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Long-Duration Spaceflight Increases Depth Ambiguity of Reversible Perspective Figures.

Clément G, Allaway HC, Demel M, Golemis A, Kindrat AN, Melinyshyn AN, Merali T, Thirsk R - PLoS ONE (2015)

Bottom Line: The reaction time decreased throughout the sessions, thus indicating a learning effect.However, the time to first percept reversal and the number of reversals were not different in orbit and after the flight compared to before the flight.These results indicate that the perception of "illusory" depth is altered in astronauts during spaceflight.

View Article: PubMed Central - PubMed

Affiliation: Lyon Neuroscience Research Center, Bron, France.

ABSTRACT
The objective of this study was to investigate depth perception in astronauts during and after spaceflight by studying their sensitivity to reversible perspective figures in which two-dimensional images could elicit two possible depth representations. Other ambiguous figures that did not give rise to a perception of illusory depth were used as controls. Six astronauts and 14 subjects were tested in the laboratory during three sessions for evaluating the variability of their responses in normal gravity. The six astronauts were then tested during four sessions while on board the International Space Station for 5-6 months. They were finally tested immediately after return to Earth and up to one week later. The reaction time decreased throughout the sessions, thus indicating a learning effect. However, the time to first percept reversal and the number of reversals were not different in orbit and after the flight compared to before the flight. On Earth, when watching depth-ambiguous perspective figures, all subjects reported seeing one three-dimensional interpretation more often than the other, i.e. a ratio of about 70-30%. In weightlessness this asymmetry gradually disappeared and after 3 months in orbit both interpretations were seen for the same duration. These results indicate that the perception of "illusory" depth is altered in astronauts during spaceflight. This increased depth ambiguity is attributed to the lack of the gravitational reference and the eye-ground elevation for interpreting perspective depth cues.

No MeSH data available.


Related in: MedlinePlus

On board the International Space Station.An astronaut wearing the head-mounted display and holding a finger mouse in his hand is performing the experiment while free-floating. Photo credit NASA. The individual in this picture has given written informed consent (as outlined in PLOS consent form) to publish this photograph.
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pone.0132317.g003: On board the International Space Station.An astronaut wearing the head-mounted display and holding a finger mouse in his hand is performing the experiment while free-floating. Photo credit NASA. The individual in this picture has given written informed consent (as outlined in PLOS consent form) to publish this photograph.

Mentions: On the ground, subjects were tested when sitting at a desk. In orbit, the subjects were tested while free-floating to eliminate orientation-related cues (Fig 3). The figures were presented to the subjects in a head-mounted display (Z800 3DVisor, eMagin Corporation, Bellevue, WA) using a custom-made software running on a laptop computer. The figures subtended a viewing angle of 30° at a perceived distance of approximately 50 cm. Each figure was presented twice, for one minute each, in a random order. The refresh rate of the visual display was 60 Hz.


Long-Duration Spaceflight Increases Depth Ambiguity of Reversible Perspective Figures.

Clément G, Allaway HC, Demel M, Golemis A, Kindrat AN, Melinyshyn AN, Merali T, Thirsk R - PLoS ONE (2015)

On board the International Space Station.An astronaut wearing the head-mounted display and holding a finger mouse in his hand is performing the experiment while free-floating. Photo credit NASA. The individual in this picture has given written informed consent (as outlined in PLOS consent form) to publish this photograph.
© Copyright Policy
Related In: Results  -  Collection

License
Show All Figures
getmorefigures.php?uid=PMC4492703&req=5

pone.0132317.g003: On board the International Space Station.An astronaut wearing the head-mounted display and holding a finger mouse in his hand is performing the experiment while free-floating. Photo credit NASA. The individual in this picture has given written informed consent (as outlined in PLOS consent form) to publish this photograph.
Mentions: On the ground, subjects were tested when sitting at a desk. In orbit, the subjects were tested while free-floating to eliminate orientation-related cues (Fig 3). The figures were presented to the subjects in a head-mounted display (Z800 3DVisor, eMagin Corporation, Bellevue, WA) using a custom-made software running on a laptop computer. The figures subtended a viewing angle of 30° at a perceived distance of approximately 50 cm. Each figure was presented twice, for one minute each, in a random order. The refresh rate of the visual display was 60 Hz.

Bottom Line: The reaction time decreased throughout the sessions, thus indicating a learning effect.However, the time to first percept reversal and the number of reversals were not different in orbit and after the flight compared to before the flight.These results indicate that the perception of "illusory" depth is altered in astronauts during spaceflight.

View Article: PubMed Central - PubMed

Affiliation: Lyon Neuroscience Research Center, Bron, France.

ABSTRACT
The objective of this study was to investigate depth perception in astronauts during and after spaceflight by studying their sensitivity to reversible perspective figures in which two-dimensional images could elicit two possible depth representations. Other ambiguous figures that did not give rise to a perception of illusory depth were used as controls. Six astronauts and 14 subjects were tested in the laboratory during three sessions for evaluating the variability of their responses in normal gravity. The six astronauts were then tested during four sessions while on board the International Space Station for 5-6 months. They were finally tested immediately after return to Earth and up to one week later. The reaction time decreased throughout the sessions, thus indicating a learning effect. However, the time to first percept reversal and the number of reversals were not different in orbit and after the flight compared to before the flight. On Earth, when watching depth-ambiguous perspective figures, all subjects reported seeing one three-dimensional interpretation more often than the other, i.e. a ratio of about 70-30%. In weightlessness this asymmetry gradually disappeared and after 3 months in orbit both interpretations were seen for the same duration. These results indicate that the perception of "illusory" depth is altered in astronauts during spaceflight. This increased depth ambiguity is attributed to the lack of the gravitational reference and the eye-ground elevation for interpreting perspective depth cues.

No MeSH data available.


Related in: MedlinePlus