Add to ORKGThe effectiveness of attitude control laws that are designed to reduce bending moment loads and improve the controllability of large Saturn class boosters is discussed. These laws are referred to as load relief control systems. The two factors are assessed by simulations of varying degrees of complexity, from 2-D rigid body to 6-D with flexible body. A load relief control system, nicknamed AGE, is selected as the most effective of the various proposed schemes. This system is compared with other load relief laws and with simple attitude control. Most nominal vehicles use attitude control laws since their goal is to stay on the flight path without regard to the induced loads
A brief theoretical study has been made for the purpose for estimating and comparing the weight of t...
Self adaptive control techniques for attitude control on Saturn 5 launch vehicle
Structural dynamics of Saturn I and Saturn V dynamic models - effect of ground wind on launch vehicl...
The results of a study are presented in which a computerized optimal control techique was applied to...
Ability of pilot to stabilize flexibile launch vehicle during first stage - Saturn V launch vehicl
Rigid body load relief and modal suppression control systems for space shuttle vehicle
The prediction of flight loads and their potential reduction, using various control system logics fo...
Control system optimization for Saturn 5 launch vehicles using gradient technique
In the design of a launch vehicle attitude control system two factors of major concern are the bendi...
With the development of the Saturn launch vehicle, it became mandatory to develop a system for restr...
Presented here are the results of an advanced control design as well as a discussion of the requirem...
A robust and flexible autopilot architecture for NASA's Space Launch System (SLS) family of launch v...
Application of quadratic optimal control, least squares state, and parameter estimation to stability...
The control of large space structures was studied to determine what, if any, limitations are imposed...
The results of 18 months of investigations are reported. A movable mass control system to convert th...
A brief theoretical study has been made for the purpose for estimating and comparing the weight of t...
Self adaptive control techniques for attitude control on Saturn 5 launch vehicle
Structural dynamics of Saturn I and Saturn V dynamic models - effect of ground wind on launch vehicl...
The results of a study are presented in which a computerized optimal control techique was applied to...
Ability of pilot to stabilize flexibile launch vehicle during first stage - Saturn V launch vehicl
Rigid body load relief and modal suppression control systems for space shuttle vehicle
The prediction of flight loads and their potential reduction, using various control system logics fo...
Control system optimization for Saturn 5 launch vehicles using gradient technique
In the design of a launch vehicle attitude control system two factors of major concern are the bendi...
With the development of the Saturn launch vehicle, it became mandatory to develop a system for restr...
Presented here are the results of an advanced control design as well as a discussion of the requirem...
A robust and flexible autopilot architecture for NASA's Space Launch System (SLS) family of launch v...
Application of quadratic optimal control, least squares state, and parameter estimation to stability...
The control of large space structures was studied to determine what, if any, limitations are imposed...
The results of 18 months of investigations are reported. A movable mass control system to convert th...
A brief theoretical study has been made for the purpose for estimating and comparing the weight of t...
Self adaptive control techniques for attitude control on Saturn 5 launch vehicle
Structural dynamics of Saturn I and Saturn V dynamic models - effect of ground wind on launch vehicl...