit cycle solutions, respectively. The dynamics of the amplitude equations in parameter regions of the Hopf bifurcations is then explored using direct numerical integration. The results indicate a complicated amplitude dynamics including multiple limit cycle solutions, period-doubling route to chaos, and sudden disappearance of chaotic attractors.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00162234

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