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使用虎皮鹦鹉(Melopsittacus undulatus)决策变量相关性识别噪声中音调检测线索。

Identifying cues for tone-in-noise detection using decision variable correlation in the budgerigar (Melopsittacus undulatus).

机构信息

Department of Otolaryngology, University of Rochester, Rochester, New York 14642, USA.

Department of Neuroscience, University of Rochester, Rochester, New York 14642, USA.

出版信息

J Acoust Soc Am. 2020 Feb;147(2):984. doi: 10.1121/10.0000621.

Abstract

Previous studies evaluated cues for masked tone detection using reproducible noise waveforms. Human results founded on this approach suggest that tone detection is based on combined energy and envelope (ENV) cues, but detection cues in nonhuman species are less clear. Decision variable correlation (DVC) was used to evaluate tone-in-noise detection cues in the budgerigar, an avian species with human-like behavioral sensitivity to many complex sounds. DVC quantifies a model's ability to predict trial-by-trial variance in behavioral responses. Budgerigars were behaviorally conditioned to detect 500-Hz tones in wideband (WB; 100-3000 Hz) and narrowband (NB; 452-552 Hz) noise. Behavioral responses were obtained using a single-interval, two-alternative discrimination task and two-down, one-up adaptive tracking procedures. Tone-detection thresholds in WB noise were higher than human thresholds, putatively due to broader peripheral frequency tuning, whereas NB thresholds were within ∼1 dB of human results. Budgerigar average hit and false-alarm rates across noise waveforms were consistent, highly correlated across subjects, and correlated to human results. Trial-by-trial behavioral results in NB noise were best explained by a model combining energy and ENV cues. In contrast, WB results were better predicted by ENV-based or multiple-channel energy detector models. These results suggest that budgerigars and humans use similar cues for tone-in-noise detection.

摘要

先前的研究使用可重复的噪声波形评估了掩蔽音调检测的线索。基于这种方法的人类研究结果表明,音调检测基于组合的能量和包络(ENV)线索,但在非人类物种中的检测线索则不太明确。决策变量相关性(DVC)用于评估虎皮鹦鹉(一种具有类似人类对许多复杂声音的行为敏感性的鸟类)中噪声中的音调检测线索。DVC 量化了模型预测行为反应逐次变化的能力。虎皮鹦鹉通过宽带(WB;100-3000 Hz)和窄带(NB;452-552 Hz)噪声中的 500 Hz 音调进行行为训练。使用单间隔、二选一辨别任务和二下,一上自适应跟踪程序获得行为反应。WB 噪声中的音调检测阈值高于人类阈值,这可能是由于更宽的外围频率调谐所致,而 NB 阈值与人类结果相差约 1 dB。虎皮鹦鹉在噪声波形中的平均击中率和虚报率在不同个体之间是一致的,高度相关,并且与人类结果相关。NB 噪声中的逐次行为结果最好由结合能量和 ENV 线索的模型来解释。相比之下,WB 结果更能被基于 ENV 的或多通道能量检测器模型所预测。这些结果表明,虎皮鹦鹉和人类使用类似的线索来进行噪声中的音调检测。

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