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基于多源遥感数据的水体信息提取研究 总被引:1,自引:0,他引:1
卫星遥感技术已被广泛应用到水体信息提取中,但目前基于遥感技术的水体信息提取多采用单一的遥感数据源,而没有充分利用多源数据的信息复合优势,因此,提取结果经常受天气气候或空间分辨率限制。本文研究了不同尺度、不同平台的多种遥感数据源的水体信息提取方法。首先,基于波谱间关系决策树分类算法对Landsat ETM+图像进行水体提取,利用其分辨率优势较准确地提取出水体范围;其次,在Radarsat SAR图像上利用阈值法粗提取水体信息后,结合DEM剔除阴影得到水体信息;最后,利用灾前Landsat ETM+图像水体信息提取结果和灾中Radarsat SAR图像水体信息提取结果,进行差值处理,得到洪水淹没范围。研究结果可以为洪水灾害监测与评估提供信息依据。 相似文献
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洪涝灾害会造成农田淹没、居民住宅损毁等危害,因此对洪水淹没范围进行实时、准确监测可有效进行灾后治理。利用光学传感器提取洪水淹没范围时,不能穿透云层,因此无法获取有效地面信息;而SAR使用微波波段,不受天气影响,在夜间也能成像。因此,SAR成为洪水灾害灾情评估的有力工具。本文利用2021年9月23日、10月5日、10月17日3景SAR雷达影像Sentinel-1A数据,计算相干性系数,设置阈值为0.2,提取水体淹没范围,分析其扩张范围及变化趋势,并根据生成的形变图分析水位抬升变化,验证了基于雷达数据的相干系数阈值提取方法监测洪水淹没范围,以及采用InSAR技术准确提取水体边界与分析水位上升趋势的可行性。 相似文献
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合成孔径雷达(SAR)因其对地观测全天候、全天时优势,成为多云多雨天气限制下洪水动态监测中不可或缺的数据来源之一。由于GEE(Google Earth Engine)云计算平台的兴起和短重访Sentinel-1数据的可获取性,洪水监测与灾害评估目前正面向动态化、广域化快速发展。顾及洪水淹没区土地覆盖变化的复杂性和发生时间的不确定性,基于时序Sentinel-1A卫星数据提出了针对大尺度范围、连续长期的汛情自动检测及动态监测方法。该方法首先,利用图像二值化分割时序SAR数据实现水体时空分布粗制图,逐像素计算时间序列中被识别为水体候选点的频率。然后,利用Sentinel-2光学影像对精度较粗的初期SAR水体提取结果进行校正,得到精细的水体分布图。最后,针对不同频率区间的淹没特点,采用差异化的时序异常检测策略识别淹没范围:对低频覆水区利用欧氏距离检测时序断点,以提取扰动强度大、淹没时间短的洪涝灾害区;对高频覆水区利用标准分数(Z-Score)检测时序断点,以提取季节性水体覆盖区。在GEE平台上利用该方法,实现了2020-05—10长江中下游地区全域洪水淹没范围时空信息的自动、快速、有效监测,揭示了不同区域汛情发展模式的差异性。本文提出的洪水快速监测方法对大尺度下的汛情动态监测、灾害定量评估和快速预警响应具有重要的现实意义。 相似文献
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针对灾后水中悬浮物质增多和高含水量农作物导致常规水体信息提取方法精度较低的问题,提出了一种基于缨帽变换的农田洪水淹没范围遥感信息提取方法。首先,对灾前、灾后遥感图像进行辐射定标和大气校正。其次,通过缨帽变换获取绿度分量和湿度分量;然后,利用最大类间方差法对湿度分量进行分割,结合绿度分量提取水体信息;最后,叠加农田矢量数据,确定农田洪水淹没范围。以湖南省岳阳市及其附近区域为研究区,从定性和定量两个方面对方法进行精度评价。结果表明,该方法所得结果边界清晰,范围准确,生产者精度和用户精度分别为0.97和0.90。该研究能够为农田灾损评估、洪涝灾害动态监测提供参考。 相似文献
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以斯里兰卡2017-05-25开始的洪灾为研究对象,利用灾中和灾后GF-3和Sentinel-1获取的多期数据,采用符合研究区域特征的最优提取方法,提取了多期洪水淹没范围。并利用同时期的光学卫星哨兵2号(Sentinel-2)观测数据、研究区高程数据以及当地官方公布的受灾面积进行了结果验证分析。结果显示Sentinel-1比GF-3噪点更多且误提取了更多山区阴影,因而导致Sentinel提取洪水面积偏大,GF-3提取的洪水面积更接近于官方公布的受淹面积。本研究通过斯里兰卡的GF-3和Sentinel-1应用对比,显示了GF-3在洪涝灾害信息提取中具有较为准确的精度,对GF-3在洪水灾害动态监测的应用精度提供了应用实例。另外一方面,通过GF-3与Sentinel-1协同校正应用,可以得到更多的洪水过程信息,为防灾减灾领域提供可靠的数据支持。 相似文献
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洪涝灾害是我国最严重的气象灾害之一,及时准确的洪灾监测是防灾减灾的重要前期工作和基础。本文利用sentinel-1B雷达数据,以黑瞎子岛为研究区,联合使用OSTU阈值分割法和随机森林面向对象分类法针对像素统计单波形、双波形、多波形SAR影像提取洪水要素,实现对洪灾淹没面积的时序监测,为灾情监测提供数据和技术支撑。 相似文献
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目前,洪涝灾害是我国最严重的气象灾害之一,如何实现及时准确的洪灾监测是防灾减灾的重要前提和基础。本文基于多源遥感数据,采用数据协同的方式进行洪涝淹没范围时序监测分析,以重现淹没情形,反映灾情特征。其中MODIS地表反射率产品和DFO达特茅斯洪水数据库能够实现淹没的宏观动态监测;由同期高分辨率遥感影像水体提取结果以空间差值的计算方式求取的淹没范围则能反映淹没的空间变化和细节特征。相关结果可为灾情评估奠定基础。 相似文献
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《测绘与空间地理信息》2020,(8)
以邵阳县洪涝灾害为研究对象,采用Landsat8 OLI数据和Sentinel-1 SAR数据,通过NCIWI和SDWI多种指数增大洪灾前后水体和背景差异,利用DEM建模去除SAR数据山体阴影干扰,并采用Otsu法计算最优分割阈值,从而构建精度高、抗干扰性强的Sentinel-1 SAR数据洪水淹没信息提取方法。研究结果表明:1)融合数据提取精度较高; 2) DEM建模去除山体阴影效果良好; 3) GS变换融合法、组合水体指数法结合Otsu分割法,可实现水体精度提取,数据融合对洪水淹没范围与面积监测效果良好。 相似文献
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It is viable to differentiate the deep and shallow flood inundated regions through a new flood feature extraction techniques named as ‘Digital Elevation Model (DEM) and Synthetic Aperture Radar (SAR) image based flood feature extraction model’. The proposed model has been built mainly on the top of DEM of the disaster region without adopting standard multi-layer GIS techniques. To meet the time related factors of flood early warning system the image clustering operations has been automated at three different levels which bifurcates the input datasets and extracts the much required end results such as deep flooded regions, shallow flood inundated regions and non-flooded regions. The model has been tested with SAR flood images of known geographical region as well as remote geographical region. The proposed model can be automated against the input SAR sensor image and corresponding DEM of the respective SAR scene of any part of the world. 相似文献
