A conceptual baseline design for a highly integrated fault- and damage-tolerant avionics architecture is presented. The architecture is generic in nature, and applicable to a broad range of aircraft types; including CTOL, VTOL, and V/STOL; and all classes from supersonic fighters to transports. The architecture embodies pools of modular resources, configured to flexibly serve required functions on a priority basis. By including system elements which can serve multiple functions and taking maximum advantage of systematic fault-tolerance methods and procedures, the design tends to minimize replication of elements and overall complexity. In concert with logistics and maintenance procedures designed around the pooled modular element approach, the architecture can provide required performance, reliability, damage tolerance, and availability at minimum life-cycle costs. Its inherent flexibility allows it to readily incorporate a wide variety of mission-specific elements and to easily adapt to growth and change as new elements and requirements arise. (Author)
An Integrated Fault-Tolerant Avionics System Concept for Advanced Aircraft
1979
325 pages
Report
No indication
English
Avionics , Aircraft , Naval aircraft , Jet fighters , Transport aircraft , Vertical takeoff aircraft , Short takeoff aircraft , Helicopters , Flight control systems , Navigation , Display systems , Communication equipment , Fault tolerant computing , Integrated systems , Military applications , Maintainability , Modular construction , Life cycle costs
ADVANCED RECONFIGURABLE COMMUNICATIONS, FAULT-TOLERANT AVIONICS
British Library Conference Proceedings | 2002
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