/

/

基于电子电图的生物混合气味检测无人机使用丝质天线进行气味源本地化

JoVE Journal
Engineering

This content is Free Access.

JoVE Journal Engineering

Electroantennography-based Bio-hybrid Odor-detecting Drone using Silkmoth Antennae for Odor Source Localization

Please note that all translations are automatically generated. Click here for the English version.

基于电子电图的生物混合气味检测无人机使用丝质天线进行气味源本地化

DOI:

10.3791/62895-v

•

06:00 min

•

August 27, 2021

•

Daigo Terutsuki, Tomoya Uchida, Chihiro Fukui, Yuji Sukekawa, Yuki Okamoto, Ryohei Kanzaki

¹Research Center for Advanced Science and Technology,The University of Tokyo, ²Department of Mechano-Informatics, Graduate School of Information Science and Technology,The University of Tokyo, ³Department of Applied Biological Science, Graduate School of Science and Technology,Tokyo University of Science, ⁴Sensing System Research Center,National Institute of Advanced Industrial Science and Technology

Chapters

00:05Introduction
00:27EAG Experiments on a Fixed Desk Surface
01:49EAG Experiments on the Drone and Sensor Enclosure
03:33Odor Tracing Demonstration Using the Bio-hybrid Drone
04:08Results: Bio-hybrid Odor-detecting Drone Using Silkmoth Antennae for Odor Source Localization
05:34Conclusion

Summary

Automatic Translation

这项研究引入了基于丝质天线的生物混合气味检测无人机的实验协议。除了使用螺旋涌算法设计用于气味源定位的生物混合无人机的结构外，还介绍了使用丝质天线的实验电感天线装置的操作。

Tags

Keywords: Electroantennography Bio-hybrid Drone Silkmoth Antennae Odor Source Localization Odor Detection EAG Device Bombykol Odor Stimulation System Airflow Stabilization Data Acquisition Drone Control

Article

Embed

ADD TO PLAYLIST

Usage Statistics

Related Videos

无序横向安德森本地化光聚合物光纤的制备和表征

使用中子自旋回声解决放牧发生率散射调查有机太阳能电池材料

火焰在实验的先进光源：全新洞察烟灰形成过程

电池的使用同步为基础的硬X射线微断层故障分析

使用2-D棋盘相位光栅X射线束相干测量沿多个方向

利用同步辐射微断层调查的多尺度三维微电子封装

散装异质结太阳能电池的印刷和制作<em>原位</em>形态特征

量子干涉效应在硅谐振环光子源测量

使用激光投射光热法构造加热的地下缺陷定位

矿物和岩石样品的同步辐射 x 射线 Microdiffraction 和荧光成像

Read Article