Speech processing is highly incremental. It is widely accepted that human listeners continuously use the linguistic context to anticipate upcoming concepts, words, and phonemes. However, previous evidence supports two seemingly contradictory models of how a predictive context is integrated with the bottom-up sensory input: Classic psycholinguistic paradigms suggest a two-stage process, in which acoustic input initially leads to local, context-independent representations, which are then quickly integrated with contextual constraints. This contrasts with the view that the brain constructs a single coherent, unified interpretation of the input, which fully integrates available information across representational hierarchies, and thus uses cont...
Several popular sequence-based and pretrained language models have been found to be successful for t...
Speech comprehension requires that the brain extract semantic meaning from the spectral features rep...
Thesis (Ph.D.)--Boston UniversitySpeech utterances are phoneme sequences but may not always be repre...
International audienceConsiderable progress has recently been made in natural language processing: d...
Natural speech builds on contextual relations that can prompt predictions of upcoming utterances. To...
Item does not contain fulltextIn contextually rich language comprehension settings listeners can rel...
Understanding spoken language requires the rapid transition from perceptual processing of the audito...
Human speech comprehension is remarkable for its immediacy and rapidity. The listener interprets an ...
When we listen to speech, we have to make sense of a waveform of sound pressure. Hierarchical models...
Theorists propose that the brain constantly generates implicit predictions that guide information pr...
International audienceAbstract The temporal dynamics by which linguistic information becomes availab...
People routinely hear and understand speech at rates of 120–200 words per minute [1, 2]. Thus, speec...
Communication through spoken language is a central human capacity, involving a wide range of complex...
Humans understand speech with such speed and accuracy, it belies the complexity of transforming soun...
Spoken language comprehension requires rapid and continuous integration of information, from lower-l...
Several popular sequence-based and pretrained language models have been found to be successful for t...
Speech comprehension requires that the brain extract semantic meaning from the spectral features rep...
Thesis (Ph.D.)--Boston UniversitySpeech utterances are phoneme sequences but may not always be repre...
International audienceConsiderable progress has recently been made in natural language processing: d...
Natural speech builds on contextual relations that can prompt predictions of upcoming utterances. To...
Item does not contain fulltextIn contextually rich language comprehension settings listeners can rel...
Understanding spoken language requires the rapid transition from perceptual processing of the audito...
Human speech comprehension is remarkable for its immediacy and rapidity. The listener interprets an ...
When we listen to speech, we have to make sense of a waveform of sound pressure. Hierarchical models...
Theorists propose that the brain constantly generates implicit predictions that guide information pr...
International audienceAbstract The temporal dynamics by which linguistic information becomes availab...
People routinely hear and understand speech at rates of 120–200 words per minute [1, 2]. Thus, speec...
Communication through spoken language is a central human capacity, involving a wide range of complex...
Humans understand speech with such speed and accuracy, it belies the complexity of transforming soun...
Spoken language comprehension requires rapid and continuous integration of information, from lower-l...
Several popular sequence-based and pretrained language models have been found to be successful for t...
Speech comprehension requires that the brain extract semantic meaning from the spectral features rep...
Thesis (Ph.D.)--Boston UniversitySpeech utterances are phoneme sequences but may not always be repre...