Title :
Decentralized Fault-Tolerant Control for Satellite Attitude Synchronization
Author :
Li, Junquan ; Kumar, Krishna Dev
Author_Institution :
Dept. of Aerosp. Eng., Ryerson Univ., Toronto, ON, Canada
fDate :
6/1/2012 12:00:00 AM
Abstract :
This paper presents a decentralized adaptive fuzzy approximation design to achieve attitude tracking control for formation flying in the presence of external disturbances and actuator faults. A nonsingular fast terminal sliding mode controller that is based on consensus theory is designed for distributed cooperative attitude synchronization. It solves synchronization issues between multiple satellites by information topology. In the proposed control scheme, a fuzzy logic system (FLS) is introduced to approximate unknown individual satellite attitude dynamics due to actuator faults. In order to achieve fault management without the involvement of ground-station operators, the proposed control laws do not require an explicit fault detection and isolation mechanism. Numerical simulation results including actuator dynamics and initial condition uncertainties show that the proposed strategy with FLS can compensate for a fault. The system continues to operate after wheel faults, and the closed-loop distributed tracking control system is stochastically stable.
Keywords :
actuators; adaptive control; approximation theory; artificial satellites; attitude control; closed loop systems; control system synthesis; decentralised control; fault tolerance; fuzzy control; stability; synchronisation; variable structure systems; actuator fault; attitude tracking control; closed-loop distributed tracking control system; consensus theory; decentralized adaptive fuzzy approximation design; decentralized fault-tolerant control; distributed cooperative attitude synchronization; external disturbance; fault detection mechanism; fault isolation mechanism; formation flying; fuzzy logic system; information topology; nonsingular fast terminal sliding mode controller; numerical simulation; satellite attitude dynamics; satellite attitude synchronization; stochastic stability; Angular velocity; Attitude control; Quaternions; Satellites; Space vehicles; Torque; Wheels; Consensus; fault-tolerant control (FTC); fuzzy logic system (FLS); sliding mode control (SMC);
Journal_Title :
Fuzzy Systems, IEEE Transactions on
DOI :
10.1109/TFUZZ.2011.2180391