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Mapping floods due to Hurricane Sandy using NPP VIIRS and ATMS data and geotagged Flickr imagery 总被引:1,自引:0,他引:1
Donglian Sun Sanmei Li Wei Zheng Arie Croitoru Anthony Stefanidis Mitchell Goldberg 《International Journal of Digital Earth》2016,9(5):427-441
In this study, we present an approach to estimate the extent of large-scale coastal floods caused by Hurricane Sandy using passive optical and microwave remote sensing data. The approach estimates the water fraction from coarse-resolution VIIRS and ATMS data through mixed-pixel linear decomposition. Based on the water fraction difference, using the physical characteristics of water inundation in a basin, the flood map derived from the coarse-resolution VIIRS and ATMS measurements was extrapolated to a higher spatial resolution of 30 m using topographic information. It is found that flood map derived from VIIRS shows less inundated area than the Federal Emergency Management Agency (FEMA) flood map and the ground observations. The bias was mainly caused by the time difference in observations. This is because VIIRS can only detect flood under clear conditions, while we can only find some clear-sky data around the New York area on 4 November 2012, when most flooding water already receded. Meanwhile, microwave measurements can penetrate through clouds and sense surface water bodies under clear-or-cloudy conditions. We therefore developed a new method to derive flood maps from passive microwave ATMS observations. To evaluate the flood mapping method, the corresponding ground observations and the FEMA storm surge flooding (SSF) products are used. The results show there was good agreement between our ATMS and the FEMA SSF flood areas, with a correlation of 0.95. Furthermore, we compared our results to geotagged Flickr contributions reporting flooding, and found that 95% of these Flickr reports were distributed within the ATMS-derived flood area, supporting the argument that such crowd-generated content can be valuable for remote sensing operations. Overall, the methodology presented in this paper was able to produce high-quality and high-resolution flood maps over large-scale coastal areas. 相似文献
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Operational flood mitigation and flood modeling activities benefit from a rapid and automated flood mapping procedure. A valuable information source for such a flood mapping procedure can be remote sensing synthetic aperture radar (SAR) data. In order to be reliable, an objective characterization of the uncertainty associated with the flood maps is required.This work focuses on speckle uncertainty associated with the SAR data and introduces the use of a non-parametric bootstrap method to take into account this uncertainty on the resulting flood maps. From several synthetic images, constructed through bootstrapping the original image, flood maps are delineated. The accuracy of these flood maps is also evaluated w.r.t. an independent validation data set, obtaining, in the two test cases analyzed in this paper, F-values (i.e. values of the Jaccard coefficient) comprised between 0.50 and 0.65. This method is further compared to an image segmentation method for speckle analysis, with which similar results are obtained. The uncertainty analysis of the ensemble of bootstrapped synthetic images was found to be representative of image speckle, with the advantage that no segmentation and speckle estimations are required.Furthermore, this work assesses to what extent the bootstrap ensemble size can be reduced while remaining representative of the original ensemble, as operational applications would clearly benefit from such reduced ensemble sizes. 相似文献
