A Space Shuttle ascent trajectory optimization problem from lift-off to orbital insertion is solved with a function space version of a quasi-Newton parameter optimization method developed by Broyden. The problem includes five parameter and one bounded-function controls, two state-variable constraints, and four terminal conditions. The bounded controls are treated directly, while the remaining constraints are adjoined to the performance index (maximum payload) with penalty functions. The problem is formulated as a four-phase variational problem (liftoff, pitch-over, gravity-turn, linear tangent steering), and the appropriate gradients are developed by first variation theory. A projection operator is introduced to aid in the interpretation of the algorithm with mixed parameter and function controls.
Shuttle ascent trajectory optimization with function space quasi-Newton techniques
Mechanics and Control of Flight Conference ; 1974 ; Anaheim, CA
1974-08-01
Conference paper
No indication
English
Tema Archive | 1989
|SAE Technical Papers | 1989
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