Bat target tracking strategies for prey interception.

Q2 Agricultural and Biological Sciences

Communicative and Integrative Biology Pub Date : 2021-03-12 DOI:10.1080/19420889.2021.1898751

Angeles Salles, Clarice A Diebold, Cynthia F Moss

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引用次数: 4

Abstract

Insectivorous bats capture their prey in flight with impressive success. They rely on the echoes of their own ultrasonic vocalization that yield acoustic snapshots, which enable target tracking on a rapid time scale. This task requires the use of intermittent information to navigate a dynamically changing environment. Bats may solve this challenging task by building internal models that estimate target velocity to anticipate the future location of a prey item. This has been recently tested empirically in perched bats tracking a target moving across their acoustic field. In this report, we build on past work to propose a new model that describes bat flight trajectories employing predictive strategies. Furthermore, we compare this model with a previous model of bat target interception that has also been employed by some visually guided animals: parallel navigation. Abbreviations: HTTP, Hybrid Target Trajectory Prediction; CATD, Constant Absolute Target Direction; CB, Constant Bearing; PN, Parallel Navigation.

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蝙蝠目标跟踪策略的猎物拦截。

食虫蝙蝠在飞行中成功捕获猎物。它们依靠自身超声波发声的回声来产生声波快照，从而能够在快速的时间尺度上跟踪目标。这项任务需要使用间歇性信息来导航动态变化的环境。蝙蝠可以通过建立内部模型来估计目标速度，从而预测猎物的未来位置，从而解决这个具有挑战性的任务。最近在栖息的蝙蝠追踪穿过它们声场的目标上进行了经验测试。在本报告中，我们在过去工作的基础上提出了一个新的模型，该模型采用预测策略来描述蝙蝠的飞行轨迹。此外，我们将该模型与先前蝙蝠目标拦截模型进行了比较，该模型也被一些视觉引导动物所采用:平行导航。缩写:HTTP，混合目标轨迹预测;恒定绝对目标方向;CB，恒轴承;平行航行。

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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