HCUAV项目:用于中高度遥感的电子和软件开发

2014 IEEE International Symposium on Safety, Security, and Rescue Robotics (2014) Pub Date : 2014-10-01 DOI:10.1109/SSRR.2014.7017668

A. Amanatiadis, E. Karakasis, Loukas Bampis, Themistoklis Giitsidis, P. Panagiotou, G. Sirakoulis, A. Gasteratos, P. Tsalides, A. Goulas, K. Yakinthos

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引用次数: 4

摘要

近年来，南欧国家非法移民不断增加，造成大量人员死亡，成为欧盟关注的焦点。上述国家共有的另一个共同问题是地中海野火，由于气候变暖和干旱程度日益严重，这种野火越来越频繁。针对这些事件，这些国家分别资助和开发了不同的地面预警系统，但事实证明，这些系统还不够，主要原因是调查区域有限，地中海海岸线和景观具有挑战性。2011年，希腊政府与欧盟委员会一起决定支持第一架希腊民用无人机(HCUAV)的开发，这将为非法移民和野火提供解决方案。本文介绍了电子和软件设计方面的挑战，特别是正在开发的解决方案，用于检测人类和火灾活动，使用商用现成的传感器进行图像拼接和正校正。HCUAV中高空遥感算法的初步实验结果显示，使用低成本传感器和电子设备获得了准确和充分的结果。

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The HCUAV project: Electronics and software development for medium altitude remote sensing

The continuous increase of illegal migration flows to southern European countries has been recently in the spotlight of European Union due to numerous deadly incidents. Another common issue that the aforementioned countries share is the Mediterranean wildfires which are becoming more frequent due to the warming climate and increasing magnitudes of droughts. Different ground early warning systems have been funded and developed across these countries separately for these incidents, however they have been proved insufficient mainly because of the limited surveyed areas and challenging Mediterranean shoreline and landscape. In 2011, the Greek Government along with European Commission, decided to support the development of the first Hellenic Civil Unmanned Aerial Vehicle (HCUAV), which will provide solutions to both illegal migration and wildfires. This paper presents the challenges in the electronics and software design, and especially the under development solutions for detection of human and fire activity, image mosaicking and orthorectification using commercial off-the-shelf sensors. Preliminary experimental results of the HCUAV medium altitude remote sensing algorithms, show accurate and adequate results using low cost sensors and electronic devices.

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2014 IEEE International Symposium on Safety, Security, and Rescue Robotics (2014)

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