Abstract
Perceptual multi-stability is characterized by alternating interpretations of an unchanging stimulus input. The reversal negativity (RN) and reversal positivity (RP) ERP components show differences in electrophysiological responses between trials on which participants experience a perceptual reversal of a multi-stable stimulus versus trials without a reversal (i.e., stable). However, it is unclear to what extent these two ERP components reflect reversal-related perceptual processing rather than task and response processes. To address this, we varied task and response requirements while measuring the RN and RP. In the standard reversal task, participants indicated whether they saw a perceptual reversal on each trial. In contrast, in the identity task participants reported perceived identity of the stimulus (e.g., face or vase) without any reference to reversals. In some blocks, reversal trials required a response whereas in other blocks stable trials required a response. We found that the RN appeared independently of task and response style. However, the early latency RP component was only present when participants responded manually. For non-response trials, a component was found during the same latency as the RP but with inverted polarity. Our results suggest that the early RP component is dependent on response-related processes rather than being a pure neural signature of perceptual processes related to endogenous perceptual reversals.
Highlights
The perception of multi-stable or bi-stable visual stimuli (a.k.a., ambiguous or reversible figures) spontaneously fluctuates, or “reverses,” despite no corresponding change in the stimulus information (e.g., Blake & Logothetis, 2002; Cao, Braun, & Mattia, 2014; Leopold & Logothetis, 1999; Schwartz, Grimault, Hupe, Moore, & Pressnitzer, 2012)
Within the reversal negativity (RN) time window, we found a significant main effect of trial type, F(1,32) = 16.707, p < .001, ηp2 = .343, such that event-related potential (ERP) amplitudes were more negative on reversal trials than on stability trials
We found that both the RN and reversal positivity (RP) were unaffected by whether participants performed the reversal task or the identity task
Summary
The perception of multi-stable or bi-stable visual stimuli (a.k.a., ambiguous or reversible figures) spontaneously fluctuates, or “reverses,” despite no corresponding change in the stimulus information (e.g., Blake & Logothetis, 2002; Cao, Braun, & Mattia, 2014; Leopold & Logothetis, 1999; Schwartz, Grimault, Hupe, Moore, & Pressnitzer, 2012). Well-known multi-stable stimuli include the Necker Cube (or Necker Lattice version, Figure 1a; Necker, 1832) which reverses between facing either left or right, and Rubin's. There has been significant interest in studying neural processes related to perceptual reversals (e.g., Brascamp, Sterzer, Blake, & Knapen, 2018; Hesselmann, Kell, Eger, & Kleinschmidt, 2008; Kornmeier & Bach, 2004, 2012; Lumer & Rees, 1999; Pitts & Britz, 2011).
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