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1.
We propose a multi-sensor multi-spectral and bi-temporal dual-polarimetric Synthetic Aperture Radar(SAR) data integration scheme for dry/wet snow mapping using Sentinel-2 and Sentinel-1 data which are freely available to the research community. The integration is carried out by incorporating the information retrieved from ratio images of the conventional method for wet snow mapping and the multispectral data in two different frameworks. Firstly, a simple differencing scheme is employed for dry/wet snow mapping, where the snow cover area is derived using the Normalized Differenced Snow Index(NDSI). In the second framework, the ratio images are stacked with the multispectral bands and this stack is used for supervised and unsupervised classification using support vector machines for dry/wet snow mapping. We also investigate the potential of a state of the art backscatter model for the identification of dry/wet snow using Sentinel-1 data. The results are validated using a reference map derived from RADARSAT-2 full polarimetric SAR data. A good agreement was observed between the results and the reference data with an overall accuracy greater than 0.78 for the different blending techniques examined. For all the proposed frameworks, the wet snow was better identified. The coefficient of determination between the snow wetness derived from the backscatter model and the reference based on RADARSAT-2 data was observed to be 0.58 with a significantly higher root mean square error of 1.03 % by volume. 相似文献
2.
基于决策树模型的湿地信息挖掘与结果分析 总被引:11,自引:0,他引:11
目前湿地成为地学、生态学研究热点,如何快速获得区域内湿地基础信息,对实现湿地的动态监测及其他领域研究具有重要意义。本文在引入地学知识的基础上,设计并实现了两景研究区不同时相影像的湿地信息提取决策树模型。评价结果显示Kappa系数均较高,分别为0.88和0.91,表明该模型快速提取湿地信息有一定应用价值。 相似文献
3.
鄱阳湖南矶湿地是亚热带典型过水性湿地,由于该区域水文情况复杂,且泥滩、沼泽和疫水(血吸虫)分布较广,导致野外考察验证工作困难,使用传统的遥感信息提取方法很难保证该地区湿地景观的提取精度。本文以高分一号影像为数据源,综合运用数字高程模型(DEM)、归一化植被指数(NDVI)、归一化水体指数(NDWI)等辅助数据,采用面向对象分类方法,对鄱阳湖南矶湿地景观信息进行提取研究,并取得了较好的分类效果。研究结果表明:(1)基于国产高分辨率影像的面向对象分类,既兼顾了国产高分辨率影像光谱、空间、结构、纹理信息,又综合利用多源辅助数据参与到分类计算中,分类精度得到明显的提升;(2)基于面向对象与多源数据分类方法对湿地混合像元有较好地识别能力,可获得较高的总体分类精度(94.3275%)和Kappa系数(0.9324),说明利用多源数据的面向对象方法提取湿地信息是可行的,其分类结果具有较高的准确性和可信度,较好地解决了过水性湿地景观分类问题;(3)该分类方法弥补了单一遥感影像分类方法的不足,对研究国产高分卫星在提取过水性湿地景观信息方面具有重要的参考和实际意义。最后,分析了多源数据面向对象分类尚待解决的问题和下一步的研究方向。 相似文献
4.
草原是干旱区生态系统中重要的可再生资源。本文基于草本植被的结构特征,利用ASAR和TM数据,结合MIMICS模型,提出了一种估算干旱区草原地上植被生物量的方法。该方法将光学遥感数据容易反演的叶面积指数(LAI)作为反演生物量模型的参数之一,并利用LAI成功估算了单位面积内的草本植被密度。将地上生物量作为输入变量代入改进的MIMICS模型,利用查找表方法,计算出地上植被生物量。然后,将该方法应用于乌图美仁草原的地上植被生物量的反演。结果表明,该方法能够成功地反演干旱区草原草本植被地上生物量,精度达到R2=0.8562,RMSD=0.6263。最后,分析了该方法估算植被生物量的误差来源。 相似文献
5.
