AbstractThere is proposed an adaptive sliding controller in task space on the base of the linear Newton-Euler dynamic equation of motion platform in a six-DOF flight simulator. The uncertain parameters are divided into two groups: the constant and the time-varying. The controller identifies constant uncertain parameters using nonlinear adaptive controller associated with elimination of the influences of time-varying uncertain parameters and compensation of the external disturbance using sliding control. The results of numerical simulation attest to the capability of this control scheme not only to, with deadly accuracy, identify parameters of motion platform such as load, inertia moments and mass center, but also effectively improve the rob...
Este trabalho apresenta o desenvolvimento e as análises de técnicas de controle aplicadas a uma base...
Shape and vibration control of a linear flexible structure by means of a new type of inertial slip-s...
peer reviewedThis paper develops a new methodology for robust control of uncertain nonlinear systems...
AbstractThere is proposed an adaptive sliding controller in task space on the base of the linear New...
The purpose of this study is to apply inverse dynamics control for a six degree of freedom flight si...
An algorithm for the control of a six degree of freedom motion simulation platform is developed. Th...
AbstractLow-velocity tracking capability is a key performance of flight motion simulator (FMS), whic...
Adaptive position tracking control of electro-hydraulic six-degree-of-freedom driving simulator subj...
This paper describes a fault-tolerant sliding-mode control allocation scheme capable of coping with ...
The purpose of this study is to apply robust inverse dynamics control for a six-degree-of-freedom fl...
The aerospace electro-hydraulic servo simulator is used to simulate the air load received during fli...
This paper proposes a novel control framework that combines the recently reformulated incremental no...
This study covers the sliding mode control design with adaptive sliding surfaces for a class of affi...
This work proposes a robust terminal sliding mode control scheme on Lie group space SE(3) for Gough–...
According to the requirements of the ground experiment table which is designed to simulate the lunar...
Este trabalho apresenta o desenvolvimento e as análises de técnicas de controle aplicadas a uma base...
Shape and vibration control of a linear flexible structure by means of a new type of inertial slip-s...
peer reviewedThis paper develops a new methodology for robust control of uncertain nonlinear systems...
AbstractThere is proposed an adaptive sliding controller in task space on the base of the linear New...
The purpose of this study is to apply inverse dynamics control for a six degree of freedom flight si...
An algorithm for the control of a six degree of freedom motion simulation platform is developed. Th...
AbstractLow-velocity tracking capability is a key performance of flight motion simulator (FMS), whic...
Adaptive position tracking control of electro-hydraulic six-degree-of-freedom driving simulator subj...
This paper describes a fault-tolerant sliding-mode control allocation scheme capable of coping with ...
The purpose of this study is to apply robust inverse dynamics control for a six-degree-of-freedom fl...
The aerospace electro-hydraulic servo simulator is used to simulate the air load received during fli...
This paper proposes a novel control framework that combines the recently reformulated incremental no...
This study covers the sliding mode control design with adaptive sliding surfaces for a class of affi...
This work proposes a robust terminal sliding mode control scheme on Lie group space SE(3) for Gough–...
According to the requirements of the ground experiment table which is designed to simulate the lunar...
Este trabalho apresenta o desenvolvimento e as análises de técnicas de controle aplicadas a uma base...
Shape and vibration control of a linear flexible structure by means of a new type of inertial slip-s...
peer reviewedThis paper develops a new methodology for robust control of uncertain nonlinear systems...