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黄河防洪遥感应用试验简介 总被引:1,自引:0,他引:1
本文详细地介绍了1988年黄河防汛遥感试验的情况,着重介绍了遥感图像、水位数据实时传 输系统的建立及试验的结果,介绍了黄河试验区防洪数据库的建立及试验取得的成果以及利用极 轨气象卫星进行洪水监测的结果。 相似文献
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XianWen Ding XiaoFeng Li 《International Journal of Applied Earth Observation and Geoinformation》2011
As an active microwave remote sensing sensor, synthetic aperture radar (SAR) can image the Earth surface with high spatial resolution in both day and night under all weather conditions. In this paper, a digital image processing technique was implemented to extract water area information from SAR images and the result is used to monitor the water area variation of Lake Dongting, the second largest freshwater lake in China. 8-year time series of European Space Agency's ENVISAT ASAR (Advanced Synthetic Aperture Radar) images acquired between 2002 and 2009 were obtained and a land-water classification scheme was implemented. Using independent in situ water level data measured at a lake-side hydrologic station during study period, we derived the relationship between water level and water area of Lake Dongting. The results show that, (1) during dry seasons, the water area is 518 km2 larger than that in the 1990s reported by Yangtze BHYRWRC (Bureau of Hydrology and Yangtze River Water Resources Commission), 2000; (2) the water area of Lake Dongting increased significantly in the 2000s after the Chinese Government's “return land to lake” policy took effect in 1998; (3) the water level of Lake Dongting could be low during a rainy season due to drought; but could be high in a dry season due to discharges from the upstream Three Gorges Dam. In addition, the relationship between water storage change and water area/level change is obtained. 相似文献
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S. Patro C. Chatterjee S. Mohanty R. Singh N. S. Raghuwanshi 《Journal of the Indian Society of Remote Sensing》2009,37(1):107-118
A coupled 1D-2D hydrodynamic model, MIKE FLOOD was used to simulate the flood inundation extent and flooding depth in the
delta region of Mahanadi River basin in India. Initially, the 1D model MIKE 11 was calibrated using river water level and
discharge data of various gauging sites for the monsoon period (June to October) of the year 2002. Subsequently, the calibrated
set up was validated using both discharge and water level data for the same period of the year 2001. The performance of calibration
and validation results of MIKE 11 were evaluated using different performance indices. A bathymetry of the study area with
a spatial resolution of 90m was prepared from SRTM DEM and provided as an input to the 2D model, MIKE 21. MIKE 11 and MIKE
21 models were then coupled using lateral links to form the MIKE FLOOD model set up for simulating the two dimensional flood
inundations in the study area. Flood inundation is simulated for the year 2001 and the maximum flood inundation extent simulated
by the model was compared with the corresponding actual inundated area obtained from IRS-1D WiFS image. 相似文献