Dendritic Cell Mechanism for Aircraft Immunity-based Failure Detection and Identification

D. Al Azzawi, Hever Moncayo, M. G. Perhinschi

Research output: Contribution to conferencePresentation

Abstract

The biological dendritic cells perform a complex activation/suppression role in the generation, direction, and control of antibodies. Their action relies on balancing information regarding the external antigen type, amount, and virulence, as well as the state and resources of the host organism. In this paper, an information processing algorithm inspired by the functionality of the dendritic cells is proposed to enhance aircraft subsystem abnormal condition detection and identification, within the artificial immune system paradigm. A hierarchical multi-self strategy is used to produce multiple failure detection and identification outcomes at each sample time over a time window. The artificial dendritic cell is defined as a computational unit that centralizes, fuses, and interprets this information to decide upon a unique detection and identification outcome with reduced false alarms and low number of incorrect identifications. A mathematical formulation of the concept and a detailed implementation algorithm are provided. The proposed methodology is demonstrated using simulation data for a supersonic fighter from a motion-based flight simulator. 
Original languageAmerican English
DOIs
StatePublished - Aug 2013
EventAIAA Guidance, Navigation, and Control (GNC) Conference 2013 - Boston, MA
Duration: Aug 1 2013 → …

Conference

ConferenceAIAA Guidance, Navigation, and Control (GNC) Conference 2013
Period8/1/13 → …

Keywords

  • Abnormal condition detections
  • Aircraft subsystems
  • Artificial Immune System
  • Computational units
  • Flight simulators
  • Identification (control systems)

Disciplines

  • Aeronautical Vehicles
  • Systems Engineering and Multidisciplinary Design Optimization

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