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Proceedings Paper

Mathematical treatment of aircraft maneuvers
Author(s): Dai Hyun Kim; Andrew A. Kostrzewski; Sookwang Ro; Wenjian Wang; Gajendra D. Savant; Daniel A. Erwin; Michael P. Snow
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Paper Abstract

This work addresses the problem faced by an aircraft that is off its nominal flight path. The goal is to find the optimal trajectory to safely and efficiently return the aircraft to its proper path in rugged terrain. The authors approach to this problem is to consider the space of possible trajectories as a series of linked maneuvers, so that a particular trajectory can be described by the ordered list of parameters specifying the maneuvers. A penalty function is minimized with respect to variations of the maneuver parameter list. The work considered trajectories of up to three straight flight segments linked by turns. The penalty function includes terms penalizing elapsed time for the measure, distance climbed, and closest approach to the ground as well as distance from the nominal flight path at the end of the maneuver. Minimization is performed by means of an adaptive fuzzy-logic-enhanced genetic algorithm.

Paper Details

Date Published: 7 July 2000
PDF: 8 pages
Proc. SPIE 4025, Acquisition, Tracking, and Pointing XIV, (7 July 2000); doi: 10.1117/12.391657
Show Author Affiliations
Dai Hyun Kim, Physical Optics Corp. (United States)
Andrew A. Kostrzewski, Physical Optics Corp. (United States)
Sookwang Ro, Physical Optics Corp. (United States)
Wenjian Wang, Physical Optics Corp. (United States)
Gajendra D. Savant, Physical Optics Corp. (United States)
Daniel A. Erwin, Univ. of Southern California (United States)
Michael P. Snow, Air Force Research Lab. (United States)


Published in SPIE Proceedings Vol. 4025:
Acquisition, Tracking, and Pointing XIV
Michael K. Masten; Larry A. Stockum, Editor(s)

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