Curtis J. Seaman, W. Line, R. Ziel, Jennifer L. Jenkins, C. Dierking, Greg Hanson
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引用次数: 0
Abstract
Two multispectral satellite imagery products are presented that were developed for use within the fire management community. These products, which take the form of false color red-green-blue composites, were designed to aid fire detection and characterization, and for assessment of the environment surrounding a fire. The first, named the Fire Temperature RGB, uses spectral channels near 1.6 μm, 2.2 μm and 3.9 μm for fire detection and rapid assessment of the range of fire intensity through intuitive coloration. The second, named the Day Fire RGB, uses spectral channels near 0.64 μm, 0.86 μm and 3.9 μm for rapid scene assessment. The 0.64 μm channel provides information on smoke, the 0.86 μm channel provides information on vegetation health and burn scars, and the 3.9 μm channel provides active fire detections. Examples of these red-green-blue composite images developed from observations collected by three operational satellite imagers (VIIRS on the polar-orbiting platform and the Advanced Baseline Imager and Advanced Himawari Imager on the geostationary platform) demonstrate that both red-green-blue composites are useful for fire detection and contain valuable information that is not present within operational fire detection algorithms. In particular, it is shown that Fire Temperature RGB and Day Fire RGB images from VIIRS have similar utility for fire detection as the operational VIIRS Active Fire products, with the added benefit that the imagery provides context for more than just the fires themselves.
介绍了为在消防管理界使用而开发的两种多光谱卫星图像产品。这些产品采用假彩色红-绿-蓝复合材料的形式,旨在帮助火灾探测和表征,并评估火灾周围的环境。第一种被命名为“火灾温度RGB”,使用1.6μm、2.2μm和3.9μm附近的光谱通道进行火灾探测,并通过直观的着色快速评估火灾强度范围。第二种被命名为Day Fire RGB,使用0.64μm、0.86μm和3.9μm附近的光谱通道进行快速场景评估。0.64微米通道提供烟雾信息,0.86微米通道提供植被健康和烧伤疤痕信息,3.9微米通道提供主动火灾探测。从三个运行卫星成像仪(极轨平台上的VIIRS和地球静止平台上的高级基线成像仪和高级Himawari成像仪)收集的观测结果中获得的这些红-绿-蓝复合图像的例子表明,这两种红-绿/蓝复合图像都可用于火灾探测,并包含内部不存在的宝贵信息可操作的火灾探测算法。特别是,研究表明,VIIRS的Fire Temperature RGB和Day Fire RGB图像在火灾检测方面与运行中的VIIRS Active Fire产品具有相似的实用性,其额外的好处是,图像提供的不仅仅是火灾本身的背景。
期刊介绍:
The Journal of Atmospheric and Oceanic Technology (JTECH) publishes research describing instrumentation and methods used in atmospheric and oceanic research, including remote sensing instruments; measurements, validation, and data analysis techniques from satellites, aircraft, balloons, and surface-based platforms; in situ instruments, measurements, and methods for data acquisition, analysis, and interpretation and assimilation in numerical models; and information systems and algorithms.