基于海马体模糊神经网络的有源电力滤波器快速积分终端滑模控制OA
Fast Integral Terminal Sliding Mode Control of Active Power Filter Based on Hippocampus-Based Fuzzy Neural Network
[目的]针对有源电力滤波器(active power filter,APF)谐波治理中的电流跟踪难题,提出一种基于海马体模糊神经网络(hippocampus-based fuzzy neural network,HBFNN)的快速积分终端滑模控制(fast integral terminal sliding mode control,FITSMC)策略.[方法]利用FITSMC保障全局鲁棒性与误差有限时间收敛;构建HBFNN在线逼近系统未知动态以突破参数依赖.HBFNN融合海马体机制与模糊理论,通过特征选择剔除冗余,并利用双递归结构增强对时变信号的抗扰性能.[结果]仿真与硬件实验验证表明,所提HBFNN-FITSMC方案可快速精确跟踪谐波电流.仿真中,电网侧电流总谐波失真(total harmonic distortion,THD)从40.30%降至1.25%;硬件实验中,THD从32.73%降至2.96%.与传统方法相比,该策略显著提升了动态响应与稳态精度,并有效抑制了系统抖振.[结论]HBFNN凭借信息筛选与双递归机制,具有更优逼近与抗扰能力,降低了对精确模型的依赖.该方案实现了类脑智能与滑模控制的优势互补,具有显著的工程应用价值.
[Objective]To address the current tracking challenges in the harmonic suppression of active power filters(APF),a fast integral terminal sliding mode control(FITSMC)strategy based on a hippocampus-based fuzzy neural network(HBFNN)is proposed.[Methods]The FITSMC is employed to guarantee global robustness and finite-time convergence of the tracking error.To circumvent the dependence on accurate system parameters,the HBFNN is constructed to approximate unknown system dynamics online.By integrating the hippocampus mechanism with fuzzy theory,the HBFNN eliminates redundancy through feature selection and enhances anti-interference performance against time-varying signals via a double recurrent structure.[Results]Simulation and hardware experiments verify that the proposed HBFNN-FITSMC scheme tracks harmonic currents rapidly and accurately.In simulations,the total harmonic distortion(THD)of the grid-side current decreases from 40.30%to 1.25%,while in hardware experiments,it decreases from 32.73%to 2.96%.Compared with traditional methods,the proposed strategy significantly improves dynamic response and steady-state accuracy,while effectively suppressing system chattering.[Conclusion]By virtue of its information screening and double recurrent mechanism,the HBFNN demonstrates superior approximation and anti-interference capabilities,reducing reliance on precise mathematical models.This scheme achieves the complementary advantages of brain-inspired intelligence and sliding mode control,offering significant value for engineering applications.
侯世玺;徐子茹;罗序军;储云迪;徐挺;史朋飞
河海大学人工智能与自动化学院,南京市 210000河海大学人工智能与自动化学院,南京市 210000河海大学人工智能与自动化学院,南京市 210000河海大学人工智能与自动化学院,南京市 210000国网江苏省电力有限公司苏州供电分公司,江苏省 苏州市 215004河海大学人工智能与自动化学院,南京市 210000
信息技术与安全科学
有源电力滤波器(APF)终端滑模控制快速积分终端滑模控制(FITSMC)海马体模糊神经网络(HBFNN)
active power filter(APF)terminal sliding mode controlfast integral terminal sliding mode control(FITSMC)hippocampus-based fuzzy neural network(HBFNN)
《电力建设》 2026 (5)
65-79,15
This work is supported by National Natural Science Foundation of China(No.62476080),Natural Science Foundation of Jiangsu Province(No.BK20241779)and the Major Science and Technology Project of Yunnan Province(No.202402AF080006).国家自然科学基金项目(62476080)江苏省自然科学基金项目(BK20241779)云南省重大科技专项计划项目(202402AF080006)
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