The feasibility of providing flight control systems with software-managed redundancy is investigated. It is shown that sufficient information can be extracted from aircraft attitude sensors to allow analytic reconstruction of the stability augmentation system (SAS) sensor signals in the event of SAS sensor failures. The sensor signal reconstruction is performed in a deterministic setting by using a Luenberger observer. A simple and efficient design procedure is presented based on Gopinath's [1] work. As an illustrative example, the proposed sensor signal reconstruction technique is exercised on the L-1011 aircraft lateral axis rigid body simulation. It is shown that with an accurate airframe model perfect reconstruction is feasible. In addition, it is also shown via simulation results that with imperfect knowledge of the airframe model (based on standard wind tunnel data), the proposed reconstruction is accurate enough to have a negligible impact on the overall aircraft performance.
Reconstructed Flight Control Sensor Signals Via Luenberger Observers
IEEE Transactions on Aerospace and Electronic Systems ; AES-15 , 2 ; 245-252
01.03.1979
1868033 byte
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Reconstructed flight control sensor signals via Luenberger observers
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