Troest N, Møhl B
J Comp Physiol A. 1986 Oct;159(4):559-67. doi: 10.1007/BF00604175.
Using a target simulator three serotine bats, Eptesicus serotinus, were trained to judge whether a phantom target was present or absent. The echolocation sounds emitted by the bats during the detection were intercepted by a microphone, amplified and returned by a loudspeaker as an artificial echo, with a delay of 3.2 ms and a sound level determined by the overall gain and cry amplitude. The cry level of each pulse was measured and the echo level received by the bat was calculated. The target was presented in 50% of the trials and the gain adjusted using conventional up/down procedures. Under these conditions between 40 and 48 dB peSPL were required for 50% detection (Figs. 2, 3). In a subsequent experiment the phantom target was masked with white noise (No) with a spectrum level of -113 dB re. 1 Pa X Hz-1/2. The thresholds were increased by 7-14 dB. Energy density (S) of a single pulse was measured and used to estimate S/No, which ranged from 36-49 dB at threshold. Theoretically the coherent receiver model predicts the ratio between hits and false alarms observed for the bats at a S/No of ca. 1-2 dB. Since the bats require 40-50 dB higher S/No (Fig. 3), this is taken as negative evidence for coherent reception (cross correlation). Furthermore, a strong sensitivity to clutter was found since there seemed to exist a fixed relationship between thresholds and clutter level.
使用目标模拟器对三只普通伏翼(Eptesicus serotinus)进行训练,使其判断虚拟目标是否存在。蝙蝠在探测过程中发出的回声定位声被麦克风截取,放大后通过扬声器作为人工回声返回,延迟3.2毫秒,声级由总增益和叫声幅度决定。测量每个脉冲的叫声水平,并计算蝙蝠接收到的回声水平。在50%的试验中呈现目标,并使用传统的上下程序调整增益。在这些条件下,50%的探测需要40至48分贝声压级(peSPL)(图2、3)。在随后的实验中,虚拟目标用白噪声(No)掩蔽,频谱水平为-113分贝相对于1帕斯卡×赫兹-1/2。阈值增加了7至14分贝。测量单个脉冲的能量密度(S),并用于估计信噪比(S/No),在阈值时其范围为36至49分贝。理论上,相干接收器模型预测在信噪比约为1至2分贝时蝙蝠观察到的命中与误报之间的比率。由于蝙蝠需要高40至50分贝的信噪比(图3),这被视为相干接收(互相关)的负面证据。此外,发现对杂波有很强的敏感性,因为阈值与杂波水平之间似乎存在固定关系。
