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Demonstrating Acquisition of Real-Time Thermal Data Over Fires Utilizing UAVs

机译：利用无人机展示采集火灾时的实时热数据

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A disaster mitigation demonstration, designed to integrate remote-piloted aerial platforms, a thermal infrared imaging payload, over-the-horizon (OTH) data telemetry and advanced image geo-rectification technologies was initiated in 2001. Project FiRE incorporates the use of a remotely piloted Uninhabited Aerial Vehicle (UAV), thermal imagery, and over-the-horizon satellite data telemetry to provide geo-corrected data over a controlled burn, to a fire management community in near real-time. The experiment demonstrated the use of a thermal multi-spectral scanner, integrated on a large payload capacity UAV, distributing data over-the-horizon via satellite communication telemetry equipment, and precision geo-rectification of the resultant data on the ground for data distribution to the Internet. The use of the UAV allowed remote-piloted flight (thereby reducing the potential for loss of human life during hazardous missions), and the ability to 'finger and stare' over the fire for extended periods of time (beyond the capabilities of human-pilot endurance). Improved bit-rate capacity telemetry capabilities increased the amount, structure, and information content of the image data relayed to the ground. The integration of precision navigation instrumentation allowed improved accuracies in geo-rectification of the resultant imagery, easing data ingestion and overlay in a GIS framework. We focus on these technological advances and demonstrate how these emerging technologies can be readily integrated to support disaster mitigation and monitoring strategies regionally and nationally.

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Ambrosia, Vincent G.; Wegener, Steven S.; Brass, James A.; Buechel, Sally W.;
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年度 2002
页码 1-12
总页数 12
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Data acquisition; Real time operation; Pilotless aircraft; Forest fires; Infrared imagery; Satellite communication; Data transmission; Thermal mapping; Prototypes; Functional design specifications; Geographic information systems;

机译：数据采集;实时操作;无人驾驶飞机;森林火灾;红外图像;卫星通信;数据传输;热成像;原型;功能设计规范;地理信息系统;

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1. Demonstrating UAV-acquired real-time thermal data over fires [J] . Vincent G. Ambrosia, Steven S. Wegener, Donald V. Sullivan, Photogrammetric Engineering & Remote Sensing: Journal of the American Society of Photogrammetry . 2003,第4期

机译：演示无人机获取的火场实时热数据
2. Three-dimensional-imaging thermal surfaces of coal fires based on UAV thermal infrared data [J] . Shao Zhenlu, Li Yizhou, Deng Rong, International journal of remote sensing . 2021,第1a2期

机译：基于UAV热红外数据的煤火三维成像热表面
3. A methodology for acquisition and processing of thermal data acquired by UAVs: a test about subfluvial springs?￠???? investigations [J] . F. Chiabrando, I. Aicardi, F. Noardo, Geomatics,Natural Hazards & Risk . 2017,第1期

机译：一种获取和处理由无人机获取的热数据的方法：关于河床下弹簧的测试？调查
4. ROCKET ENGINE TESTING UTILIZING PC BASED, REAL-TIME DATA ACQUISITION, CONTROL, AND DATA PROCESSING SYSTEMS, USING THE WINDOWS NT OPERATING SYSTEM [C] . Kenneth J. Slusser, William M. Kelly International Instrumentation Symposium . 2001

机译：火箭发动机测试利用PC基于PC，实时数据采集，控制和数据处理系统，使用Windows NT操作系统
5. Real-time non-linear flight control of a fixed-wing UAV =REAL-TIME NON-LINEAR FLIGHT CONTROL OF A FIXED-WING UAV [D] . Landry, Mario. 2012

机译：固定翼UAV的实时非线性飞行控制=固定翼UAV的实时非线性飞行控制
6. Secure Utilization of Beacons and UAVs in Emergency Response Systems for Building Fire Hazard [O] . Seung-Hyun Seo, Jung-In Choi, Jinseok Song 2017

机译：在建筑物火灾隐患的应急响应系统中安全使用信标和无人机
7. A methodology for acquisition and processing of thermal data acquired by UAVs: a test about subfluvial springs' investigations [O] . Aicardi, Irene, Chiabrando, Filiberto, Lingua, Andrea Maria, 2016

机译：无人机获取和处理的热数据的方法：关于河流下层调查的测试

Demonstrating Acquisition of Real-Time Thermal Data Over Fires Utilizing UAVs

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