This paper presents a partial evaluation on the use of singular perturbation methods for developing computer algorithms for on-line optimal control of aircraft. The evaluation is based on a study of the minimum time intercept problem using F-4 aerodynamic and propulsion data as a base line. The extensions over previous work on this subject are that aircraft turning dynamics (in addition to position and energy dynamics) are included in the analysis, the algorithm is developed for a moving end point and is adaptive to unpredictable target maneuvers, and short range maneuvers that do not have a cruise leg are included. Particular attention is given to identifying those quantities that can be precomputed and stored (as a function of aircraft total energy), thus greatly reducing the onboard computational load. Numerical results are given that illustrate the nature of the optimal intercept flight paths, and an estimate is given for the execution time and storage requirements of the control algorithm.
Singular perturbation techniques for on-line optimal flight path control
Atmospheric Flight Mechanics Conference for Future Space Systems ; 1979 ; Boulder, CO
01.01.1979
Sonstige
Keine Angabe
Englisch
On applications of singular perturbation techniques in nonlinear optimal control
Tema Archiv | 1983
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