Robots operating in the microgravity environment of an orbiting laboratory should be capable of manipulating payloads such that the motion of the robot does not disturb adjacent experiments. The current results of a NASA Lewis Research Center technology program to develop smooth, reaction-compensated manipulation based on both mechanism technology and trajectory planning strategies are present. Experimental validation of methods to reduce robot base reactions through the use of redundant degrees of freedom is discussed. Merits of smooth operation roller-driven robot joints for microgravity manipulators are also reviewed
An overview of applied research and development at NASA-Goddard (GSFC) on mechanisms and the collisi...
While performing complex assembly tasks or moving about in space, a space robot should minimize the ...
Present and future, without the sophisticated and highly automated mechanisms, it is impossible to ...
A test rig is being developed that will be used to demonstrate and evaluate approaches to limiting m...
The primary goal of this program is to produce the motion control tools necessary to enhance and ena...
A research program to develop technology for robots operating in the microgravity environment of the...
Increasing research is being done into industrial uses for the microgravity environment aboard orbit...
Many of the planned experiments of the Space Station Freedom (SSF) will require acceleration levels ...
This paper presents two novel redundancy resolution schemes aimed at locally minimizing the reaction...
A trajectory generation method for space manipulators is introduced. The approach developed employs ...
Control laws (in some optimal sense) are being developed for the gripper/nut runner end effector. Co...
This paper presents the theoretical formulation and the experimental validation of a novel solution ...
Robot dynamics and control will become an important issue for implementing productive platforms in s...
In this thesis a research activity is presented, concerning matters of dynamics and control of robot...
Redundant space manipulators can perform robotic operations while minimizing the reactions transferr...
An overview of applied research and development at NASA-Goddard (GSFC) on mechanisms and the collisi...
While performing complex assembly tasks or moving about in space, a space robot should minimize the ...
Present and future, without the sophisticated and highly automated mechanisms, it is impossible to ...
A test rig is being developed that will be used to demonstrate and evaluate approaches to limiting m...
The primary goal of this program is to produce the motion control tools necessary to enhance and ena...
A research program to develop technology for robots operating in the microgravity environment of the...
Increasing research is being done into industrial uses for the microgravity environment aboard orbit...
Many of the planned experiments of the Space Station Freedom (SSF) will require acceleration levels ...
This paper presents two novel redundancy resolution schemes aimed at locally minimizing the reaction...
A trajectory generation method for space manipulators is introduced. The approach developed employs ...
Control laws (in some optimal sense) are being developed for the gripper/nut runner end effector. Co...
This paper presents the theoretical formulation and the experimental validation of a novel solution ...
Robot dynamics and control will become an important issue for implementing productive platforms in s...
In this thesis a research activity is presented, concerning matters of dynamics and control of robot...
Redundant space manipulators can perform robotic operations while minimizing the reactions transferr...
An overview of applied research and development at NASA-Goddard (GSFC) on mechanisms and the collisi...
While performing complex assembly tasks or moving about in space, a space robot should minimize the ...
Present and future, without the sophisticated and highly automated mechanisms, it is impossible to ...