Analysis of bathymetric features using sar image: An example from the southern North Sea 总被引:1,自引:0,他引:1
IareODUcnONRadarenerydoesnotpodteintowaterbutisrefl~andscabobytheWht-ersurface.ItisknownguboorandBrunsveklvanHultan,l978,Detoor,l98l)thatundersuitablecondihons(ie.mederatewindandstIDngtidaled)thebottomtopogra-phyofshallowewisvisiblebyirnagingradars.SinretheSuntlaunchinl978,theex-pebota1andtheoreticalaspndofb0ttomtopographyrnappingbyradartheginghasaroedconsiderableinteast.Sevetalthe0riespropotalt0generallydescribetheirnagingIneChanism(Vogehangl989)asinvolving;l.variationsinthesurfacentvel… 相似文献
6.
开展Sentinel-1A SAR数据在洪水淹没范围提取和水体变化监测方面的应用研究,对科学有效地管理洪涝灾害有重要意义。合成孔径雷达以其不受天气影响、能穿透云层、覆盖面积广等特点成为灾害监测的重要数据来源。面向对象的方法能有效解决影像的椒盐现象被广泛运用于信息提取研究。本文基于Sentinel-1A SAR数据,利用面向对象的方法构建洪水淹没范围提取流程,绘制灾前、灾中、灾后水体变化监测图,对比分析基于传统像元的提取方法,实现对广西临桂会仙岩溶湿地区域不同时期洪水动态监测。研究表明,Sentinel-1A SAR数据在洪水监测领域有巨大的应用潜力,相较于传统基于像元的方法,面向对象的方法能有效抑制杂斑生成,提高空间信息的利用效率,具有更好的提取精度。 相似文献
7.
海面溢油对生态环境造成了严重危害,故及早发现和尽快处理对降低事故影响和经济损失起着至关重要的作用。合成孔径雷达(SAR)是观测海面溢油、快速检测和事故态势分析判断的有效技术途径。本文针对SAR图像的海面溢油检测,提出了一种特征概率函数的双阈值分割方法。首先,通过高低阈值分割提取不同层次的灰度信息,再利用密度估计提取灰度的空间分布信息,然后,通过构建概率函数对油膜和类油膜区域进行形态学分类,最后,结合辅助信息,获得最终的海面溢油检测结果。本文利用香港中文大学卫星地面站接收的ENVISAT ASAR图像开展实验,结果表明,本文提出的方法能够准确地排除由风场或者水流场导致的低散射区域,有效地检测和识别生成不久的中型油膜,从而有助于溢油事故的早期预警与处置。 相似文献
8.
基于Landsat TM和ENVISAT ASAR数据的鄱阳湖湿地植被生物量的反演 总被引:2,自引:0,他引:2
作为湿地生态系统的重要组成部分,湿地生物量是衡量生态系统健康状况的关键指标。由于光学遥感对植被垂直分布探测的局限,使得植被指数反映生物量变化的灵敏度下降。利用C波段SAR反演生物量时,对于低中等生物量,含水量高的湿地地表的后向散射对总雷达后向散射的影响会在雷达图像上出现类似光学遥感中"异物同谱"的现象。本文用光学遥感中NDVI、RVI和DVI三种植被指数对生物量变化的敏感性,利用改进的MIM-ICS模型,对湿地植被各散射分量进行模拟分析,建立符合湿地植被类型的各散射分量模拟数据库,以LandsatTM和Envisat ASAR交替极化数据为基础,选择植被指数DVI=0.45为阈值,将湿地植被分割为低叶片密度植被区和高叶片密度植被区,分别应用统计回归模型和半经验微波散射模型,对两个区域植被生物量进行反演。最后,得到整个鄱阳湖湿地生物量为2.1×109kg。研究表明,对于生物量动态范围较大的地区,采用光学和雷达遥感相结合可以有效地提高湿地植被生物量反演的精度,克服光学遥感探测植被垂直分布能力有限和雷达遥感受背景影响大的不足。 相似文献
9.
