This paper proposes an integrated fault detection, diagnosis, and reconfigurable control method for attitude tracking of a spacecraft. A novel IMM algorithm, based on the unscented Kalman filter and an index related to the closed-loop system performance, is presented to detect and diagnose the faults. To achieve steady attitude tracking, the sliding mode variable structure controller is designed. When a fault is detected and isolated, the controller structure is reconfigured to compensate the faulty system to maintain the system performance. A simulation example evaluating the attitude tracking process is employed, which demonstrates the efficiency of the proposed approach
Two fault-tolerant control (FTC) schemes for spacecraft attitude stabilization with external disturb...
For spacecraft attitude control system, we consider the aircraft's control surface deflection positi...
In this paper, the problem of active fault tolerant control for a reusable launch vehicle (RLV) with...
This paper proposes an integrated fault detection, diagnosis, and reconfigurable control method for ...
Spacecraft perform a variety of useful tasks in our day-to-day life. These are such that spacecraft ...
This paper designs an active fault-tolerant control system for spacecraft attitude control in the pr...
AbstractA fault tolerant control (FTC) design technique against actuator stuck faults is investigate...
Spacecraft systems need increased on board autonomy to detect the occurred faults (e.g., faults in ...
This paper presents preliminary results regarding the development of a supervision scheme for the a...
This paper presents preliminary results regarding the development of a supervision scheme for the a...
This paper presents an Attitude Active Fault Tolerant Control for satellite. The proposed fault tole...
This paper focuses on the potential actuator failures of spacecraft in practical engineering applica...
Reference trajectory management is a method to modify reference trajectories for the faulty system. ...
An actuator fault-tolerant attitude control was reported. Two kinds of spacecraft actuator failures ...
This paper investigates the fault diagnosis problem for satellite attitude control system with using...
Two fault-tolerant control (FTC) schemes for spacecraft attitude stabilization with external disturb...
For spacecraft attitude control system, we consider the aircraft's control surface deflection positi...
In this paper, the problem of active fault tolerant control for a reusable launch vehicle (RLV) with...
This paper proposes an integrated fault detection, diagnosis, and reconfigurable control method for ...
Spacecraft perform a variety of useful tasks in our day-to-day life. These are such that spacecraft ...
This paper designs an active fault-tolerant control system for spacecraft attitude control in the pr...
AbstractA fault tolerant control (FTC) design technique against actuator stuck faults is investigate...
Spacecraft systems need increased on board autonomy to detect the occurred faults (e.g., faults in ...
This paper presents preliminary results regarding the development of a supervision scheme for the a...
This paper presents preliminary results regarding the development of a supervision scheme for the a...
This paper presents an Attitude Active Fault Tolerant Control for satellite. The proposed fault tole...
This paper focuses on the potential actuator failures of spacecraft in practical engineering applica...
Reference trajectory management is a method to modify reference trajectories for the faulty system. ...
An actuator fault-tolerant attitude control was reported. Two kinds of spacecraft actuator failures ...
This paper investigates the fault diagnosis problem for satellite attitude control system with using...
Two fault-tolerant control (FTC) schemes for spacecraft attitude stabilization with external disturb...
For spacecraft attitude control system, we consider the aircraft's control surface deflection positi...
In this paper, the problem of active fault tolerant control for a reusable launch vehicle (RLV) with...