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引用次数: 4
摘要
MaxEnt语法是谐波语法的概率版本,其中候选人的和谐分数被映射到概率上。它已成为分析涉及概率变化或梯度可接受性的语音现象的首选工具,但也有一种竞争性的建议,即使谐波语法具有概率性,即噪声谐波语法,其中通过在约束权重中添加随机“噪声”来导出变化。本文对这些语法框架及其变体进行了分析,将它们重新表述为一种格式,在候选和声中添加噪声,框架之间的差异在于噪声的分布。这一分析揭示了模型之间的一个基本区别:在MaxEnt中,两个候选词的相对概率仅取决于它们的和谐分数的差异,而在Noisy Harmonic Grammar中,它还取决于两个候选词违反约束的差异。这种差异导致了可测试的预测,这些预测是根据法语弱读音的可变实现数据进行评估的(Smith & Pater 2020)。结果支持MaxEnt胜过嘈杂的谐波语法。
MaxEnt grammar is a probabilistic version of Harmonic Grammar in which the harmony scores of candidates are mapped onto probabilities. It has become the tool of choice for analyzing phonological phenomena involving probabilistic variation or gradient acceptability, but there is a competing proposal for making Harmonic Grammar probabilistic, Noisy Harmonic Grammar, in which variation is derived by adding random ‘noise’ to constraint weights. In this paper these grammar frameworks, and variants of them, are analyzed by reformulating them all in a format where noise is added to candidate harmonies, and the differences between frameworks lie in the distribution of this noise. This analysis reveals a basic difference between the models: in MaxEnt the relative probabilities of two candidates depend only on the difference in their harmony scores, whereas in Noisy Harmonic Grammar it also depends on the differences in the constraint violations incurred by the two candidates. This difference leads to testable predictions which are evaluated against data on variable realization of schwa in French (Smith & Pater 2020). The results support MaxEnt over Noisy Harmonic Grammar.