Two part-task preflight adaptation trainers (PATs) are being developed at the NASA Johnson Space Center to preadapt astronauts to novel sensory stimulus conditions similar to those present in microgravity to facilitate adaptation to microgravity and readaptation to Earth. This activity is a major component of a general effort to develop countermeasures aimed at minimizing sensory and sensorimotor disturbances and Space Motion Sickness (SMS) associated with adaptation to microgravity and readaptation to Earth. Design principles for the development of the two trainers are discussed, along with a detailed description of both devices. In addition, a summary of four ground-based investigations using one of the trainers to determine the extent to...
A unique training device is being developed at the Johnson Space Center Neurosciences Laboratory to ...
Astronauts returning from space flight show disturbances in locomotor control manifested by changes ...
Adaptive changes in sensorimotor function during spaceflight are reflected by spatial disorientation...
Resolution of space motion sickness, and improvements in spatial orientation, posture and motion con...
A vexing problem within the medical life sciences is the “space adaptation syndrome” reported to aff...
The objectives of this project were to explore systematically the determiners of transfer of percept...
A vexing problem within the medical life sciences is the “space adaptation syndrome” reported to aff...
Astronauts experience Postflight disturbances in postural and locomotor control due to sensorimotor ...
Astronauts experience sensorimotor disturbances during the initial exposure to microgravity and duri...
Self-orientation and self/surround-motion perception derive from a multimodal sensory process that i...
Exposure to the microgravity conditions of space flight induces adaptive modification in sensorimoto...
The Preflight Adaptation Trainer (PAT) is intended to reduce or alleviate space adaptation syndrome ...
Astronauts experience sensorimotor disturbances during their initial exposure to microgravity and du...
Experiments on human spatial orientation were conducted on four crewmembers of Space Shuttle Spacela...
Astronauts experience disturbances in functional mobility following their return to Earth due to ada...
A unique training device is being developed at the Johnson Space Center Neurosciences Laboratory to ...
Astronauts returning from space flight show disturbances in locomotor control manifested by changes ...
Adaptive changes in sensorimotor function during spaceflight are reflected by spatial disorientation...
Resolution of space motion sickness, and improvements in spatial orientation, posture and motion con...
A vexing problem within the medical life sciences is the “space adaptation syndrome” reported to aff...
The objectives of this project were to explore systematically the determiners of transfer of percept...
A vexing problem within the medical life sciences is the “space adaptation syndrome” reported to aff...
Astronauts experience Postflight disturbances in postural and locomotor control due to sensorimotor ...
Astronauts experience sensorimotor disturbances during the initial exposure to microgravity and duri...
Self-orientation and self/surround-motion perception derive from a multimodal sensory process that i...
Exposure to the microgravity conditions of space flight induces adaptive modification in sensorimoto...
The Preflight Adaptation Trainer (PAT) is intended to reduce or alleviate space adaptation syndrome ...
Astronauts experience sensorimotor disturbances during their initial exposure to microgravity and du...
Experiments on human spatial orientation were conducted on four crewmembers of Space Shuttle Spacela...
Astronauts experience disturbances in functional mobility following their return to Earth due to ada...
A unique training device is being developed at the Johnson Space Center Neurosciences Laboratory to ...
Astronauts returning from space flight show disturbances in locomotor control manifested by changes ...
Adaptive changes in sensorimotor function during spaceflight are reflected by spatial disorientation...
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