PLoS ONE (Jan 2013)

Perception of elasticity in the kinetic illusory object with phase differences in inducer motion.

  • Tomohiro Masuda,
  • Kazuki Sato,
  • Takuma Murakoshi,
  • Ken Utsumi,
  • Atsushi Kimura,
  • Nobu Shirai,
  • So Kanazawa,
  • Masami K Yamaguchi,
  • Yuji Wada

DOI
https://doi.org/10.1371/journal.pone.0078621
Journal volume & issue
Vol. 8, no. 10
p. e78621

Abstract

Read online

BackgroundIt is known that subjective contours are perceived even when a figure involves motion. However, whether this includes the perception of rigidity or deformation of an illusory surface remains unknown. In particular, since most visual stimuli used in previous studies were generated in order to induce illusory rigid objects, the potential perception of material properties such as rigidity or elasticity in these illusory surfaces has not been examined. Here, we elucidate whether the magnitude of phase difference in oscillation influences the visual impressions of an object's elasticity (Experiment 1) and identify whether such elasticity perceptions are accompanied by the shape of the subjective contours, which can be assumed to be strongly correlated with the perception of rigidity (Experiment 2).Methodology/principal findingsIn Experiment 1, the phase differences in the oscillating motion of inducers were controlled to investigate whether they influenced the visual impression of an illusory object's elasticity. The results demonstrated that the impression of the elasticity of an illusory surface with subjective contours was systematically flipped with the degree of phase difference. In Experiment 2, we examined whether the subjective contours of a perceived object appeared linear or curved using multi-dimensional scaling analysis. The results indicated that the contours of a moving illusory object were perceived as more curved than linear in all phase-difference conditions.Conclusions/significanceThese findings suggest that the phase difference in an object's motion is a significant factor in the material perception of motion-related elasticity.