Add to ORKGA technology assessment is presented on space extravehicular activities (EVA) that will be possible when the space shuttle orbiter is completed and launched. The use of EVA in payload systems design is discussed. Also discussed is space crew training. The role of EVA in connection with the Large Space Telescope and Skylab are described. The value of EVA in constructing structures in space and orbital assembly is examined. Excellent color illustrations are provided which show the proposed EVA functions that were described
To prepare for the problem of accidents in Space Station activities, the Extravehicular Activity Ret...
As crewed spacecraft have grown larger and more complex, they have come to rely on spacewalks, or Ex...
This report documents the results of a study carried out as part of NASA s Revolutionary Aerospace S...
Requirements are projected for performing orbital satellite service. Emphasis is on defining the rol...
Descriptions of the EVA system baselined for the space shuttle program were provided, as well as a c...
The objectives of this presentation are to: Define Extravehicular Activity (EVA), identify the reaso...
The goal of NASA s current EVA technology effort is to further develop technologies that will be use...
America's next major step into space will be the construction of a permanently manned Space Station ...
As crewed spacecraft have grown larger and more complex, they have come to rely on spacewalks, or Ex...
In January 2004, the President announced a new Vision for Space Exploration. NASA's Office of Explor...
The ability to perform extravehicular activity (EVA), both human and robotic, has been identified as...
Programmatic benefits to payloads are examined which can result from the routine use of extravehicul...
Alternate extravehicular activity (EVA) and remote manipulator system (RMS) configurations were exam...
Viewgraphs on extravehicular activity/manned systems are presented. Objectives of crewstation design...
Parameters that require consideration by the planners and designers when planning for man to perform...
To prepare for the problem of accidents in Space Station activities, the Extravehicular Activity Ret...
As crewed spacecraft have grown larger and more complex, they have come to rely on spacewalks, or Ex...
This report documents the results of a study carried out as part of NASA s Revolutionary Aerospace S...
Requirements are projected for performing orbital satellite service. Emphasis is on defining the rol...
Descriptions of the EVA system baselined for the space shuttle program were provided, as well as a c...
The objectives of this presentation are to: Define Extravehicular Activity (EVA), identify the reaso...
The goal of NASA s current EVA technology effort is to further develop technologies that will be use...
America's next major step into space will be the construction of a permanently manned Space Station ...
As crewed spacecraft have grown larger and more complex, they have come to rely on spacewalks, or Ex...
In January 2004, the President announced a new Vision for Space Exploration. NASA's Office of Explor...
The ability to perform extravehicular activity (EVA), both human and robotic, has been identified as...
Programmatic benefits to payloads are examined which can result from the routine use of extravehicul...
Alternate extravehicular activity (EVA) and remote manipulator system (RMS) configurations were exam...
Viewgraphs on extravehicular activity/manned systems are presented. Objectives of crewstation design...
Parameters that require consideration by the planners and designers when planning for man to perform...
To prepare for the problem of accidents in Space Station activities, the Extravehicular Activity Ret...
As crewed spacecraft have grown larger and more complex, they have come to rely on spacewalks, or Ex...
This report documents the results of a study carried out as part of NASA s Revolutionary Aerospace S...