Enhancements to an advanced ascent guidance algorithm for rocket-powered launch vehicles are described. A general method has been developed for conveniently and efficiently handling the common case of (asymmetric) launch vehicles with unbalanced thrust and aerodynamic moments. The new part of this development concerns the treatment of endo-atmospheric flight. An alternative method for handing the transversality conditions has been developed that eliminates the need for a priori elimination of the constant multipliers that adjoin the terminal state constraints to the performance index. As a result, new constraints can be formulated and implemented with relative ease. The problem of burn-coast-burn trajectory optimization is treated using a modified multiple shooting technique.
Enhancements to an Atmospheric Ascent Guidance Algorithm
2003
7 pages
Report
No indication
English
Enhancements to an Atmospheric Ascent Guidance Algorithm
AIAA | 2003
|Enhancements to an Atmospheric Ascent Guidance Algorithm
NTRS | 2003
|Closed-Loop Endo-Atmospheric Ascent Guidance
AIAA | 2002
|