TY - JOUR
T1 - Hot Wind to the Body Can Facilitate Vection Only When Participants Walk Through a Fire Corridor Virtually
AU - Yahata, Ryotaro
AU - Takeya, Wataru
AU - Seno, Takeharu
AU - Tamada, Yasuaki
N1 - Publisher Copyright:
© The Author(s) 2021.
PY - 2021/2
Y1 - 2021/2
N2 - Vection has been reported to be enhanced by wind, as long as the wind is a normal temperature and not hot. However, here we report that a hot wind can facilitate vection, as long as it is natural and consistent with the visual stimulus. We created a fire-corridor stimulus that was consistent with a hot wind and a control stimulus composed of cubes, which were irrelevant to a hot wind. We compared the vection strength induced by a fire-corridor (fire condition) visual stimulus with that induced by geometric cubes (no-fire condition) visual stimulus. There were three wind type conditions: a normal temperature wind, hot wind, and no wind. The results showed that a normal temperature wind facilitated vection and that a hot wind (but not a normal wind) highly enhanced vection when a fire-corridor stimulus was presented. These results suggest that vection is highly affected and modulated by high-level cognitive processes.
AB - Vection has been reported to be enhanced by wind, as long as the wind is a normal temperature and not hot. However, here we report that a hot wind can facilitate vection, as long as it is natural and consistent with the visual stimulus. We created a fire-corridor stimulus that was consistent with a hot wind and a control stimulus composed of cubes, which were irrelevant to a hot wind. We compared the vection strength induced by a fire-corridor (fire condition) visual stimulus with that induced by geometric cubes (no-fire condition) visual stimulus. There were three wind type conditions: a normal temperature wind, hot wind, and no wind. The results showed that a normal temperature wind facilitated vection and that a hot wind (but not a normal wind) highly enhanced vection when a fire-corridor stimulus was presented. These results suggest that vection is highly affected and modulated by high-level cognitive processes.
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U2 - 10.1177/0301006620987087
DO - 10.1177/0301006620987087
M3 - Article
C2 - 33475454
AN - SCOPUS:85099822451
SN - 0301-0066
VL - 50
SP - 154
EP - 164
JO - Perception
JF - Perception
IS - 2
ER -