Aircraft vertical profile implementation using directed-graph methods

Author

Brewster, L.T. ; Stigall, P.D.

Author_Institution

Dept. of Electr. Eng. & Comput. Sci., Missouri Univ., Rolla, MO, USA

Volume

24

Issue

6

fYear

1988

Firstpage

682

Lastpage

692

Abstract

Aircraft vertical profile simulation is realized using a demand-driven minimal-calculation directed graph structure to reduce calculation time and to force synchronization of the performance measurement functions with the system state variables. Performance-directed model adaptation makes dynamic vertical profile path corrections, in the presence of fixed drag variations, possible. Drag variations ranging from +10% to -10% yielded fuel consumption improvements of less than 1% in the majority of the cases. Calculation time improvement for path simulation ranges from a factor of 1.19 in the worst case to 1.5 in the best case.<>

Keywords

aerospace computing; aerospace simulation; aircraft; directed graphs; minimisation; aircraft; directed-graph methods; dynamic vertical profile path corrections; fixed drag variations; fuel consumption; performance directed model adaptation; performance measurement functions; synchronization; system state variables; vertical profile simulation; Adaptation model; Aerospace simulation; Aircraft; Calculus; Computational modeling; Costs; Drag; Energy resources; Force measurement; Fuels;

fLanguage

English

Journal_Title

Aerospace and Electronic Systems, IEEE Transactions on

Publisher

ieee

ISSN

0018-9251

Type

jour

DOI

10.1109/7.18635

Filename

18635