Mathematical models of a reference space station configuration (Power Tower) and a Space Shuttle Orbiter are developed and used to study the dynamic behavior of the Space Station/Orbiter system just prior to and subsequent to an impulsive docking of the two spacecraft. The physical model of the space station is a collection of rigid and flexible bodies. The orbiter is modeled as a rigid body. An algorithm developed for use in digitally simulating the dynamics of the system is described and results of its application are presented
The options for the design, construction, and testing of a dynamic model of the space station were e...
A relatively general formulation for studying dynamics and control of a large class of space system...
A relatively general formulation for studying the nonlinear dynamics and control of spacecraft with ...
A large-angle, multi-body, dynamic modeling capability was developed to help validate numerical simu...
A relatively general formulation for studying the dynamics and control of an arbitrary spacecraft wi...
A large-angle, flexible, multi-body, dynamic modeling capability was developed to help validate anal...
Conceptual efforts to develop a Space Station based system for docking and/or berthing the NSTS Orbi...
A methodology for producing simulations of the docking of a rigid spacecraft with any unrestrained f...
A prototype docking mechanism for the Space Station was designed and fabricated for NASA. This docki...
Large orbiting space structures are expected to experience mechanical vibrations arising from severa...
The Space Station Mechanism Test Bed consists of a hydraulically driven, computer controlled six deg...
One of the most critical operational functions for the space station is the orbital docking between ...
The berthing maneuver is essential for the construction and assembly of Space Station Freedom (SSF) ...
A space station in the vicinity of the Moon can be exploited as a gateway for future human and robot...
A case study of a spacecraft having flexible solar arrays is presented. A stationkeeping attitude co...
The options for the design, construction, and testing of a dynamic model of the space station were e...
A relatively general formulation for studying dynamics and control of a large class of space system...
A relatively general formulation for studying the nonlinear dynamics and control of spacecraft with ...
A large-angle, multi-body, dynamic modeling capability was developed to help validate numerical simu...
A relatively general formulation for studying the dynamics and control of an arbitrary spacecraft wi...
A large-angle, flexible, multi-body, dynamic modeling capability was developed to help validate anal...
Conceptual efforts to develop a Space Station based system for docking and/or berthing the NSTS Orbi...
A methodology for producing simulations of the docking of a rigid spacecraft with any unrestrained f...
A prototype docking mechanism for the Space Station was designed and fabricated for NASA. This docki...
Large orbiting space structures are expected to experience mechanical vibrations arising from severa...
The Space Station Mechanism Test Bed consists of a hydraulically driven, computer controlled six deg...
One of the most critical operational functions for the space station is the orbital docking between ...
The berthing maneuver is essential for the construction and assembly of Space Station Freedom (SSF) ...
A space station in the vicinity of the Moon can be exploited as a gateway for future human and robot...
A case study of a spacecraft having flexible solar arrays is presented. A stationkeeping attitude co...
The options for the design, construction, and testing of a dynamic model of the space station were e...
A relatively general formulation for studying dynamics and control of a large class of space system...
A relatively general formulation for studying the nonlinear dynamics and control of spacecraft with ...