Title
Continuous Control for Fully Damped Mechanical Systems With Input Constraints: Finite-Time and Exponential Tracking
11627/564611627/5646
Author
Zamora Gómez, Griselda Ivone
Zavala Río, Arturo
López Araujo, Daniela Juanita
Cruz Zavala, Emmanuel
Nuño, Emmanuel
Abstract
"A motion continuous control scheme for fully damped mechanical systems with constrained inputs is proposed. It gives the freedom to choose among finite-time and (local) exponential convergence through a simple design parameter. The control objective is achieved from any initial conditions, for desired trajectories that can be physically tracked avoiding actuator saturation and loss of motion error dissipation, globally induced through the aid of the natural damping terms explicitly considered in the open-loop dynamics. The stability analysis is based on a strict Lyapunov function and is formally developed within an appropriate analytical framework that takes into account the time-varying character naturally adopted by the closed loop. Simulation tests are further included."
Publication date
2020Publication type
articleDOI
https://doi.org/10.1109/TAC.2019.2921667Knowledge area
SISTEMAS DE CONTROLPublisher
IEEEKeywords
Lyapunov methodsDamping
Mechanical systems
Stability analysis
Symmetric matrices
Tracking
Trajectory
Input constraints
Motion continuous control
Mechanical systems
Strict Lyapunov function
Uniform finite-time tracking