Open AccessIn-Flight Suppression of a Destabilized F/A-18 Structural Mode Using the Space Launch System Adaptive Augmenting Control System
Author(s) -
John H. Wall,
C. J. Miller,
Curtis E. Hanson,
Tannen S. Van Zwieten,
Jeb S. Orr,
Eric T. Gilligan
Publication year - 2015
Publication title -
aiaa guidance, navigation and control conference
Language(s) - English
Resource type - Conference proceedings
DOI - 10.2514/6.2015-1775
Subject(s) - launch vehicle , aerospace engineering , mode (computer interface) , control system , space launch , computer science , control theory (sociology) , space (punctuation) , control (management) , aeronautics , engineering , electrical engineering , artificial intelligence , operating system
NASA's Space Launch System (SLS) Flight Control System (FCS) includes an Adaptive Augmenting Control (AAC) component which employs a multiplicative gain update law to enhance the performance and robustness of the baseline control system for extreme off nominal scenarios. The SLS FCS algorithm including AAC has been flight tested utilizing a specially outfitted F/A-18 fighter jet in which the pitch axis control of the aircraft was performed by a Non-linear Dynamic Inversion (NDI) controller, SLS reference models, and the SLS flight software prototype. This paper describes test cases from the research flight campaign in which the fundamental F/A-18 airframe structural mode was identified using frequency-domain reconstruction of flight data, amplified to result in closed loop instability, and suppressed in-flight by the SLS adaptive control system.
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