Stealth UAV through Coandă Effect

2020 Fourth IEEE International Conference on Robotic Computing (IRC) Pub Date : 2020-04-29 DOI:10.1109/IRC.2020.00040

Dongyoon Shin, Hyeji Kim, Jihyuk Gong, Uijeong Jeong, Yeeun Jo, E. Matson

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引用次数: 1

Abstract

This paper uses CoandăEffect to reduce motors, the source of noise, and finds low noise materials with sufficient lift force so that it can achieve acoustical stealth UAVs.According to NASA research [1], the noise of UAVs is better heard to people. But there must be some moments when we need to operate the drones quietly, so how can we reduce the noise? In previous research, there have also been steady attempts to produce UAVs using CoandăEffect, but have never tried to achieve Acoustic Stealth through Coanda UAVs. But Coanda Effect uses only one motor and is structurally quiet. So we tried to find quiet methods (materials, structures) while at the same time having sufficient stimulus through the CoandăEffect. Verification went through experiments. The control group used the most common type of Quadrone, and determine if the hypothesis is correct by testing various structures and materials under the same conditions, and measuring noise. UAVs using CoandăEffect are not of any shape or structure that is not changeable, and internal space is also empty. That's why the CoandăEffect UAV we present can be improved through follow-up research. That's why the CoandăEffect UAV could open up a new frontier for the Stealth UAVs.

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通过科安德效应的隐形无人机

本文利用协同效应来降低噪声源电机，寻找具有足够升力的低噪声材料，从而实现无人机的声隐身。根据NASA的研究[1]，无人机的噪音更容易被人听到。但在某些时刻，我们需要安静地操作无人机，那么我们如何减少噪音呢?在之前的研究中，也有使用协同效应生产无人机的稳定尝试，但从未试图通过协同无人机实现声隐身。但“康达效应”只用了一个马达，结构上很安静。所以我们试图寻找安静的方法(材料，结构)，同时通过协调效应有足够的刺激。通过实验验证。控制组使用最常见的四边形，并通过在相同条件下测试各种结构和材料以及测量噪声来确定假设是否正确。使用协同效应的无人机没有任何形状和结构是不可改变的，内部空间也是空的。这就是为什么我们展示的协同效应无人机可以通过后续研究得到改进。这就是为什么协同效应无人机可以为隐形无人机开辟一个新的领域。

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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2020 Fourth IEEE International Conference on Robotic Computing (IRC)

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