Analisis Respon Sistem Kendali LQR (Linear Quadratic Regulator) Pada Simulasi Gimbal Kamera Dua Sumbu

Al-Fiziya: Journal of Materials Science, Geophysics, Instrumentation and Theoretical Physics Pub Date : 2019-06-22 DOI:10.15408/FIZIYA.V2I1.11178

Qalisha Putri Syahna, Elvan Yuniarti, E. Kurniawan

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引用次数: 2

Abstract

Research has been conducted to analyzed the responses of the two axis camera gimbal control system for pitch and roll direction using the Linear Quadratic Regulator (LQR) control system. It focused on the effect from the value of gain Q in calculation of the LQR. The system output was plotted into a step signal so it will be analyzed with transient response method and plotted into sinusoidal signals to find the amplitude value along with the amplitude time. For comparison, the PID control system with the auto-tuning method was also used in this study. It has been done in order to find out whether the LQR control system is more appropriate to use in the two axis camera gimbal system or not. The result from the analysis of the variation of the Q value given at both angles is that the system runs stable when the value of P= 4 for roll angle and P= 6 for pitch angle. For the effect from value of gain Q on the whole system is it will make the output significally changed when the P=1-10. While the results of the comparison can prove that the LQR control system has a better system responses.

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分析双轴万向节模拟的LQR控制系统反应

采用线性二次型调节器(Linear Quadratic Regulator, LQR)控制系统，分析了二轴相机云台控制系统对俯仰和横滚方向的响应。重点讨论了增益Q值对LQR计算的影响。将系统输出绘制成阶跃信号，用暂态响应法对其进行分析，并将其绘制成正弦信号，求出随幅值时间变化的幅值。为了比较，本研究中也采用了带有自整定方法的PID控制系统。为了找出LQR控制系统是否更适合用于二轴相机云台系统，本文进行了研究。分析了两个角度下Q值的变化规律，结果表明，当横摇角P= 4，俯仰角P= 6时，系统运行稳定。增益Q的取值对整个系统的影响是，当P=1-10时，它会使输出发生显著变化。而对比结果可以证明LQR控制系统具有更好的系统响应。

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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Al-Fiziya: Journal of Materials Science, Geophysics, Instrumentation and Theoretical Physics

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