Title
An output-feedback global continuous control scheme with desired gravity compensation for the finite-time and exponential regulation of bounded-input robotic systems
11627/513511627/5135
Author
Zamora Gómez, Griselda Ivone
Zavala Río, Arturo
López Araujo, Daniela Juanita
Nuño, Emmanuel
Cruz Zavala, Emmanuel
Abstract
"A Saturating-Proportional Saturating-Derivative type global continuous control scheme with desired gravity compensation for the finite-time or (local) exponential stabilization of robotic systems with constrained inputs, avoiding velocity variables in the feedback, is presented. The proposed output-feedback controller proves to need a closed-loop analysis with considerably higher degree of complexity, and entail more involved consequent requirements, than in the on-line compensation case. Other analytical limitations are further overcome through the developed algorithm. Simulation tests corroborate the efficiency of the proposed approach."
Publication date
2018Publication type
articleDOI
https://doi.org/10.1016/j.ifacol.2018.11.526Knowledge area
MATEMÁTICASPublisher
International Federation of Automatic ControlKeywords
Robotic systemsOutput feedback
Finite-time stability
Bounded inputs