Reliability, redundancy, and survivability are key issues as integrated requirements for flight control, fire control, and propulsion control are developed. These integrated control systems require dependable sources of inertial measurement data. Current inertial sensors, however, are expensive to acquire and maintain, dedicated to specific systems, and are not designed to meet integrated control reliability, redundancy, and survivability requirements. The concept uses a minimum number of inertial sensors in a survivable configuration to provide inertial data for flight control, navigation, weapon delivery, cockpit displays, and sensor stabilization. Because of advantages in survivability, life cycle cost, size, and performance, the MFCRS program was initiated to verify, through flight test, the key issues of redundancy management and flight control. A key lesson learned is that integration of inertial data for fire control, flight control, and propulsion control will require close coupling and coordination between functional groups to resolve performance conflicts and compromises. Testing to data has not shown any basic flaws in the multifunction concept.
Design and Development of the Multifunction Flight Control Reference System
1983
10 pages
Report
Keine Angabe
Englisch
Aircraft , Avionics , Fire Control & Bombing Systems , Inertial systems , Control systems , Flight control systems , Aircraft fire control systems , Jet engines , Inertial navigation , Multipurpose , Integrated systems , Symposia , Weapon delivery , Stabilization systems , Data bases , Interfaces , Detectors , Reliability , Redundancy , Errors , Compensation , Life cycle costs , MFCRS(Multifunction Flight Control Reference System) , Inertial detectors , Inertial data , Redundancy management , NATO furnished , Component reports
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