A weakly nonlinear oscillator was modeled by a sort of differential equation, a saddle-node bifurcation was found in case of primary and secondary resonance. To control the jumping phenomena and the unstable region of...A weakly nonlinear oscillator was modeled by a sort of differential equation, a saddle-node bifurcation was found in case of primary and secondary resonance. To control the jumping phenomena and the unstable region of the nonlinear oscillator, feedback controllers were designed. Bifurcation control equations were obtained by using the multiple scales method. And through the numerical analysis, good controller could be obtained by changing the feedback control gain. Then a feasible way of further research of saddle-node bifurcation was provided. Finally, an example shows that the feedback control method applied to the hanging bridge system of gas turbine is doable.展开更多
The singularly perturbed bifurcation subsystem is described, and the test conditions of subsystem persistence are deduced. By use of fast and slow reduced subsystem model, the result does not require performing nonlin...The singularly perturbed bifurcation subsystem is described, and the test conditions of subsystem persistence are deduced. By use of fast and slow reduced subsystem model, the result does not require performing nonlinear transformation. Moreover, it is shown and proved that the persistence of the periodic orbits for Hopf bifurcation in the reduced model through center manifold. Van der Pol oscillator circuit is given to illustrate the persistence of bifurcation subsystems with the full dynamic system.展开更多
以电液伺服系统为研究对象,重点探究了非线性摩擦力对系统动态特征的影响规律.根据非线性动力学原理,建立了电液伺服系统的非线性动力学模型.通过理论研究,指出非线性摩擦力作用可以用Van Der Pol方程描述.通过数值试验分析,揭示了系统...以电液伺服系统为研究对象,重点探究了非线性摩擦力对系统动态特征的影响规律.根据非线性动力学原理,建立了电液伺服系统的非线性动力学模型.通过理论研究,指出非线性摩擦力作用可以用Van Der Pol方程描述.通过数值试验分析,揭示了系统内在的分岔现象及典型非线性动力学行为.用非线性动力学研究方法对实测的电液伺服系统的动态数据进行了深入分析,揭示了摩擦力引起的"极限环型振荡"现象.发现摩擦力的非线性作用会引起电液伺服系统在工作过程中发生非线性振动,其对系统动态特征的影响不容忽视,在系统建模与动态特性研究时应该将摩擦力的非线性作用考虑在内.展开更多
基金Project(10672053) supported by the National Natural Science Foundation of ChinaProject(2002AA503010) supported by the National High-Tech Research and Development Program of China
文摘A weakly nonlinear oscillator was modeled by a sort of differential equation, a saddle-node bifurcation was found in case of primary and secondary resonance. To control the jumping phenomena and the unstable region of the nonlinear oscillator, feedback controllers were designed. Bifurcation control equations were obtained by using the multiple scales method. And through the numerical analysis, good controller could be obtained by changing the feedback control gain. Then a feasible way of further research of saddle-node bifurcation was provided. Finally, an example shows that the feedback control method applied to the hanging bridge system of gas turbine is doable.
基金the National Natural Science Foundation of China (60574011)Department of Science and Technology of Liaoning Province (2001401041).
文摘The singularly perturbed bifurcation subsystem is described, and the test conditions of subsystem persistence are deduced. By use of fast and slow reduced subsystem model, the result does not require performing nonlinear transformation. Moreover, it is shown and proved that the persistence of the periodic orbits for Hopf bifurcation in the reduced model through center manifold. Van der Pol oscillator circuit is given to illustrate the persistence of bifurcation subsystems with the full dynamic system.
文摘以电液伺服系统为研究对象,重点探究了非线性摩擦力对系统动态特征的影响规律.根据非线性动力学原理,建立了电液伺服系统的非线性动力学模型.通过理论研究,指出非线性摩擦力作用可以用Van Der Pol方程描述.通过数值试验分析,揭示了系统内在的分岔现象及典型非线性动力学行为.用非线性动力学研究方法对实测的电液伺服系统的动态数据进行了深入分析,揭示了摩擦力引起的"极限环型振荡"现象.发现摩擦力的非线性作用会引起电液伺服系统在工作过程中发生非线性振动,其对系统动态特征的影响不容忽视,在系统建模与动态特性研究时应该将摩擦力的非线性作用考虑在内.