开关电源鲁棒控制的自适应神经小波系统

H. Bouzari, H. Moradi, E. Bouzari
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引用次数: 4

摘要

本文提出了一种基于小波神经网络的自适应控制器设计方法。提出了一种基于神经小波控制器和鲁棒控制器的控制方法。设计了神经小波控制器来模拟理想控制器,设计了鲁棒控制器来恢复残差近似,以确保稳定的控制性能。根据Lyapunov稳定性定理推导出了自适应律,从而保证了被控系统在没有精确条件或没有先验知识的情况下的稳定性。此外,为了满足小波函数泰勒级数展开式中包含最小逼近误差、最优网络参数和高阶项的聚合不确定性已知界的要求,研究了一种具有自适应界估计的前向开关电源控制系统。此外,数值仿真结果表明,由于周期指令的存在,所提出的系统在参数变化和外部负载阻力干扰下具有鲁棒性。
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Adaptive neuro-wavelet system for the robust control of switching power supplies
In this study, a new method for designing an adaptive controller based on Wavelet Neural Networks, is represented. The proposed controlling method is based on a Neuro-Wavelet controller and a robust controller. The Neuro-Wavelet controller is designed to emulate an ideal controller and a robust controller is designed to recover the residual approximation for ensuring the stable control performance. The adaptive law is derived on the basis of Lyapunov stability theorem, so, the stability of the under controlled system is guaranteed, when no exact condition or no prior knowledge is available. Moreover, to relax the requirement for a known bound on aggregated uncertainty, which comprises a minimum approximation error, optimal network parameters and higher order terms in a Taylor series expansion of the wavelet functions, a system with adaptive bound estimation was investigated for the control of a forward switch mode power supply. In addition, numerical simulation results show that the dynamic behaviors of the proposed systems, due to periodic commands, are robust with regard to parameter variations and external load resistance disturbance.
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