figures, as well as the probability for seeing each view/reversal within a figure to confirm that
gravity affects interpretation of depth-based stimuli and interferes with visual perception
stability.
PUBLICATION(S)
Clement G, Ngo-Anh JT. Space Physiology II: Adaptation of the central nervous system to space
flight - Past, current, and future studies. European Journal of Applied Physiology. July
2013;113(7):1655-1672. doi: 1007/s00421-012-2509-3.
Clement G, Skinner A, Richard G, Lathan CE. Geometric illusions in astronauts during long-
duration spaceflight. NeuroReport. 2012;23(15):894-899. doi:
10.1097/WNR.0b013e3283594705.
Merali T, Demel M, Steinberg M, Thirsk RB, Clement G. Image reversal in space. Student
International Space Station Education. Canadian Space Summit, Kingston, Canada; November
22, 2009.
Merali T, Demel M, Thirsk RB, Clement G. Image reversal in space. Student International Space
Station Experiment. 60th International Astronautical Congress, Daejeon, Republic of Korea;
October 14, 2009.
Urbina D, Demel M, Kohl S, Merali T, Steinberg M, Thirsk RB, Clement G. IRIS experiment.
Columbia Geomatics Week, Bogota, Columbia; October 29, 2009.
This investigation is complete; however additional results are pending publication.