Provocation of verbal interaction of dolphins via a hydro-acoustic channel on the basis of cognitive empathy

Fundamental and Applied Hydrophysics Pub Date : 2023-07-26 DOI:10.59887/2073-6673.2023.16(2)-7

M. Ivanov, A. Rodionov, Larisa E. Leonova, T. Grishina, L. K. Rimskaya-Korsakova

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Abstract

The provocation of the hydroacoustic communication interaction of Tursiops truncatus dolphins based on cognitive empathy showed that they use packets of ultrashort pulses (USPs) in the process of “dialogue”. The duration of bursts varies from 40 ms to 3000 ms with modulation of the interval between USPs from ~1 to ~120 ms and pauses between bursts. The interval modulation pattern is structured using various modulation laws. The communication signals were obtained in an experiment with theparticipation of three animals, who knew the main task of sequential acoustic differentiation of two objective stimuli. The impetus for hydroacoustic interaction is the resolution of uncertainty when teaching the respondent the inverse differentiation problem. This generates emotional empathy in observers and provokes vocalization between individuals. The advantages and disadvantages of methodological methods of provoking hydroacoustic interaction are considered in detail, starting the process of cognitive empathy. In the method under consideration, echolocation and communication signals are spaced apart in time and space, which allows them to be uniquely identified.

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基于认知共情的水声通道对海豚言语互动的激发

基于认知共情的突突海豚水声通信交互激发表明，突突海豚在“对话”过程中使用超短脉冲(USPs)包。脉冲持续时间从40ms到3000ms不等，脉冲间隔从~1到~ 120ms调制，脉冲之间有停顿。区间调制模式采用不同的调制规律来构建。交流信号是在三只动物参与的实验中获得的，它们知道两个客观刺激的顺序声学区分的主要任务。水声相互作用的推动力是在教应答者逆微分问题时解决不确定性。这会在观察者中产生情感共鸣，并激发个体之间的发声。详细考虑了引发水声相互作用的方法学方法的优点和缺点，开始了认知共情的过程。在所考虑的方法中，回声定位和通信信号在时间和空间上是分开的，这使得它们可以被唯一地识别。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Fundamental and Applied Hydrophysics

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