Aboveground Biomass and Water Storage Allocation in Alpine Willow Shrubs in the Qilian Mountains in China 总被引:1,自引:1,他引:0
The aboveground biomass allocation and water relations in alpine shrubs can provide useful information on analyzing their ecological and hydrological functions in alpine regions. The objectives of this study were to compare the aboveground biomass allocation, water storage ratio and distribution between foliage/woody components,and to investigate factors affecting aboveground biomass allocation and water storage ratio in alpine willow shrubs in the Qilian Mountains, China. Three experimental sites were selected along distance gradients from the riverside in the Hulu watershed in the Qilian Mountains. The foliage, woody component biomass, and water allocation of Salix cupularis Rehd.and Salix oritrepha Schneid. shrubs were measured using the selective destructive method. The results indicated that the foliage component had higher relative water and biomass storage than the woody component in the upper part of the crown in individual shrubs. However, the woody component was the major biomass and water storage component in the whole shrub level for S. cupularis and S.oritrepha. Moreover, the foliage/woody component biomass ratio decreased from the top to the basal level of shrubs. The relative water storage allocation was significantly affected by species types, but was not affected by sites and interaction between species and sites. Meanwhile, relative water storage was affectedby sites as well as by interaction between sites and species type. 相似文献
10.
在复杂地表环境下的多云多雨地区,基于合成孔径雷达(SAR)图像提取水体时容易受到其它地物如水田、山体阴影等干扰,传统的灰度阈值法和SVM法未能考虑水体与其它地物在纹理和地形上的差异,因此水体提取结果精度较差。研究首先用Refined Lee滤波对SAR图像进行预处理;其后通过DEM建模和坡度计算提取地形特征,通过计算图像灰度共生矩阵以提取纹理特征(包括均匀性、角二阶矩和熵),并结合SAR图像极化信息以及SDWI指数形成针对水体提取的特征空间,通过融合地形特征和图像纹理特征发展了改进SVM 分类法的水体提取模型。在使用Sentinel-1 SAR数据对所发展模型与SDWI水体指数法、传统SVM法水体提取结果进行比对后发现,改进SVM分类法提取的水体结果较好地剔除了水田和山体阴影,且提取的水体水面比传统的SVM法更加完整;该方法在总体精度、Kappa系数、漏分率和错分率指标上均优于SDWI法和传统的SVM法,总体精度达到98.06%,比SDWI法和传统的SVM法分别提高了23.24%和5.49%,有效提高了复杂环境下地表水体的提取精度。研究最后将所发展模型应用于2018年马哈韦利河流域逐月水体提取与变化分析,有效解决了山体阴影和水田误分问题。本文提出的改进SVM法可以实现复杂地表环境下大范围水体信息准确、完整提取。 相似文献
11.
基于随机森林算法的草原地上生物量遥感估算方法研究 总被引:1,自引:0,他引:1
草原是我国面积最大的陆地生态系统,生物量是反映生态系统质量和功能的关键指标,准确地掌握草原生物量对草原资源合理利用、生态修复、畜牧业高质量发展都具有重要的意义和作用。本研究以内蒙古锡林郭勒盟为研究区,利用高分一号遥感卫星影像,结合216个野外样本数据,采用随机森林算法(Random Forest,RF)对草原地上生物量(Aboveground Biomass,AGB)遥感估算进行了适用性分析与应用。在运用随机森林算法的过程中,进行了K-折交叉验证、多元共线性诊断、偏效应等一系列分析,完成了随机森林模型的构建,同时,将建模结果与其它模型进行了对比,最终实现了锡林郭勒盟草原AGB的反演估算。结果表明:① 随机森林算法能够较好地规避生物量建模中自变量多元共线性的问题;② 随机森林模型在草原AGB估算中较其它模型具有更好的适用性,模型精度达85%,RMSE为202.13 kg/hm2;③ 应用构建的随机森林算法估算了研究区2017年草原AGB,从结果来看,其空间分布上呈现为自东向西逐渐递减的趋势;从草地类型上看,山地草甸类AGB单产最高,温性草原类总产量最高。研究结果将对草原生态系统监测评估和草原宏观管理具有一定的参考价值。 相似文献
12.
