This study presents a simulation-based investigation into the application of a Cascade Proportional-Integral-Derivative (PID) combined with Linear Quadratic Regulator (LQR) control scheme for managing the complexities of a Nonlinear Flexible Canvas Wallet Inverted Pendulum System (NFIPS).The NFIPS, characterized by nonlinear dynamics and structural flexibility, demands a sophisticated control strategy to achieve stable and precise performance.The proposed Cascade PID-LQR scheme integrates the advantages of PID for addressing nonlinearities and LQR for optimizing linearized dynamics.Through comprehensive simulations, the effectiveness of the Stick proposed control scheme is evaluated, emphasizing its potential in enhancing stability, response speed, and robustness.
The study contributes valuable insights into the application of advanced control methodologies in handling nonlinear and flexible systems, paving the way for further exploration and practical implementations in related domains such as robotics and mechatronics.