Low-Level Motion Characteristics Do Not Account for Perceptions of Stream-Bounce Stimuli

The stream-bounce effect refers to a bistable motion stimulus that is interpreted as two targets either “streaming” past or “bouncing” off one another, and the manipulations that bias responses. Directional bias, according to Bertenthal et al., is an account of the effect proposing that low-level motion integration promotes streaming, and its disruption leads to bouncing, and it is sometimes cited either directly in a bottom-up fashion or indirectly under top-down control despite Sekuler and Sekuler finding evidence inconsistent with it. We tested two key aspects of the hypothesis: (a) comparable changes in speed should produce comparable disruptions and lead to similar effects; and (b) speed changes alone should disrupt integration without the need for additional more complex changes of motion. We found that target motion influences stream-bounce perception, but not as directional bias predicts. Our results support Sekuler and Sekuler and argue against the low-level motion signals driving perceptual outcomes in stream-bounce displays (directly or indirectly) and point to higher level inferential processes involving perceptual history and expectation. Directional bias as a mechanism should be abandoned and either another specific bottom-up process must be proposed and tested or consideration should be given to top-down factors alone driving the effect.

[1]  George Mather,et al.  Motion perception: behavior and neural substrate. , 2011, Wiley interdisciplinary reviews. Cognitive science.

[2]  Yousuke Kawachi,et al.  Occluded motion alters event perception , 2013, Attention, Perception, & Psychophysics.

[3]  Streaming and bouncing: observations on motion defined objects , 2000, Clinical & experimental ophthalmology.

[4]  D H Brainard,et al.  The Psychophysics Toolbox. , 1997, Spatial vision.

[5]  R. Sekuler,et al.  Sound alters visual motion perception , 1997, Nature.

[6]  S. Shimojo,et al.  When Sound Affects Vision: Effects of Auditory Grouping on Visual Motion Perception , 2001, Psychological science.

[7]  Gianluca Campana,et al.  The origin of the audiovisual bounce inducing effect: A TMS study , 2012, Neuropsychologia.

[8]  Denis G. Pelli,et al.  ECVP '07 Abstracts , 2007, Perception.

[9]  Clara Casco,et al.  Revealing the origin of the audiovisual bounce-inducing effect. , 2012, Seeing and perceiving.

[10]  R. Sekuler,et al.  Collisions between Moving Visual Targets: What Controls Alternative Ways of Seeing an Ambiguous Display? , 1999, Perception.

[11]  S Shimojo,et al.  Attentional Modulation in Perception of Visual Motion Events , 1998, Perception.

[12]  B I Bertenthal,et al.  Directional Bias in the Perception of Translating Patterns , 1993, Perception.

[13]  Takahiro Kawabe,et al.  Effects of the orientation of moving objects on the perception of streaming/bouncing motion displays , 2006, Perception & psychophysics.

[14]  O. Braddick,et al.  The combination of motion signals over time , 1989, Vision Research.

[15]  Philip M Grove,et al.  Disambiguating the Stream/Bounce Illusion With Inference. , 2016, Multisensory research.

[16]  Monica Gori,et al.  Long integration time for accelerating and decelerating visual, tactile and visuo-tactile stimuli. , 2013, Multisensory research.