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Acoustic-Emergent Phonology in the Amplitude Envelope of Child-Directed Speech

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  • Victoria Leong
  • Usha Goswami

Abstract

When acquiring language, young children may use acoustic spectro-temporal patterns in speech to derive phonological units in spoken language (e.g., prosodic stress patterns, syllables, phonemes). Children appear to learn acoustic-phonological mappings rapidly, without direct instruction, yet the underlying developmental mechanisms remain unclear. Across different languages, a relationship between amplitude envelope sensitivity and phonological development has been found, suggesting that children may make use of amplitude modulation (AM) patterns within the envelope to develop a phonological system. Here we present the Spectral Amplitude Modulation Phase Hierarchy (S-AMPH) model, a set of algorithms for deriving the dominant AM patterns in child-directed speech (CDS). Using Principal Components Analysis, we show that rhythmic CDS contains an AM hierarchy comprising 3 core modulation timescales. These timescales correspond to key phonological units: prosodic stress (Stress AM, ~2 Hz), syllables (Syllable AM, ~5 Hz) and onset-rime units (Phoneme AM, ~20 Hz). We argue that these AM patterns could in principle be used by naïve listeners to compute acoustic-phonological mappings without lexical knowledge. We then demonstrate that the modulation statistics within this AM hierarchy indeed parse the speech signal into a primitive hierarchically-organised phonological system comprising stress feet (proto-words), syllables and onset-rime units. We apply the S-AMPH model to two other CDS corpora, one spontaneous and one deliberately-timed. The model accurately identified 72–82% (freely-read CDS) and 90–98% (rhythmically-regular CDS) stress patterns, syllables and onset-rime units. This in-principle demonstration that primitive phonology can be extracted from speech AMs is termed Acoustic-Emergent Phonology (AEP) theory. AEP theory provides a set of methods for examining how early phonological development is shaped by the temporal modulation structure of speech across languages. The S-AMPH model reveals a crucial developmental role for stress feet (AMs ~2 Hz). Stress feet underpin different linguistic rhythm typologies, and speech rhythm underpins language acquisition by infants in all languages.

Suggested Citation

  • Victoria Leong & Usha Goswami, 2015. "Acoustic-Emergent Phonology in the Amplitude Envelope of Child-Directed Speech," PLOS ONE, Public Library of Science, vol. 10(12), pages 1-37, December.
  • Handle: RePEc:plo:pone00:0144411
    DOI: 10.1371/journal.pone.0144411
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    Cited by:

    1. Maria Mittag & Eric Larson & Samu Taulu & Maggie Clarke & Patricia K. Kuhl, 2022. "Reduced Theta Sampling in Infants at Risk for Dyslexia across the Sensitive Period of Native Phoneme Learning," IJERPH, MDPI, vol. 19(3), pages 1-16, January.
    2. Giovanni M. Di Liberto & Adam Attaheri & Giorgia Cantisani & Richard B. Reilly & Áine Ní Choisdealbha & Sinead Rocha & Perrine Brusini & Usha Goswami, 2023. "Emergence of the cortical encoding of phonetic features in the first year of life," Nature Communications, Nature, vol. 14(1), pages 1-11, December.

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