A methodology for model-independant controller design for controlling large angular motion of multi-body dynamic systems is outlined. The controlled system may consist of rigid and flexible components that undergo large rigid body motion and small elastic deformations. Control forces/torques are applied to drive the system and at the same time suppress the vibration due to flexibility of the components. The proposed controller consists of passive second-order systems which may be designed with little knowledge of the system parameter, even if the controlled system is nonlinear. Under rather general assumptions, the passive design assures that the closed loop system has guaranteed stability properties. Unlike positive real controller design,...
A flexible structure was modeled and actively controlled by using a single space realizable linear p...
Two proposed control system design techniques for active vibration control in flexible space structu...
This paper presents a control method based on virtual passive dynamic control that will stabilize a ...
A robust controller design is presented for second-order dynamic systems. The controller is model-in...
Due to inherent nonlinearity, the control of mechanical systems dictates the use of nonlinear techni...
© American Society of Mechanical EngineersThe flexibility of the drives and structures of controlled...
The control of flexible spacecraft is a difficult problem because of large number of elastic modes; ...
The problem of controlling a class of nonlinear multibody flexible space systems consisting of a fle...
A control system design approach for flexible spacecraft is presented. The control system design is ...
A generic nonlinear math model of a multibody flexible system is developed. Asymptotic stability of ...
This paper combines the nonlinear Udwadia-Kalaba control approach with the Assumed Mode Method to mo...
The dynamics of a flexible space manipulator is highly coupled and complex, since it depends on orbi...
With the advances made in computer technology and efficiency of numerical algorithms over last decad...
A method for designing nonlinear Þxed-order (i.e. full- and reduced-order) dynamic passive controlle...
In this paper a novel nonlinear controller for position and vibration control of flexible-link mecha...
A flexible structure was modeled and actively controlled by using a single space realizable linear p...
Two proposed control system design techniques for active vibration control in flexible space structu...
This paper presents a control method based on virtual passive dynamic control that will stabilize a ...
A robust controller design is presented for second-order dynamic systems. The controller is model-in...
Due to inherent nonlinearity, the control of mechanical systems dictates the use of nonlinear techni...
© American Society of Mechanical EngineersThe flexibility of the drives and structures of controlled...
The control of flexible spacecraft is a difficult problem because of large number of elastic modes; ...
The problem of controlling a class of nonlinear multibody flexible space systems consisting of a fle...
A control system design approach for flexible spacecraft is presented. The control system design is ...
A generic nonlinear math model of a multibody flexible system is developed. Asymptotic stability of ...
This paper combines the nonlinear Udwadia-Kalaba control approach with the Assumed Mode Method to mo...
The dynamics of a flexible space manipulator is highly coupled and complex, since it depends on orbi...
With the advances made in computer technology and efficiency of numerical algorithms over last decad...
A method for designing nonlinear Þxed-order (i.e. full- and reduced-order) dynamic passive controlle...
In this paper a novel nonlinear controller for position and vibration control of flexible-link mecha...
A flexible structure was modeled and actively controlled by using a single space realizable linear p...
Two proposed control system design techniques for active vibration control in flexible space structu...
This paper presents a control method based on virtual passive dynamic control that will stabilize a ...