Application of improved fish school algorithm in variable frequency speed control system

Q4 Engineering
Shanshan Wu , Letao Yu
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引用次数: 0

Abstract

In order to solve the problems of long adjustment time and poor stability of the commonly used speed current variable frequency negative feedback speed control system in engineering, the author proposes an improved fish school algorithm application method in variable frequency speed control systems. A fish swarm algorithm optimized based on the arena method is applied to a variable frequency speed control system, and the optimization algorithm is applied to the speed control system to screen the PI parameters that meet the requirements of the speed control system. The simulation results show that compared with manual parameter tuning, the controller parameters optimized by the improved fish school algorithm have better control performance. In the absence of overshoot starting, the starting time was shortened by 0.21s, and the system response speed was improved. When a sudden load of 6 N m is applied, the speed drop is reduced by 3 r · min−1, and the recovery time is shortened by 0.15 s, resulting in stronger anti-interference performance of the system. Conclusion: The new algorithm shortens the control time and improves the robustness of the system.
改进的鱼群算法在变频调速系统中的应用
为了解决工程中常用的速度电流变频负反馈调速系统调节时间长、稳定性差等问题,作者提出了一种改进的鱼群算法在变频调速系统中的应用方法。将基于竞技场法优化的鱼群算法应用于变频调速系统,并将优化算法应用于调速系统,筛选出符合调速系统要求的 PI 参数。仿真结果表明,与手动参数调整相比,改进的鱼群算法优化的控制器参数具有更好的控制性能。在无过冲启动的情况下,启动时间缩短了 0.21s,系统响应速度得到提高。当突然施加 6 N m 的负载时,速度下降减少了 3 r - min-1,恢复时间缩短了 0.15 s,系统的抗干扰性能更强。结论新算法缩短了控制时间,提高了系统的鲁棒性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Measurement Sensors
Measurement Sensors Engineering-Industrial and Manufacturing Engineering
CiteScore
3.10
自引率
0.00%
发文量
184
审稿时长
56 days
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