Unpredictability of the “when” influences prediction error processing of the “what” and “where”

Tsogli, Vera; Jentschke, Sebastian; Koelsch, Stefan

doi:10.1371/journal.pone.0263373

Cited by 10 publications

(8 citation statements)

References 52 publications

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“…That is, while statistical learning is an essential function for extracting information from the world, the current results suggest that it is complemented by functions honed to extract the temporal structure of (at least) the acoustic environment. Their complementary nature is supported by findings showing that temporal predictability, which is enhanced by isochronous stimulus presentation, appears to improve statistical learning (Tsogli, Jentschke & Koelsch, 2022, Selchenkova, Jones & Tillmann, 2014. In fact, much of the research on statistical learning, especially in neonates, has been based on isochronous stimuli (Bosseler et al, 2016;Teinonen et al, 2009).…”

Section: Discussionmentioning

confidence: 94%

“…It is possible that isochrony or, more generally, temporal predictability is important for newborns to extract sequential probabilities necessary for statistical learning. Newborns have no problem extracting even higher order regularities in temporally highly predictable stimuli (e.g., Ruusuvirta et al, 2004; Stefanics et al, 2009), and although predictability in time is not necessary for statistical learning in adults, it does enhance the statistical MMN amplitude, an index of statistical learning (Tsogli, Jentschke & Koelsch, 2022). Further, in general, the noisier the regularity, the lower the MMN amplitude (e.g., Winkler et al, 1990).…”

Section: Discussionmentioning

confidence: 99%

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Beat processing in newborn infants cannot be explained by statistical learning based on transition probabilities

Háden

Bouwer

Honing

et al. 2022

Preprint

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Newborn infants have been shown to extract temporal regularities from sound sequences, both in the form of learning regular sequential properties, and extracting periodicity in the input, commonly referred to as a beat. However, these two types of regularities are often indistinguishable in isochronous sequences, as both statistical learning and beat perception can be elicited by the regular alternation of accented and unaccented sounds. Here, we manipulated the isochrony of sound sequences in order to disentangle statistical learning from beat perception in sleeping newborn infants in an EEG experiment, as previously done in adults and macaque monkeys. We used a binary accented sequence that induces a beat when presented with isochronous timing, but not when presented with randomly jittered timing. We compared mismatch responses to infrequent deviants falling on either accented or unaccented (i.e., odd and even) positions. Results showed a clear difference between metrical positions in the isochronous sequence, but not in the equivalent jittered sequence. This suggests that beat processing is present in newborns. However, the current paradigm did not show effects of statistical learning, despite previous evidence for this ability in newborns. These results show that statistical learning does not explain beat processing in newborn infants.

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Section: Discussionmentioning

confidence: 94%

Section: Discussionmentioning

confidence: 99%

Beat processing in newborn infants cannot be explained by statistical learning based on transition probabilities

Háden

Bouwer

Honing

et al. 2022

Preprint

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show abstract

“…Indeed, previous research has highlighted the importance of presentation rate in prediction effects during reading (e.g., Dambacher et al, 2012), and recent findings have shown that unpredictability in stimulus presentation timing (e.g., with jittered inter-stimulus intervals) may interfere with predictive processes, as indexed by the mismatch negativity component (Tsogli et al, 2022). This explanation of our results could be tested by study designs examining how the congruency-predictability interaction varies over stimulus onset asynchronies of different durations.…”

Section: Discussionmentioning

confidence: 99%

Can Prediction Error Explain Predictability Effects on the N1 during Picture-Word Verification?

Taylor,

Rousselet,

Sereno

2023

Preprint

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Do early effects of predictability in visual word recognition reflect prediction error? Electrophysiological research investigating word processing has demonstrated predictability effects in the N1, or first negative component of the event-related potential (ERP). However, findings regarding the magnitude of effects and potential interactions of predictability with lexical variables have been inconsistent. Moreover, past studies have typically used categorical designs with relatively small samples and relied on by-participant analyses. Nevertheless, reports have generally shown that predicted words elicit less negative-going (i.e., lower amplitude) N1s, a pattern consistent with a simple predictive coding account. In our preregistered study, we tested this account via the interaction between prediction magnitude and certainty. A picture-word verification paradigm was implemented in which pictures were followed by tightly matched picture-congruent or picture-incongruent written nouns. The predictability of target (picture-congruent) nouns was manipulated continuously based on norms of association between a picture and its name. ERPs from 68 participants revealed a pattern of effects opposite to that expected under a simple predictive coding framework.

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“…The predictive memory or generative model contains the respective “predictive regularity representations” ( Schröger et al, 2014 ; Winkler and Schröger, 2015 ). Although this rather Markovian view on the MMN seems to be widely accepted in the community, explicit reference to Markov chains or transition probabilities is rare in MMN research ( Furl et al, 2011 ; Koelsch et al, 2016 ; Mittag et al, 2016 ; Tsogli et al, 2019 , 2022 ; Korka et al, 2021 ).…”

Section: Mismatch Negativitymentioning

confidence: 99%

Markov chains as a proxy for the predictive memory representations underlying mismatch negativity

Schröger,

Roeber,

Coy

2023

Front. Hum. Neurosci.

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Events not conforming to a regularity inherent to a sequence of events elicit prediction error signals of the brain such as the Mismatch Negativity (MMN) and impair behavioral task performance. Events conforming to a regularity lead to attenuation of brain activity such as stimulus-specific adaptation (SSA) and behavioral benefits. Such findings are usually explained by theories stating that the information processing system predicts the forthcoming event of the sequence via detected sequential regularities. A mathematical model that is widely used to describe, to analyze and to generate event sequences are Markov chains: They contain a set of possible events and a set of probabilities for transitions between these events (transition matrix) that allow to predict the next event on the basis of the current event and the transition probabilities. The accuracy of such a prediction depends on the distribution of the transition probabilities. We argue that Markov chains also have useful applications when studying cognitive brain functions. The transition matrix can be regarded as a proxy for generative memory representations that the brain uses to predict the next event. We assume that detected regularities in a sequence of events correspond to (a subset of) the entries in the transition matrix. We apply this idea to the Mismatch Negativity (MMN) research and examine three types of MMN paradigms: classical oddball paradigms emphasizing sound probabilities, between-sound regularity paradigms manipulating transition probabilities between adjacent sounds, and action-sound coupling paradigms in which sounds are associated with actions and their intended effects. We show that the Markovian view on MMN yields theoretically relevant insights into the brain processes underlying MMN and stimulates experimental designs to study the brain’s processing of event sequences.

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Unpredictability of the “when” influences prediction error processing of the “what” and “where”

Cited by 10 publications

References 52 publications

Beat processing in newborn infants cannot be explained by statistical learning based on transition probabilities

Beat processing in newborn infants cannot be explained by statistical learning based on transition probabilities

Can Prediction Error Explain Predictability Effects on the N1 during Picture-Word Verification?

Markov chains as a proxy for the predictive memory representations underlying mismatch negativity

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