Add to ORKGExisting analysis of Orbiter-RMS-Payload kinematics were surveyed, including equations dealing with the two body kinematics in the presence of a massless RMS and compares analytical explicit solutions with numerical solutions. For the following operational phases of the RMS numerical demonstration, problems are provided: (1) payload capture; (2) payload stowage and removal from cargo bay; and (3) payload deployment. The equation of motion provided accounted for RMS control forces and torque moments and could be extended to RMS flexibility and control loop simulation without increasing the degrees of freedom of the two body system
Abstract: Nowadays, a satellite is considered as out of range forever once it is launched. This m...
Abstract: Nowadays, a satellite is considered as out of range forever once it is launched. This m...
Rising numbers of aging spacecraft and new missions demand the development of novel approaches to pe...
The preflight planning, analysis, procedures development, and operations support for the Space Trans...
A simulation of the system made up of the Orbiter, Remote Manipulator System (RMS), and payload grap...
The Shuttle Remote Manipulator System (RMS) has been successfully flight tested during STS-2, 3 and ...
A study of the interaction between the orbiter primary reaction control system (PRCS) and the remote...
The benefits derived from application of the 8-cm mercury electron bombardment ion thruster were ass...
Control theory and the design of manipulators, teleoperators, and robots are considered. Application...
Alternate extravehicular activity (EVA) and remote manipulator system (RMS) configurations were exam...
The investigation is aimed at establishing a series of simple models which can be used to study the ...
An aid concept known as the PIDA (Payload Installation and Deployment Aid) is presented as a way to ...
An analysis of the critical parameters involved in designing systems for spacecraft maneuvers involv...
An aid concept known as the PIDA (Payload Installation and Deployment Aid) is presented as a way to ...
Abstract: Nowadays, a satellite is considered as out of range forever once it is launched. This m...
Abstract: Nowadays, a satellite is considered as out of range forever once it is launched. This m...
Abstract: Nowadays, a satellite is considered as out of range forever once it is launched. This m...
Rising numbers of aging spacecraft and new missions demand the development of novel approaches to pe...
The preflight planning, analysis, procedures development, and operations support for the Space Trans...
A simulation of the system made up of the Orbiter, Remote Manipulator System (RMS), and payload grap...
The Shuttle Remote Manipulator System (RMS) has been successfully flight tested during STS-2, 3 and ...
A study of the interaction between the orbiter primary reaction control system (PRCS) and the remote...
The benefits derived from application of the 8-cm mercury electron bombardment ion thruster were ass...
Control theory and the design of manipulators, teleoperators, and robots are considered. Application...
Alternate extravehicular activity (EVA) and remote manipulator system (RMS) configurations were exam...
The investigation is aimed at establishing a series of simple models which can be used to study the ...
An aid concept known as the PIDA (Payload Installation and Deployment Aid) is presented as a way to ...
An analysis of the critical parameters involved in designing systems for spacecraft maneuvers involv...
An aid concept known as the PIDA (Payload Installation and Deployment Aid) is presented as a way to ...
Abstract: Nowadays, a satellite is considered as out of range forever once it is launched. This m...
Abstract: Nowadays, a satellite is considered as out of range forever once it is launched. This m...
Abstract: Nowadays, a satellite is considered as out of range forever once it is launched. This m...
Rising numbers of aging spacecraft and new missions demand the development of novel approaches to pe...