Sensing capacitance of underwater objects in bio-inspired electrosense

Yang Bai, James Snyder, Yonatan Silverman, M. Peshkin, M. A. MacIver
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引用次数: 23

Abstract

Certain electric fish use a self-generated AC electric field to navigate and hunt. Thousands of sensors on the surface of the fish's body detect the pattern of amplitude and phase distortions of the field caused by nearby objects. Prior research has suggested that phase distortions may be especially useful for recognition of live objects. Here we present the first study of the utility of phase information in a robotic implementation of active electrosense. Using our robotic implementation, we investigated how the phase information depends on the frequency of the emitted field, the conductivity of the surrounding water, and object properties. An analytical model was developed serving as qualitative explanation of the dependency. We show that in certain situations phase information enables discrimination between two objects that are otherwise very similar in the amplitude of their electric images. We also show the utility of probing objects with multiple frequencies.
仿生电感水下物体的传感电容
某些电鱼利用自己产生的交流电场来导航和捕猎。鱼身体表面的数千个传感器检测到附近物体引起的磁场振幅和相位扭曲的模式。先前的研究表明,相位扭曲可能对识别活体物体特别有用。在这里,我们提出了相位信息在主动电传感机器人实现中的应用的第一个研究。使用我们的机器人实现,我们研究了相位信息如何依赖于发射场的频率、周围水的电导率和物体属性。建立了一个分析模型,作为依赖性的定性解释。我们表明,在某些情况下,相位信息可以区分两个物体,否则它们的电子图像的振幅非常相似。我们还展示了探测具有多个频率的对象的效用。
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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