多频波动线谱自适应控制算法及试验

研究了多频波动线谱激励下的主动隔振控制问题,提出一种改进小波包自适应控制算法.传统的自适应算法难以同时控制多线谱,当线谱存在频率波动时,窄带滤波算法难以取得理想的控制效果.因此,将小波包分解算法应用在控制算法中,对信号进行等间距频带划分,采取并行控制策略完成多线谱控制.分析了不同小波基函数对信号分解的影响,确定最优小波基.针对虚有线谱和子频带过多导致的控制过盈问题,改进小波包分解算法,降低了计算量,消除子频带中虚有线谱.为每个子频带设置独立步长,并根据箕舌线函数修正迭代步长.搭建控制系统开展试验研究,结果表明,本文所提改进小波包自适应算法在多频波动线谱激励下能够取得良好的控制效果,线谱振动能量显著降低.

Adaptive control algorithm of multi-frequency fluctuating line spectra and experiment

The active vibration isolation control problem under multi-frequency fluctuant line spectrum excitation was studied, and an improved wavelet packet adaptive control algorithm was proposed. It was difficult for traditional adaptive algorithms to control multi-frequency line spectra at the same time. Narrowband filtering algorithms also could not achieve good effect under fluctuant frequency excitation. Therefore, the wavelet packet decomposition algorithm was introduced to the control algorithm to divide the signal into equally spaced frequency bands. And then, a parallel control strategy was adopted to control multi-frequency line spectrum. The influence of different wavelet basis functions on signal decomposition was analyzed, and the optimal wavelet basis was determined. Aimed at the problems caused by the virtual line spectrum and too many sub-bands, the wavelet packet decomposition algorithm was improved to reduce the calculation amount and eliminate the virtual line spectrum in the sub-band. An independent step size was set for each sub-band, and modified according to the tongue-line function. The control system was build to carry out experiment. The results showed that the improved wavelet packet adaptive algorithm proposed in this paper can achieve good control effect under multi-frequency fluctuant line spectrum excitation, and the vibration energy of line spectrum was significantly reduced.