Abstract
To obtain a coherent perception of the world, our senses need to be in alignment. When we encounter misaligned cues from two sensory modalities, the brain must infer which cue is faulty and recalibrate the corresponding sense. We examined whether and how the brain uses cue reliability to identify the miscalibrated sense by measuring the audiovisual ventriloquism aftereffect for stimuli of varying visual reliability. To adjust for modality-specific biases, visual stimulus locations were chosen based on perceived alignment with auditory stimulus locations for each participant. During an audiovisual recalibration phase, participants were presented with bimodal stimuli with a fixed perceptual spatial discrepancy; they localized one modality, cued after stimulus presentation. Unimodal auditory and visual localization was measured before and after the audiovisual recalibration phase. We compared participants’ behavior to the predictions of three models of recalibration: (a) Reliability-based: each modality is recalibrated based on its relative reliability—less reliable cues are recalibrated more; (b) Fixed-ratio: the degree of recalibration for each modality is fixed; (c) Causal-inference: recalibration is directly determined by the discrepancy between a cue and its estimate, which in turn depends on the reliability of both cues, and inference about how likely the two cues derive from a common source. Vision was hardly recalibrated by audition. Auditory recalibration by vision changed idiosyncratically as visual reliability decreased: the extent of auditory recalibration either decreased monotonically, peaked at medium visual reliability, or increased monotonically. The latter two patterns cannot be explained by either the reliability-based or fixed-ratio models. Only the causal-inference model of recalibration captures the idiosyncratic influences of cue reliability on recalibration. We conclude that cue reliability, causal inference, and modality-specific biases guide cross-modal recalibration indirectly by determining the perception of audiovisual stimuli.
Highlights
Cross-modal integrationIn our daily lives, we continuously estimate properties of the environment such as the location of a barking dog
Recalibration is not based on a mere comparison of two sensory cues, but rather relates the cues to the perceptual estimates and by doing so incorporates causal inference and cue reliability
To scrutinize the mechanisms of cross-modal recalibration, we compared participants’ behavior to three models of recalibration: (1) a reliability-based model, which assumes that the amount of recalibration depends on the relative reliability of the cues that are in conflict, (2) a fixed-ratio model, which assumes that the amount of recalibration is fixed, dependent only on the modalities in conflict and independent of cue reliability, and (3) a causalinference model, which ties recalibration to the percept of a cue
Summary
Cross-modal integrationIn our daily lives, we continuously estimate properties of the environment such as the location of a barking dog. Vision dominates the combined spatial estimate of the sound source In this example, we perceive the “dummy” to be speaking. When visual reliability, the inverse of the average variability of a cue, is degraded enough to be lower than auditory reliability, the combined spatial estimate is no longer dominated by the visual but instead by the auditory cue, indicating that cue integration depends on their relative reliability [4,5,6]. This integration strategy maximizes the precision of the estimate, i.e., reduces its variability. In addition to audiovisual spatial perception, reliability-based cue integration has been found for visual and auditory cues to temporal rate [7,8,9], visual and haptic size and shape [10,11,12] as well as numerosity [13], and visual and vestibular cues to heading direction [14,15,16,17,18,19]
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