NMPC controller applied to the operation of an internal combustion engine: formulation and solution of the optimization problem in real time
Archivos
Fecha
2018-02-01
Autores
Chica, J.A.V.
Torres, A.G.D.
Acosta Maya, Diego Andres
Título de la revista
ISSN de la revista
Título del volumen
Editor
Springer-Verlag France
Resumen
Numerical optimization solve problems efficiently where such efficiency is focused on the speed with which the optimal x* is achieved, is open line of research and strong work in the scientific community in order to achieve control systems in dynamic processes with response times of the order of milliseconds. A clear example of this, is the implementation of optimal controller’s combustion engines. For subsequent approach to the design and implementation of nonlinear model predictive control controllers, it has made a comparison of yields algorithms quadratic programming by active set with linearization restrictions, and sequential quadratic programming with single shooting technique to solve quadratic optimization problem formulation referred to a dynamic internal combustion engine of spark ignition, in embedded systems with real-time processing. © 2016, Springer-Verlag France.
Descripción
Palabras clave
Combustion , Combustion equipment , Computer control systems , Embedded systems , Engines , Ignition , Ignition systems , Internal combustion engines , Model predictive control , Optimization , Predictive control systems , Problem solving , Quadratic programming , Real time control , Real time systems , Automotive , Design and implementations , Hard-ware-in-the-loop , Nonlinear model predictive control , Optimal controls , Quadratic optimization problems , Sequential quadratic programming , Simulation , Controllers