Title :
Reliability prediction for self-repairing flight control systems
Author :
Wu, N. Eva ; Chen, Tijian
Author_Institution :
Dept. of Electr. Eng., Binghamton Univ., Binghamton, NY, USA
Abstract :
By using aerodynamically redundant control surfaces, a flight control system can be reconfigured in the event of an actuator failure and/or surface damage. This reliability feature is usually implemented through the use of some impairment detection, isolation and accommodation (IDIA) schemes. A case study is presented for a self-repairing flight control system (SRFCS), for which the probability of loss of control is computed under varying levels of hardware redundancy and varying values of IDIA coverage. Given the conditions peculiar to surface damage and control reconfiguration requirements in our application, a simple formula for obtaining accurate reliability predictions without employing Markov chain models is derived. As a result of the study, we are able to recommend how much performance improvement is needed in designing the SRFCS, and where the hardware redundancy level can be further reduced
Keywords :
aircraft control; probability; redundancy; reliability theory; self-adjusting systems; IDIA; Markov chain models; SRFCS; accurate reliability predictions; actuator failure; aerodynamically redundant control surfaces; control reconfiguration requirements; flight control system reconfiguration; hardware redundancy; impairment accommodation; impairment detection; impairment isolation; reliability prediction; self-repairing flight control systems; surface damage; Actuators; Aerospace control; Circuit faults; Control systems; Degradation; Hardware; Predictive models; Redundancy; Robust control; System performance;
Conference_Titel :
Decision and Control, 1996., Proceedings of the 35th IEEE Conference on
Conference_Location :
Kobe
Print_ISBN :
0-7803-3590-2
DOI :
10.1109/CDC.1996.574271
