The results of a study are presented in which a computerized optimal control techique was applied to the synthesis of a load relief control system for an advanced Saturn 5 derivative launch vehicle. This technique included selection of a load relief control law and computerized optimization of the controller gain schedules for a set of preselected adverse synthetic wind speed profiles. The gain optimization was effected using a hybrid optimizer program to minimize (optimize) a direct performance functional which specified the design goal (load relief) in engineering terms (explicit representation of maximum bending moments)
Active wing load alleviation to extend the wing span by 5.8 percent, giving a 3 percent reduction in...
An analytical study was made of an optimal gust alleviation system that employs a vertical gust sens...
Load relief autopilot to minimize launch vehicle thrust vector deflection angle required for vehicle...
The effectiveness of attitude control laws that are designed to reduce bending moment loads and impr...
Control system optimization for Saturn 5 launch vehicles using gradient technique
The optimization technique is described which was used in the study for applying modern optimal cont...
The hybrid optimization techique for attitude control design is described in detail. The technque is...
Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Aeronautics and Astronautics, 1988.In...
Two problems are presented in the area of optimal control and its application to the design of attit...
Chebyshev minimax solutions for Saturn launch vehicle control problems, and hybrid-analog computer r...
Rigid body load relief and modal suppression control systems for space shuttle vehicle
Optimal sensitivity design techniques to design feedback control system for large, flexible booste
In the design of a launch vehicle attitude control system two factors of major concern are the bendi...
Advances in sensors and avionics computation power suggest real-time structural load measurements co...
Analysis of gust penetration loads and associated elastic vehicle response of Saturn 5 launch vehicl...
Active wing load alleviation to extend the wing span by 5.8 percent, giving a 3 percent reduction in...
An analytical study was made of an optimal gust alleviation system that employs a vertical gust sens...
Load relief autopilot to minimize launch vehicle thrust vector deflection angle required for vehicle...
The effectiveness of attitude control laws that are designed to reduce bending moment loads and impr...
Control system optimization for Saturn 5 launch vehicles using gradient technique
The optimization technique is described which was used in the study for applying modern optimal cont...
The hybrid optimization techique for attitude control design is described in detail. The technque is...
Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Aeronautics and Astronautics, 1988.In...
Two problems are presented in the area of optimal control and its application to the design of attit...
Chebyshev minimax solutions for Saturn launch vehicle control problems, and hybrid-analog computer r...
Rigid body load relief and modal suppression control systems for space shuttle vehicle
Optimal sensitivity design techniques to design feedback control system for large, flexible booste
In the design of a launch vehicle attitude control system two factors of major concern are the bendi...
Advances in sensors and avionics computation power suggest real-time structural load measurements co...
Analysis of gust penetration loads and associated elastic vehicle response of Saturn 5 launch vehicl...
Active wing load alleviation to extend the wing span by 5.8 percent, giving a 3 percent reduction in...
An analytical study was made of an optimal gust alleviation system that employs a vertical gust sens...
Load relief autopilot to minimize launch vehicle thrust vector deflection angle required for vehicle...