A Maximum Entropy Model of Phonotactics and Phonotactic Learning  

Oleh:

Hayes, Bruce ; Wilson, Colin

Jenis: Article from Journal - ilmiah internasional
Dalam koleksi: Linguistic Inquiry (ada di JSTOR) vol. 39 no. 3 (2008), page 379-440.
Topik: phonotactics; maximum entropy; learnability; onsert; Shona; Wargamay
Fulltext: 40071443.pdf (7.52MB)

Isi artikel

The study of phonotactics (e.g., the ability of English speakers to distinguish possible words like blick from impossible words like *bnick) is a central topic in phonology. We propose a theory of phonotactic grammars and a learning algorithm that constructs such grammars from positive evidence. Our grammars consist of constraints that are assigned numerical weights according to the principle of maximum entropy. Possible words are assessed by these grammars based on the weighted sum of their constraint violations. The learning algorithm yields grammars that can capture both categorical and gradient phonotactic patterns. The algorithm is not provided with any constraints in advance, but uses its own resources to form constraints and weight them. A baseline model, in which Universal Grammar is reduced to a feature set and an SPE-style constraint format, suffices to learn many phonotactic phenomena. In order to learn nonlocal phenomena such as stress and vowel harmony, it is necessary to augment the model with autosegmental tiers and metrical grids. Our results thus offer novel, learning-theoretic support for such representations. We apply the model to English syllable onsets, Shona vowel harmony, quantity-insensitive stress typology, and the full phonotactics of Wargamay, showing that the learned grammars capture the distributional generalizations of these languages and accurately predict the findings of a phonotactic experiment.

Opini Anda

Klik untuk menuliskan opini Anda tentang koleksi ini!

Kembali