依托中分辨率成像光谱仪完整的数据序列和丰富的光谱信息,遥感特征指数在湿地生态系统发展变化的状态、趋向和规律研究方面发挥着不可替代的优势。传统类间距离判别的遥感特征指数选取中常存在过分依赖数据统计特征、入选指数与目标地类间生态学意义不明确、分类模型普适性差等局限性。基于此,本研究以河北省白洋淀湿地自然保护区为例,提出类可分离性距离判别(Class Separation Discrimination,CSD)与类间距离判别(Class Distance Discrimination,CDD)相结合的方法构建最优遥感特征指数集,并采用QUEST算法和马氏距离判别法构建分类决策树模型用于白洋淀湿地信息的提取研究,尝试克服传统类间距离指数选取中的不足。结果表明:运用CSD和CDD相结合的方法所选取的遥感特征指数在研究区湿地信息提取过程中的总体分类精度达到了91.32%,Kappa系数0.88,较传统的分类与回归树(Classification and Regression Tree,CART)方法,分类精度提高了1.67%;其次选取的最优指数与待提取的湿地类型均具有明确的生态学意义,如挺水植物在立地干湿交替条件下的潴育化过程决定了氧化铁比率IO可成功的将混分的耕地和挺水植物进一步分离;进一步将基于研究区2017年OLI影像构建的CSD和CDD相结合方法与CART方法的模型分别应用于研究区2019年OLI影像进行分类,基于CSD和CDD相结合方法构建的模型分类总体精度和Kappa系数分别为:86.97%、0.83,基于CART方法构建的模型无法满足分类需求,研究结果较好地证明了基于CSD和CDD相结合方法构建的模型在年际之间具有良好的适用性和稳定性。总之,CSD和CDD相结合的方法在不降低湿地信息提取精度的基础上,有效避免了传统遥感特征指数选择方法的局限性,提高了分类模型的普适性,是遥感特征指数选择算法和决策树相结合在湿地信息提取方面的有益尝试。 相似文献
13.
依据江苏盐城国家珍禽自然保护区淤泥质潮滩湿地影像特征,快速提取高精度潮滩湿地地物信息对湿地生态保护具有重要的意义。本研究以2010年TM影像为数据源,针对海滨湿地植物覆被类型复杂,以及湿地植物类型之间的生态交错带信息难以识别等问题,综合运用植被NDVI指数、波段反射率特征、环境特征和生态条件,逐级分层分类及人工选取阈值等方法,较好地解决了淤泥质潮滩湿地分类问题。结果表明,与同一时期的监督分类相比较,在识别植被交错带植被覆被类型和零星分布的植被斑块的类型方面更具优势,分类精度有明显提高。通过ROI训练区,选取了3126个包括所有类型的样本进行精度检验,分类精度达到95.87%。该方法弥补了单一分类方法的不足,对快速、高精度地提取淤泥质潮滩地物类型具有重要的参考价值和实践意义。 相似文献
14.
本文运用面向对象分类与DEM数据相结合的方法,对资源卫星一号02C卫星遥感影像进行湿地提取。探索了基于对象与DEM信息的提取技术,在02C影像湿地的提取应用,对研究我国国产卫星在湿地监测和保护方面有重要的意义。研究结果表明:(1)面向对象的遥感影像信息提取方法,可同时兼顾影像光谱信息及空间信息,适用于02C影像的湿地提取,精度得到明显提高;(2)基于对象与DEM信息的提取方法,使沼泽地与草地相混淆的现象明显减轻,湿地分类精度进一步提高,该方法适用于高分辨率遥感影像的湿地提取研究;(3)基于对象与DEM信息提取的水田、水体、沼泽地及河滩的精度,分别为88.46%、97.44%、86.96%和83.33%,满足资源卫星一号02C遥感影像对湿地进行监测和保护的需要。 相似文献
15.
