Delays compensation for an atmospheric sliced tomatoes dehydration process via state predictors
DOI10.1016/j.jfranklin.2019.09.036zbMath1427.93195OpenAlexW2977197756MaRDI QIDQ2278969
Sabine Mondié, José-Carlos Carmona-Rosas, Omar-Jacobo Santos-Sánchez, Liliam Rodríguez-Guerrero
Publication date: 12 December 2019
Published in: Journal of the Franklin Institute (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.jfranklin.2019.09.036
Feedback control (93B52) Stabilization of systems by feedback (93D15) Linear systems in control theory (93C05) Control problems for functional-differential equations (34K35) Control/observation systems governed by ordinary differential equations (93C15)
Cites Work
- Predictor-based controls: the implementation problem
- Robust stability of dynamic predictor based control laws for input and state delay systems
- Truncated predictor feedback for linear systems with long time-varying input delays
- An extension of the prediction scheme to the case of systems with both input and state delay
- Simultaneous compensation of input and state delays for nonlinear systems
- Robust prediction-based control for unstable delay systems: Application to the yaw control of a mini-helicopter
- The stability of solutions of linear differential equations
- Robust output regulation of linear time-delay systems: A state predictor approach
- Finite spectrum assignment problem for systems with delays
- Linear systems with delayed controls: A reduction
- Limitations of a class of stabilization methods for delay systems
- Mapping Based Algorithm for Large-Scale Computation of Quasi-Polynomial Zeros
- Truncated Predictor Feedback for Time-Delay Systems
- Unnamed Item
- Unnamed Item
- Unnamed Item
This page was built for publication: Delays compensation for an atmospheric sliced tomatoes dehydration process via state predictors
