PID控制器
控制理论(社会学)
沉降时间
粒子群优化
超调(微波通信)
Delta运算符
计算机科学
直流电动机
控制器(灌溉)
理论(学习稳定性)
数字控制
电子速度控制
控制工程
还原(数学)
采样(信号处理)
阶跃响应
上升时间
离散时间和连续时间
加速
伺服电动机
过程控制
模型降阶
控制系统
相位裕度
工程类
采样时间
设计方法
计算机模拟
作者
Sujay Kumar Dolai,Arindam Mondal,Prasanta Sarkar
标识
DOI:10.1142/s0218126626500076
摘要
This paper presents a discrete delta-domain fractional-order PID (FOPID) controller, tuned using dynamic Particle Swarm Optimization (dPSO), for precise DC motor speed control. The proposed approach directly discretizes the FOPID controller in the delta domain, ensuring improved numerical stability and continuous-time-like performance even at fast sampling rates. The controller is optimized for time-domain criteria and implemented on an Atmega328P microcontroller, with comprehensive validation via both simulation and hardware-in-the-loop (HIL) experiments. Compared with the conventional z-domain FOPID and PID controllers, the delta-domain design achieved up to 60% reduction in overshoot and 40% improvement in settling time, while maintaining steady-state error below 1%. These results confirm the practical viability of advanced digital fractional-order control for real-time industrial applications.
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