利用遥感成像技术获取地面水体信息对水资源调查、自然灾害评估、流域规划和生态环境监测等具有重要意义,其中SAR成像作为大范围地面监测的可靠数据源,拥有全天时、全天候、广覆盖等光学遥感系统所不具有的优点,在水体提取中得到了广泛的应用。但由于受SAR图像相干斑噪声的影响,现有水体提取方法难以迅速、精确提取SAR图像中复杂精细的自然水体结构。为此,提出一种结合改进的降斑各向异性扩散和最大类间方差的SAR图像水体提取方法。首先,利用降斑各向异性扩散滤波SAR图像,在迭代滤波过程中通过计算图像间平均结构相似度自适应控制迭代过程,使其同时保持精细边缘和纹理结构;然后,以类间方差最大为准则,自适应确定阈值,实现滤波结果图像二值化分割。在二值化分割结果中,搜索具有相同像元值且位置相邻的前景像元点组成的连通区域,使每个单独的连通区域形成一个被标识的块,通过获取这些块的几何参数来消除图像的误分割,精确划定真实的水体区域,以实现SAR图像水体提取。为了验证提出方法的准确性,将本文方法提取的水体边界与人工绘制的水体边界叠加,结果表明二者可较好吻合。同时,从视觉、提取精度和运行时间对本文方法与目前常用3种SAR图像水体提取算法的结果进行比较分析,其中本文方法的运行时间满足实时应用的要求,提取结果的边界在2个像元评级区重叠度均达到80%,明显优于其他方法且本文方法提取结果在边界及细节信息等视觉方面也更加显著。对结果的定性及定量评价表明本文方法的优越性。 相似文献
16.
ENVISAT ASAR数据与CBERS-02数据的融合与应用 总被引:1,自引:0,他引:1
本文首次利用ENVISAT ASAR交叉极化模式数据与中巴地球资源卫星02星(CBERS 02)CCD数据进行融合,对融合后的图像进行分析和讨论。通过对IHS变换融合、主成分分析融合和小波变换融合比较分析发现,采用IHS变换融合具有更好的目视判读效果,但是由于ASAR数据受到相干斑噪声的影响,在滤波去噪后,使融合图的空间分辨率变低。另外,该融合图包含了地物的VV极化和HH极化后向散射特征,使地物结构形态、复介电常数和地物的光谱信息等重要的地物参数信息都包含在融合图中,增强了区别地物的能力,就农作物的目视解译和分类而言,精度得到了较大的提高。 相似文献
17.
Monitoring algal blooms by optical remote sensing is limited by cloud cover.In this study,synthetic aperture radar(SAR) was deployed with the aim of monitoring cyanobacteria-dominant algal blooms in Taihu Lake in cloudy weather.The study shows that dark regions in the SAR images caused by cyanobacterial blooms damped the microwave backscatter of the lake surface and were consistent with the regions of algal blooms in quasi-synchronous optical images,confirming the applicability of SAR for detection of surface blooms.Low backscatter may also be associated with other factors such as low wind speeds,resulting in interference when monitoring algal blooms using SAR data alone.After feature extraction and selection,the dark regions were classified by the support vector machine method with an overall accuracy of 67.74%.SAR can provide a reference point for monitoring cyanobacterial blooms in the lake,particularly when weather is not suitable for optical remote sensing.Multi-polarization and multi-band SAR can be considered for use in the future to obtain more accurate information regarding algal blooms from SAR data. 相似文献
18.
