Future space missions envisage human operators teleoperating robotic systems from orbital spacecraft. A potential risk for such missions is the observation that sensorimotor performance deteriorates during spaceflight. This article describes an experiment on sensorimotor performance in two-dimensional manual tracking during different stages of a space mission. We investigated whether there are optimal haptic settings of the human-machine interface for microgravity conditions. Two empirical studies using the same task paradigm with a force feedback joystick with different haptic settings (no haptics, four spring stiffnesses, two motion dampings, three masses) are presented in this paper. (1) A terrestrial control study (N = 20 subjects) with...
The results of the first year of a three year study of the effects of microgravity on human performa...
The effects of extra arm weight and weightlessness on sensorimotor performance were investigated in ...
Astronauts experience sensorimotor changes during adaption to G-transitions that occur when entering...
Future space missions envisage human operators teleoperating robotic systems from orbital spacecraft...
In a few years, manned space missions are planned in which the sensorimotor performance of humans wi...
The success of many space missions critically depends on human capabilities and performance. Yet, it...
Sensorimotor performance is known to deteriorate during spaceflight. Prior research for instance doc...
The success of many space missions depends on astronauts’ performance. Yet, prior research documente...
Force feedback devices support the human operator in terms of teleoperation or telerobotic. In addit...
Fine motor skills will be critical in future long-duration missions, particularly those skills neede...
This joint ESA-NASA study will address adaptive changes in spatial orientation related to the subjec...
Astronauts returning from space flight show significant inter-subject variations in their abilities ...
Astronauts experience sensorimotor disturbances during the initial exposure to microgravity and duri...
International audienceAfter an exposure to weightlessness, the central nervous system operates under...
This joint ESA NASA study will address adaptive changes in spatial orientation related to the subjec...
The results of the first year of a three year study of the effects of microgravity on human performa...
The effects of extra arm weight and weightlessness on sensorimotor performance were investigated in ...
Astronauts experience sensorimotor changes during adaption to G-transitions that occur when entering...
Future space missions envisage human operators teleoperating robotic systems from orbital spacecraft...
In a few years, manned space missions are planned in which the sensorimotor performance of humans wi...
The success of many space missions critically depends on human capabilities and performance. Yet, it...
Sensorimotor performance is known to deteriorate during spaceflight. Prior research for instance doc...
The success of many space missions depends on astronauts’ performance. Yet, prior research documente...
Force feedback devices support the human operator in terms of teleoperation or telerobotic. In addit...
Fine motor skills will be critical in future long-duration missions, particularly those skills neede...
This joint ESA-NASA study will address adaptive changes in spatial orientation related to the subjec...
Astronauts returning from space flight show significant inter-subject variations in their abilities ...
Astronauts experience sensorimotor disturbances during the initial exposure to microgravity and duri...
International audienceAfter an exposure to weightlessness, the central nervous system operates under...
This joint ESA NASA study will address adaptive changes in spatial orientation related to the subjec...
The results of the first year of a three year study of the effects of microgravity on human performa...
The effects of extra arm weight and weightlessness on sensorimotor performance were investigated in ...
Astronauts experience sensorimotor changes during adaption to G-transitions that occur when entering...