Bifurcation Analysis of the Permanent Magnet Synchronous Motor Model Under White Gaussian Noises
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摘要: 针对永磁同步电动机(PMSM)模型引入Gauss白噪声,根据极坐标变换和随机平均法得到系统Itô随机微分方程,并计算出系统概率密度函数,通过数值模拟揭示了系统P-分岔的机理.此外,探讨了系统在双参数空间中的复杂动力学,仿真结果表明在参数空间中出现了大量的“鱼”形周期区域,并且这些“鱼”形周期区域不可避免地受到噪声的影响变得紊乱.值得注意的是,从数值模拟结果中发现了一个新的现象,一定的噪声强度下,可以诱导系统在周期振荡区域内的收敛行为,这也表明了噪声对系统影响的双面性.Abstract: The Gaussian white noise was introduced into the permanent magnet synchronous motor (PMSM) model, to obtain the system Itô stochastic differential equation through the polar transformation and with the stochastic average method. Hence, the probability density function of the system was calculated, and the mechanism of the P-bifurcation of the system was revealed through numerical simulation. In addition, the complex dynamics of the system in the 2-parameter space was discussed. The simulation results show that, there are lots of "fish-shaped" periodic regions in the parameter space. The regions become unstable under effects of system noises. It is worth noting that, under noises of a certain intensity, the system dynamics will switch from periodic motion to convergence, indicating the dual nature of the effects of noises on the PMSM system dynamics.
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Key words:
- PMSM /
- Gaussian white noise /
- stochastic average method /
- stochastic bifurcation
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图 1 随噪声强度D变化的联合概率密度图及其俯视图
注 为了解释图中的颜色,读者可以参考本文的电子网页版本,后同.
Figure 1. The joint probability density function with the change of noise intensity D
图 2 不同噪声强度D下的平稳概率密度图
Figure 2. The stationary probability density function with the change of noise intensity D
图 3 不同噪声强度D下的系统分岔图
Figure 3. The bifurcation diagram with the change of noise intensity D
图 4 不同参数平面上的分岔图(左)和Lyapunov指数图(右)
Figure 4. The bifurcation diagram(left) and the Lyapunov exponent diagram (right) in planes with different parameters
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