YANG Ying-hui CHEN Qiang LIU Guo-xiang Li Zhi-lin CHENG Hai-qin Liu Li-yao 《山地科学学报》2013,10(5):790-800
In order to overcome the limitation of cross correlation coregistration method for Synthetic Aperture Radar(SAR) interferometric pairs with low coherence,a new image coregistration algorithm based on Fringe Definition Detection(FDD) is presented in this paper.The Fourier transformation was utilized to obtain spectrum characteristics of interferometric fringes.The ratio between spectrum mean and peak was proposed as the evaluation index for identifying homologous pixels from interferometric images.The satellites ERS-1/2 C-band SAR acquisitions covering the Yangtze River plain delta,eastern China and ALOS/PALSAR L-band images over the Longmen Shan mountainous area,southwestern China were respectively employed in the experiment to validate the proposed coregistration method.The testing results suggested that the derived Digital Elevation Model(DEM) from FDD method had good agreement with that from the cross correlation method as well as the reference DEM at high coherence area.However,The FDD method achieved a totally improved topographic mapping accuracy by 24 percent in comparison to the cross correlation method.The FDD method also showed better robustness and achieved relatively higher performance for SAR image coregistration in mountainous areas with low coherence. 相似文献
19.
近百年来龙感湖地区湖泊营养化过程 总被引:5,自引:0,他引:5
由于近年来社会经济的迅速发展,湖泊富营养化问题日趋严重。其中湿地的破坏是导致人湖营养盐增加的一个重要原因。对湿地变化与湖泊营养盐状况关系的分析是制定湖泊环境整治和生态修复的重要科学依据。湖泊沉积物含有丰富的生物和理化方面的信息,在缺乏长期湖泊监测记录的情况下。可以用来重建湖泊及其流域过去变化的历史。根据龙感湖表层沉积物^210Pb活度比变化,分析了该地区近百年来沉积物中湿地花粉、总磷和磁性参数.探讨了湖泊营养化过程及机理。研究表明,龙感湖近百年来营养级的增加是与湿生植被的破坏密切相关。20世纪上半叶的湖泊富营养化响应于磁性参数指示的流域土壤侵蚀速率的增加,而20世纪70年代以来湖泊营养程度的加重则与龙感湖流域农业化肥的使用和湿地植被破坏而导致湿地功能减弱有关。龙感湖流域内人类对湖周潍地的改造.破坏了湿地植被,助长了人湖物质的增加。湖泊营养相对富集,最终导致水体富营养化发生。 相似文献
20.
Hongfeng Bian Tingting Yan Zhengxiang Zhang Chunguang He Lianxi Sheng 《中国地理科学(英文版)》2016,26(3):352-365
Accurate, updated information on the distribution of wetlands is essential for estimating net fluxes of greenhouse gases and for effectively protecting and managing wetlands. Because of their complex community structure and rich surface vegetation, deciduous broad-leaved forested swamps are considered to be one of the most difficult types of wetland to classify. In this research, with the support of remote sensing and geographic information system, multi-temporal radar images L-Palsar were used initially to extract the forest hydrological layer and phenology phase change layer as two variables through image analysis. Second, based on the environmental characteristics of forested swamps, three decision tree classifiers derived from the two variables were constructed to explore effective methods to identify deciduous broad-leaved forested swamps. Third, this study focused on analyzing the classification process between flat-forests, which are the most severely disturbed elements, and forested swamps. Finally, the application of the decision tree model will be discussed. The results showed that: 1) L-HH band(a L band with wavelength of 0–235 m in HH polarization mode; HH means Synthetic Aperture Radars transmit pulses in horizontal polarization and receive in horizontal polarization) in the leaf-off season is shown to be capable of detecting hydrologic conditions beneath the forest; 2) the accuracy of the classification(forested swamp and forest plat) was 81.5% based on hydrologic features, and 83.5% was achieved by combining hydrologic features and phenology response features, which indicated that hydrological characteristics under the forest played a key role. The HHOJ(refers to the band created by the subtraction with HH band in October and HH band in July) achieved by multi-temporal radar images did improve the classification accuracy, but not significantly, and more leaf-off radar images may be more efficient than multi-seasonal radar images for inland forested swamp mapping; 3) the lower separability between forested swamps dominated by vegetated surfaces and forest plat covered with litter was the main cause of the uncertainty in classification, which led to misleading interpretations of the pixel-based classification. Finally, through the analysis with kappa coefficients, it was shown that the value of the intersection point was an ideal choice for the variable. 相似文献