Sub-Optimal Stabilizers of the Pendubot Using Various State Space Representations

Abstract: This paper considers the issue of linear-quadratic regulator (LQR) design for nonlinear systems with the use of smooth state and input transformations. The proposed design methodology is considered in the stabilisation task of the Pendubot, which is based on the concept of feedback equivalent control systems. It turns out that it is possible to find a controller that ensures comparable dynamics of the closed-loop system in the vicinity of the set point regardless of the state-space representation adopted. In a… Show more

“…Despite their relatively simple mechanical structure, they represent a challenge to the nonlinear control community. This has given rise to a number of studies devoted to control design and stability analyses for particular classes of nonlinear UMSs, such as the essential overview in [3]; the relevant books [1,4]; and several recent distinct publications, e.g., [5][6][7].…”

Tracking Control of Unforced and Forced Equilibrium Positions of the Pendubot System: A Nonlinear MHE and MPC Approach

“…Despite their relatively simple mechanical structure, they represent a challenge to the nonlinear control community. This has given rise to a number of studies devoted to control design and stability analyses for particular classes of nonlinear UMSs, such as the essential overview in [3]; the relevant books [1,4]; and several recent distinct publications, e.g., [5][6][7].…”

Tracking Control of Unforced and Forced Equilibrium Positions of the Pendubot System: A Nonlinear MHE and MPC Approach

Application of Control Scheme for Trajectory Tracking of Hovercraft and Indoor Airship