Author:
Nguyen Van-Dat,Vo Minh-Tai,Tran Minh-Duc,Dang Quang-Dong,Nguyen Van-Dong-Hai,Nguyen Tu-Duc,Le Thi-Hong-Lam,Nguyen Tran-Minh-Nguyet,Nguyen Thien-Van
Abstract
Rotary Inverted Pendulum (RIP) plays a vital role in control engineering. Rotary Inverted Pendulum is a complex, nonlinear, non-minimum-phase and under-actuated system which has various applications in the field of Robotics. The main contribution of this paper is to design and control RIP by using Linear Quadratic Regulator (LQR) controller for stabilization at vertically upright position - the unstable equilibrium point, and Linear Quadratic Tracker (LQT) controller for tracking the desired trajectory. Besides, stability of the closed-loop system is analyzed for ensuring the reliability of the developed controller. The simulation is carried out in MATLAB/Simulink environment, and the proposed controllers have been tested on Rotary Inverted Pendulum hardware that is designed by authors. The analysis and results conducted on the system demonstrate the performance of the control schemes, including stabilization of unstable equilibrium point, tracking the desired trajectory, and system response showing the robustness and effectiveness of methods.
Publisher
Ho Chi Minh City University of Technology and Education
Reference17 articles.
1. C X Nguyen, Th Tr Tran, Th X Pham, K M Le, "Design of control laws for rotary inverted pendulum based on LQR and Lyapunov function," in IOP Conference Series: Materials Science and Engineering, 2021.
2. N Setiawan and G N P Pratama, "Application of LQR Full-State Feedback Controller for Rotational Inverted Pendulum," in 4th International Conference on Electrical, Electronics, Informatics, and Vocational Education (ICE-ELINVO 2021), Yogyakarta, Indonesia, 2021.
3. Gavtham Hari Kumar B, Vimal E, "Adaptive Dynamic Programming Based Linear Quadratic Regulator Design for Rotary Inverted Pendulum System," NVEO - Natural Volatiles & Essential Oils, vol. 8, no. 5, pp. 3221-3241, 2021.
4. Ishan Chawla and Ashish Singla, "Real-Time Control of a Rotary Inverted Pendulum using Robust LQR-based ANFIS Controller," International Journal of Nonlinear Sciences and Numerical Simulation, vol. 19, no. 3-4, pp. 379-389, 2018.
5. Ishan Chawla & Ashish Singla , "Real-Time Stabilization Control of a Rotary Inverted Pendulum Using LQR-Based Sliding Mode Controller," Arabian Journal for Science and Engineering, vol. 46, p. 2589–2596, 2021.