回声定位蝙蝠的感觉凝视稳定

O. Eitan, G. Kósa, Y. Yovel
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引用次数: 15

摘要

从移动平台上进行感知对人造机器和动物来说都是一项挑战。动物的头部在运动过程中会抖动,所以如果它们携带的传感器不稳定,任何空间估计都可能有偏差。会飞的动物,比如蝙蝠,就深受这个问题的困扰,因为拍打翅膀的飞行会引起加速度的快速变化,从而使身体上下移动。对于回声定位的蝙蝠来说,这个问题至关重要。因为它们发出声音来感知世界,不稳定的头部意味着指向错误方向的声音能量。蝙蝠如何缓解这个问题尚不清楚。通过追踪飞行果蝠的头部和身体,我们发现它们可以稳定头部,准确地保持相对于目标的固定声音凝视。即使在完全黑暗的环境中,蝙蝠也能利用基于回声的信息来完成稳定任务。此外,蝙蝠的回声定位波束指向目标下方,而不是指向目标,这种策略应该能更好地估计目标的高度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Sensory gaze stabilization in echolocating bats
Sensing from a moving platform is challenging for both man-made machines and animals. Animals' heads jitter during movement, so if the sensors they carry are not stabilized, any spatial estimation might be biased. Flying animals, like bats, seriously suffer from this problem because flapping flight induces rapid changes in acceleration which moves the body up and down. For echolocating bats, the problem is crucial. Because they emit a sound to sense the world, an unstable head means sound energy pointed in the wrong direction. It is unknown how bats mitigate this problem. By tracking the head and body of flying fruit bats, we show that they stabilize their heads, accurately maintaining a fixed acoustic-gaze relative to a target. Bats can solve the stabilization task even in complete darkness using only echo-based information. Moreover, the bats point their echolocation beam below the target and not towards it, a strategy that should result in better estimations of target elevation.
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