In binocular rivalry, paradigms have been proposed for unobtrusive moment-by-moment readout of observers' perceptual experience ("no-report paradigms"). Here, we take a first step to extend this concept to auditory multistability. Observers continuously reported which of two concurrent tone sequences they perceived in the foreground: high-pitch (1008 Hz) or low-pitch (400 Hz) tones. Interstimulus intervals were either fixed per sequence (Experiments 1 and 2) or random with tones alternating (Experiment 3). A horizontally drifting grating was presented to each eye; to induce binocular rivalry, gratings had distinct colors and motion directions. To associate each grating with one tone sequence, a pattern on the grating jumped vertically whenever the respective tone occurred. We found that the direction of the optokinetic nystagmus (OKN)-induced by the visually dominant grating-could be used to decode the tone (high/low) that was perceived in the foreground well above chance. This OKN-based readout improved after observers had gained experience with the auditory task (Experiments 1 and 2) and for simpler auditory tasks (Experiment 3). We found no evidence that the visual stimulus affected auditory multistability. Although decoding performance is still far from perfect, our paradigm may eventually provide a continuous estimate of the currently dominant percept in auditory multistability.
Empirical research on the sequential decomposition of an auditory scene primarily relies on interleaved sound mixtures of only two tone sequences (e.g., ABAB…). This oversimplifies the sound decomposition problem by limiting the number of putative perceptual organizations. The current study used a sound mixture composed of three different tones (ABCABC…) that could be perceptually organized in many different ways. Participants listened to these sequences and reported their subjective perception by continuously choosing one out of 12 visually presented perceptual organization alternatives. Different levels of frequency and spatial separation were implemented to check whether participants' perceptual reports would be systematic and plausible. As hypothesized, while perception switched back and forth in each condition between various perceptual alternatives (multistability), spatial as well as frequency separation generally raised the proportion of segregated and reduced the proportion of integrated alternatives. During segregated percepts, in contrast to the hypothesis, many participants had a tendency to perceive two streams in the foreground, rather than reporting alternatives with a clear foreground-background differentiation. Finally, participants perceived the organization with intermediate feature values (e.g., middle tones of the pattern) segregated in the foreground slightly less often than similar alternatives with outer feature values (e.g., higher tones).
Sequential auditory scene analysis (ASA) is often studied using sequences of two alternating tones, such as ABAB or ABA_, with “_” denoting a silent gap, and “A” and “B” sine tones differing in frequency (nominally low and high). Many studies implicitly assume that the specific arrangement (ABAB vs ABA_, as well as low-high-low vs high-low-high within ABA_) plays a negligible role, such that decisions about the tone pattern can be governed by other considerations. To explicitly test this assumption, a systematic comparison of different tone patterns for two-tone sequences was performed in three different experiments. Participants were asked to report whether they perceived the sequences as originating from a single sound source ( integrated) or from two interleaved sources ( segregated). Results indicate that core findings of sequential ASA, such as an effect of frequency separation on the proportion of integrated and segregated percepts, are similar across the different patterns during prolonged listening. However, at sequence onset, the integrated percept was more likely to be reported by the participants in ABA_low-high-low than in ABA_high-low-high sequences. This asymmetry is important for models of sequential ASA, since the formation of percepts at onset is an integral part of understanding how auditory interpretations build up.
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