A relatively general formulation for studying the dynamics and control of an arbitrary spacecraft with interconnected flexible bodies has been developed. This self-contained and comprehensive numerical algorithm using system modes is applicable to a large class of spacecraft configurations of contemporary and future interest. Here, versatility of the approach is demonstrated through the dynamics and control studies aimed at the evolving Space Station Freedom
The Space Shuttle program has relied heavily on simulation throughout all phases of development and ...
The thesis aims at development of a rather versatile tool for studying dynamics and control of an o...
The dynamics and attitude and shape control of very large, inherently flexible spacecraft systems we...
A relatively general formulation for studying dynamics and control of a large class of space system...
A relatively general formulation for studying dynamics of flexible multibody orbiting systems in a ...
The First Milestone Configuration (FMC) of the proposed Space Station Freedom is considered for inve...
A relatively general formulation for studying the nonlinear dynamics and control of spacecraft with ...
Large orbiting space structures are expected to experience mechanical vibrations arising from severa...
Mathematical models of a reference space station configuration (Power Tower) and a Space Shuttle Orb...
The initial assembly of Space Station Freedom involves the Space Shuttle, its Remote Manipulation Sy...
A case study of a spacecraft having flexible solar arrays is presented. A stationkeeping attitude co...
Multibody dynamics for space applications is dictated by space environment such as space-varying gra...
A large-angle, multi-body, dynamic modeling capability was developed to help validate numerical simu...
A relatively general formulation for studying dynamics and control of a large class of systems, char...
The Space Station Attitude Control System software test-bed provides a rigorous environment for the ...
The Space Shuttle program has relied heavily on simulation throughout all phases of development and ...
The thesis aims at development of a rather versatile tool for studying dynamics and control of an o...
The dynamics and attitude and shape control of very large, inherently flexible spacecraft systems we...
A relatively general formulation for studying dynamics and control of a large class of space system...
A relatively general formulation for studying dynamics of flexible multibody orbiting systems in a ...
The First Milestone Configuration (FMC) of the proposed Space Station Freedom is considered for inve...
A relatively general formulation for studying the nonlinear dynamics and control of spacecraft with ...
Large orbiting space structures are expected to experience mechanical vibrations arising from severa...
Mathematical models of a reference space station configuration (Power Tower) and a Space Shuttle Orb...
The initial assembly of Space Station Freedom involves the Space Shuttle, its Remote Manipulation Sy...
A case study of a spacecraft having flexible solar arrays is presented. A stationkeeping attitude co...
Multibody dynamics for space applications is dictated by space environment such as space-varying gra...
A large-angle, multi-body, dynamic modeling capability was developed to help validate numerical simu...
A relatively general formulation for studying dynamics and control of a large class of systems, char...
The Space Station Attitude Control System software test-bed provides a rigorous environment for the ...
The Space Shuttle program has relied heavily on simulation throughout all phases of development and ...
The thesis aims at development of a rather versatile tool for studying dynamics and control of an o...
The dynamics and attitude and shape control of very large, inherently flexible spacecraft systems we...