An FPGA-based PID controller design for chaos synchronization by evolutionary programming

Yau H.-T.; Pu Y.-C.; Li S.C.

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An FPGA-based PID controller design for chaos synchronization by evolutionary programming

机译：基于FPGA的PID控制器的进化编程实现混沌同步。

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This paper is concerned with the design of a field programmable gate arrays- (FPGAs-) based digital proportional-integral-derivative (PID) controller for synchronization of a continuous chaotic model. By using the evolutionary programming (EP) algorithm, optimal control gains in PID-controlled chaotic systems are derived such that a performance index of integrated absolute error (IAE) is as minimal as possible. To verify the system performance, basic electronic components, including OPA resistor and capacitor elements, were used to implement the chaotic Sprott circuits, and FPGA technology was used to implement the proposed digital PID controller. Numerical and experimental results confirmed the effectiveness of the proposed synchronization procedure.

机译：本文涉及基于现场可编程门阵列（FPGAs）的数字比例积分微分（PID）控制器的设计，该控制器用于连续混沌模型的同步。通过使用进化规划（EP）算法，可以得出PID控制的混沌系统中的最佳控制增益，从而使集成绝对误差（IAE）的性能指标尽可能最小。为了验证系统性能，使用了包括OPA电阻和电容器元件在内的基本电子组件来实现混沌Sprott电路，并使用FPGA技术来实现所提出的数字PID控制器。数值和实验结果证实了所提出的同步程序的有效性。

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《Discrete dynamics in nature and society》 |2011年第2期|共11页
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Yau H.-T.; Pu Y.-C.; Li S.C.;
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正文语种 eng
中图分类数学模拟、近似计算;
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1. An FPGA-based PID controller design for chaos synchronization by evolutionary programming [J] . Yau H.-T., Pu Y.-C., Li S.C. Discrete dynamics in nature and society . 2011,第Pta2期

机译：基于FPGA的PID控制器的进化编程实现混沌同步。
2. An FPGA-Based PID Controller Design for Chaos Synchronization by Evolutionary Programming [J] . Her-TerngYau, Yu-ChiPu, Simon CiminLi Discrete dynamics in nature and society . 2011,第3期

机译：基于FPGA的PID控制器的进化混沌同步设计。
3. Design and Implement of a Digital PID Controller for a Chaos Synchronization System by Evolutionary Programming [J] . Chao Lin Kuo, Her Terng Yau, Yu Chi Pu Journal of Applied Sciences . 2008,第13期

机译：进化编程的混沌同步系统数字PID控制器的设计与实现
4. Optimal design of the grey prediction PID controller for power system stabilizers by evolutionary programming [C] . Chien-Ying Li, Tsong-Liang Huang . 2004

机译：基于进化规划的电力系统稳定器灰色预测PID控制器的优化设计。
5. Analysis, design and application of nonlinear observer and chaos synchronization. [D] . Liang, Yu. 2009

机译：非线性观测器与混沌同步的分析，设计与应用。
6. Cuckoo-PC: An Evolutionary Synchronization-Aware Placement of SDN Controllers for Optimizing the Network Performance in WSNs [O] . Shirin Tahmasebi, Mohadeseh Safi, Somayeh Zolfi, 2020

机译：Cuckoo-PC：用于优化WSN中网络性能的SDN控制器的进化同步感知布局
7. Design and Implement of a Digital PID Controller for a Chaos Synchronization System by Evolutionary Programming [O] . Chao Lin Kuo, Her Terng Yau, Yu Chi Pu 2008

机译：通过进化编程设计和实现混沌同步系统的数字PID控制器
8. Synchronized Chaos and Spatiotemporal Chaos in Arrays of Coupled Lasers [R] . Winful, H. G., Rahman, L. 1990

机译：耦合激光阵列中的同步混沌和时空混沌

An FPGA-based PID controller design for chaos synchronization by evolutionary programming

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