猫的元音形声频率辨别:听觉神经表象与心理物理阈值的比较

Auditory neuroscience Pub Date : 1996-04-24
Bradford J May, Aileen Huang, Glenn LE Prell, Robert D Hienz
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引用次数: 0

摘要

实验 1 建立了数学模型,用于估计元音 /ε/ 的第二声母(F2)频率变化的神经速率表征。模型基于对具有高、中、低自发率(SRs)的听觉神经纤维响应模式的线性拟合,这些自发率是之前对麻醉猫进行的电生理研究的特征(Le Prell 等人,1996 年)。模拟在安静和连续背景噪声的情况下以多种元音水平运行。噪音水平经过调整,在每个元音水平上产生 3 dB 的恒定信噪比(S/N)。对模型输出的信号检测分析表明,在较高元音水平和背景噪声中,低 SR 的听觉神经纤维对 F2 频率的变化提供了最佳的速率表示。实验 2 通过测量猫对 F2 频率变化的心理物理阈值(ΔF2),检验了听觉神经模型的预测。行为测试是在信噪比分别为 3、13 和 23 dB 的连续背景噪声中,在元音声级为 31、51 和 71 dB 时进行的。在这三种元音水平下,ΔF2 随着信噪比的降低而增加。行为表现的趋势与元音表征的质量非常吻合,在低元音水平时,高SR听觉神经纤维提供元音表征,而在中高元音水平时,低SR纤维提供元音表征。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Vowel Formant Frequency Discrimination in Cats: Comparison of Auditory Nerve Representations and Psychophysical Thresholds.

Vowel Formant Frequency Discrimination in Cats: Comparison of Auditory Nerve Representations and Psychophysical Thresholds.

Vowel Formant Frequency Discrimination in Cats: Comparison of Auditory Nerve Representations and Psychophysical Thresholds.

Vowel Formant Frequency Discrimination in Cats: Comparison of Auditory Nerve Representations and Psychophysical Thresholds.

Experiment 1 derived mathematical models for estimating the neural rate representation of changes in the second formant (F2) frequency of the vowel /ε/. Models were based on linear fits to response patterns of auditory-nerve fibers with high, medium and low spontaneous rates (SRs), as characterized in previous electrophysiological studies of anesthetized cats (Le Prell et al., 1996). Simulations were run at several vowel levels in quiet and in the presence of continuous background noise. Noise levels were adjusted to produce a constant signal-to-noise ratio (S/N) of 3 dB at each vowel level. A signal detection analysis of model outputs suggested that auditory-nerve fibers with low SR provided the best rate representation of changes in F2 frequency at higher vowel levels and in background noise. Experiment 2 examined the predictions of the auditory nerve model by measuring psychophysical thresholds for F2 frequency changes (ΔF2) in cats. Behavioral tests were performed at vowel levels of 31, 51, and 71 dB in continuous background noise at S/Ns of 3, 13, and 23 dB. ΔF2 increased with decreasing S/N at each of these three vowel levels. Trends in behavioral performance corresponded well with the quality of vowel representations that are provided by high SR auditory-nerve fibers at low vowel levels and low SR fibers at moderate-to-high levels.

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