A comprehensive study of stability analysis for nonlinear Mathieu equation without a perturbative technique

Yusry O. El‐Dib
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Abstract

The present research focuses on the challenges engineers face in predicting the behavior of nonlinear vibration systems accurately. The nonperturbative method is highlighted as a solution that provides insights into chaos, bifurcation, resonance response, and stability attributes. Specifically, the study delves into the dynamic analysis of the nonlinear Mathieu equation. The research involves a complex and extensive analytical exploration, transitioning from a nonlinear state to a linear one through various stages. The introduced computational method aims to examine the resonance response of the nonlinear Mathieu equation and offer innovative solutions for the Mathieu–Duffing–type oscillator. The nonperturbative approach remains essential in gaining a deeper understanding of nonlinear vibration systems.
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无需扰动技术的非线性马修方程稳定性分析综合研究
本研究的重点是工程师在准确预测非线性振动系统行为时所面临的挑战。非扰动方法作为一种解决方案,能深入揭示混沌、分岔、共振响应和稳定性属性,因此得到了重点关注。具体而言,该研究深入探讨了非线性马修方程的动态分析。研究涉及复杂而广泛的分析探索,通过不同阶段从非线性状态过渡到线性状态。引入的计算方法旨在研究非线性马修方程的共振响应,并为马修-达芬型振荡器提供创新的解决方案。非微扰方法对于深入理解非线性振动系统仍然至关重要。
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