ABSTRACT. Due to modern day aircrafts evolution, requirements for flight control laws are more and more numerous and varied. For that reason, control laws designers need now to use multiobjectives synthesis techniques. We then choose to develop to solve today aircraft issue. The whole designed procedure use: first H1 to compute an initial stabilizing controller, then Q- parametrization to introduce the design shapping, convex synthesis to optimize the controller with respect to the requirements set, robust modal control to produce a performing and reduced order controller, and last observer state feedback controller interpolation for gain scheduling
Bu çalışma ile, verilen bir kontrolcü yapısı için çelişen hedeflerin aynı anda sağlanabileceği kontr...
Next generation of civil transport aircraft is likely to be a radical change in overall configuratio...
This contribution discusses a novel approach to design of robust controllers explicitly taking into ...
Flight control law design is a multi-variable control problem where various strict requirements from...
Target Feedback Loop / Loop Transfer Recovery (TFL/LTR) synthesis and multiobjective optimization ar...
La prochaine génération d’avions civil sera probablement une révolution en termede configuration d’a...
The aim of this work is to demonstrate the capabilities of evolutionary methods in the design of rob...
Abstract: This paper presents the robust multi-objective design of a lateral feedback control law fo...
The design of flight control laws (FCLs) for automatic and manual (augmented) control of aircraft is...
This article presents a methodology for a linear parameter-varying (LPV) multiobjective flight contr...
The application of multiobjective optimization to the design of longitudinal automatic-landing contr...
In the course of the FaUSST project scope, a versatile and flexible method for the synthesis of flig...
This article presents a methodology for a linear parameter-varying (LPV) multiobjective §ight contro...
The Multiple Simultaneous Specification controller design method is an elegant means of designing a ...
A multi-model multi-criteria vector optimisation technique based on the minimisation of the Kreissel...
Bu çalışma ile, verilen bir kontrolcü yapısı için çelişen hedeflerin aynı anda sağlanabileceği kontr...
Next generation of civil transport aircraft is likely to be a radical change in overall configuratio...
This contribution discusses a novel approach to design of robust controllers explicitly taking into ...
Flight control law design is a multi-variable control problem where various strict requirements from...
Target Feedback Loop / Loop Transfer Recovery (TFL/LTR) synthesis and multiobjective optimization ar...
La prochaine génération d’avions civil sera probablement une révolution en termede configuration d’a...
The aim of this work is to demonstrate the capabilities of evolutionary methods in the design of rob...
Abstract: This paper presents the robust multi-objective design of a lateral feedback control law fo...
The design of flight control laws (FCLs) for automatic and manual (augmented) control of aircraft is...
This article presents a methodology for a linear parameter-varying (LPV) multiobjective flight contr...
The application of multiobjective optimization to the design of longitudinal automatic-landing contr...
In the course of the FaUSST project scope, a versatile and flexible method for the synthesis of flig...
This article presents a methodology for a linear parameter-varying (LPV) multiobjective §ight contro...
The Multiple Simultaneous Specification controller design method is an elegant means of designing a ...
A multi-model multi-criteria vector optimisation technique based on the minimisation of the Kreissel...
Bu çalışma ile, verilen bir kontrolcü yapısı için çelişen hedeflerin aynı anda sağlanabileceği kontr...
Next generation of civil transport aircraft is likely to be a radical change in overall configuratio...
This contribution discusses a novel approach to design of robust controllers explicitly taking into ...