Aircraft control systems are usually very reliable because of redundancy and multiple control surfaces. However, there are rare occasions when potentially disastrous flight control system failures do occur. At such times, the use of appropriate modulation of engine thrust to stabilize the aircraft may be the only chance of survival for the people aboard. In several cases where complete loss of control systems has occurred in multi-engine aircraft, pilots used the propulsion system to regain limited control of the aircraft with various degrees of success. In order to evaluate the feasibility of using only engine thrust modulation for emergency backup flight control, the NASA Dryden Flight Research Center has been conducting a series of analytical studies and flight tests on several different types of aircraft in a propulsion controlled aircraft (PCA) program. Simulation studies have included B-720, B-727, MD-11, C-402, C-17, F-18, and F-15, and flight tests have included B-747, B-777, MD-11, T-39, Lear 24, F-18, F-15, T-38, and PA-30. One objective was to determine the degree of control available with manual manipulation (open-loop) of the engine throttles. Flight tests and simulations soon showed that a closed loop controller could improve the chances of making a safe runway landing. The major work to date has concentrated on three aircraft (F-15, F-18, and the MD-11). Successful landings using PCA controllers were performed on the F-15 and MD-11 without the use of control surfaces. During the course of the research, some unique challenges have been identified. Compared to the conventional flight control surfaces, the engines are slow and have limited control effectiveness. Hence the ability of the system to promptly respond to aerodynamic changes is limited. Consequently, many nonlinear effects, which are easily accommodated by a conventional flight control system, become significant issues in the design of an effective controller when the engines are used as the only control effectors. A number of nonlinear behaviors observed during PCA flight tests, which are not meant to be exhaustive, are reviewed in the next section.


    Access

    Access via TIB

    Check availability in my library


    Export, share and cite



    Title :

    An Investigation of Nonlinear Controller for Propulsion Controlled Aircraft


    Contributors:
    Lu, Ping (author)

    Publication date :

    1997-02-01


    Type of media :

    Report


    Type of material :

    No indication


    Language :

    English





    Propulsion controlled aircraft computer

    Cogan, Bruce R. | NTRS | 2010


    VOLTAGE CONTROLLED AIRCRAFT ELECTRIC PROPULSION SYSTEM

    SCHENK PETER / LODER DAVID / TRAWICK DAVID | European Patent Office | 2022

    Free access


    Voltage controlled aircraft electric propulsion system

    SCHENK PETER / LODER DAVID / TRAWICK DAVID | European Patent Office | 2024

    Free access