Abstract. A multicriterion design problem for optimal maneuverabil-ity and fault tolerance of flexible spacecraft is considered. The maneu-verability index reflects the time required to perform rest-to-rest attitude maneuvers for a given set of angles, with the postmaneuver spillover within a specified bound. The performance degradation is defined to reflect the maximum possible attitude error after maneuver due to the effect of faults. The fault-tolerant design is to minimize the worst performance degradation from all admissible faults by adjusting the design of the spacecraft. It is assumed that admissible faults can be specified by a vector of real parameters. The multicriterion design for optimal maneuverability and fault tolerance is s...
International audienceThe goal pursued by this article, is to evaluate the potential of sliding-mode...
A solution of a spacecraft optimal control problem, whose cost function relies on an attitude descri...
This thesis explores concepts for a closed-loop optimal control implementation of minimum-time attit...
A multicriterion design problem for optimal maneuverability and fault tolerance of flexible spacecra...
A multicriterion design problem for optimal maneuverability and fault tolerance of flexible spacecra...
This dissertation develops a theoretical and practical framework for solving problems of optimal str...
This paper treats the problem of the combined design of structure/control systems for achieving opti...
An active fault tolerant controller is designed for the attitude control of a faulty spacecraft. Fee...
Future spacecraft are expected to achieve highly accurate pointing, fast slewing from large initial ...
This paper proposes a novel velocity-free nonlinear proportional-integral (PI) control allocation sc...
This paper proposes a novel velocity-free nonlinear proportional-integral (PI) control allocation sc...
Fault tolerant control (FTC) designs that deal with control surface faults while handling undesirabl...
Spacecraft perform a variety of useful tasks in our day-to-day life. These are such that spacecraft ...
Spacecraft operate in a harsh environment, are costly to launch, and experience unavoidable communic...
Modern space missions for Earth Observation (EO) purposes often rely on satellites equipped with ver...
International audienceThe goal pursued by this article, is to evaluate the potential of sliding-mode...
A solution of a spacecraft optimal control problem, whose cost function relies on an attitude descri...
This thesis explores concepts for a closed-loop optimal control implementation of minimum-time attit...
A multicriterion design problem for optimal maneuverability and fault tolerance of flexible spacecra...
A multicriterion design problem for optimal maneuverability and fault tolerance of flexible spacecra...
This dissertation develops a theoretical and practical framework for solving problems of optimal str...
This paper treats the problem of the combined design of structure/control systems for achieving opti...
An active fault tolerant controller is designed for the attitude control of a faulty spacecraft. Fee...
Future spacecraft are expected to achieve highly accurate pointing, fast slewing from large initial ...
This paper proposes a novel velocity-free nonlinear proportional-integral (PI) control allocation sc...
This paper proposes a novel velocity-free nonlinear proportional-integral (PI) control allocation sc...
Fault tolerant control (FTC) designs that deal with control surface faults while handling undesirabl...
Spacecraft perform a variety of useful tasks in our day-to-day life. These are such that spacecraft ...
Spacecraft operate in a harsh environment, are costly to launch, and experience unavoidable communic...
Modern space missions for Earth Observation (EO) purposes often rely on satellites equipped with ver...
International audienceThe goal pursued by this article, is to evaluate the potential of sliding-mode...
A solution of a spacecraft optimal control problem, whose cost function relies on an attitude descri...
This thesis explores concepts for a closed-loop optimal control implementation of minimum-time attit...