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利用Landsat ETM+和ASTER近红外波段数据进行了水体信息提取,然后利用知识规则对2种提取结果进行进一步分类,并分析了波谱分辨率的差异对水体信息提取结果的影响。实验表明,基于Landsat ETM+数据的水体提取总体精度为82.4%,基于ASTER数据的水体信息提取结果总体精度为92.4%;在空间分辨率相同情况下,波谱分辨率的提高可以有效地提高水体信息提取的精度。 相似文献
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利用线性光谱分解模型,对同日过境的Landsat ETM+和EO-1ALI影像的不透水面信息反演结果进行对比研究,从提取精度、盖度精度两方面对两种传感器影像的不透水面反演能力进行对比。结果表明,ALI反演不透水面的能力优于ETM+,其提取总精度和Kappa系数均高于ETM+高;其均方根误差和系统误差的绝对值都小于ETM+。两者产生差异的原因在于ALI的光谱分辨率和辐射分辨率均高于ETM+。 相似文献
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多结构元素组合型MODIS影像水体边缘检测 总被引:1,自引:0,他引:1
受空间分辨率的约束,MODIS遥感影像中存在很多混合像元,不利于水体边缘信息的提取,为提高水体边缘混合像元的检测精度,本文提出了多结构元素组合型边缘检测算法。方法选取了适合于遥感影像水体边缘检测的膨胀型和腐蚀型算子,同时针对遥感影像自身的特点,构建了多尺寸多方位的结构元素,设计了不同的方向权重和尺寸权重系数,再将基于不同检测算子的边缘检测结果组合得到最终结果。实验结果表明与传统算法相比,多结构元素组合型边缘检测算法边缘提取效果良好,提高了水体边缘的检测精度。 相似文献
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融合Landsat ETM+和MODIS数据估算高时空分辨率地表短波反照率 总被引:2,自引:0,他引:2
提出一种通过融合高空间低时间分辨率、低空间高时间分辨率地表短波反照率,来估算高时空分辨率地表短波反照率的方法。首先,利用Landsat ETM+数据,通过窄波段到宽波段的转换得到一景或多景空间分辨率较高的ETM+蓝天空短波反照率;然后,在MODIS短波反照率产品基础上,以天空光比例因子为权重,得到空间分辨率较低的MODIS蓝天空短波反照率;最后,利用STARFM(Spatial and Temporal Adaptive Reflectance Fusion Model)模型融合ETM+短波反照率的空间变化信息和MODIS短波反照率的时间变化信息,得到高时空分辨率的地表短波反照率。针对STARFM模型在异质性区域估算精度降低的问题,通过以MODIS反照率影像各像元的端元(各地类)反照率取代MODIS像元反照率来提取时空变化等信息参与STARFM模型的融合过程,达到提高异质性区域估算精度的目的。结果显示,直接利用STARFM模型估算得到的高空间分辨率地表短波反照率处在合理的精度范围内(RMSE0.02),用改进后的STARFM模型估算得到的异质性区域短波反照率和真实ETM+短波反照率间的相关系数增大。 相似文献
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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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基于MODIS数据的水体提取研究 总被引:2,自引:0,他引:2
通过对遥感图像各类地物的光谱和水体在中等分辨率的EOS/MODIS上的波谱特征的分析,论述了水体最为明显的波段组合,研究了如何从不同时期(枯水期、丰水期)的中等分辨率MODIS遥感影像提取水体的方法,并以武汉市梁子湖为例,对水体提取范围和精度进行比较和分析。实验表明:遥感图像经空间变换后再利用相同的方法提取的水体,更容易区分水体和阴影,产生的噪声也少,提取的水体范围更准确、计算的水域面积精度更高。 相似文献
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小波派生多尺度DEM的精度分析 总被引:1,自引:0,他引:1
利用陕北5 m分辨率DEM数据为基本数据,对Haar小波派生出一系列更低分辨率DEM进行复合精度分析。通过等高线套合、数据中误差以及表面重合指数等方法,分析其高程采样误差与空间分布;通过分析对比其在所提取的地面坡度、沟谷网络等地形因子上的差异,分析其地形描述误差。研究结果显示:小波派生多尺度DEM在精度的颓减上呈现指数形的变异规律,当达到三级重构DEM(40 m分辨率)时,其精度仍优于1:5万(25 m分辨率)DEM。该结果对于实现地形的有效简化与掌握多尺度DEM不确定性规律具有一定的意义。 相似文献
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国内外学者对于景观格局的地形分异研究,经历了从景观类型分布高程差异到景观指数高程分异研究的过程,目前处在景观格局静态地形分异阶段。本文利用浙江西部桐庐县1996、2004的土地利用现状图和DEM数据,对其1996-2004年景观格局动态演变特征的高程分异规律进行研究。研究对桐庐县1996、2004年的土地利用现状图进行处理获得景观类型分布图,通过1∶10000的DEM数据的分带操作,生成不同高程带的景观类型分布图。选取斑块密度、景观形状指数、分维数、破碎度、香农多样性指数、香农均匀度指数等景观格局指数,并在ArcGIS和Fragstats的支持下,计算出各带两个年份的景观格局指数并作对比分析。结果表明:研究区景观格局演变具有明显的高程分异特征,不仅表现为景观类型分布的变化与高程变化相关,而且体现在景观格局指数的变化值随高程上升而增减的趋势也有一定的规律性:景观水平上所有指数变化的剧烈程度大致与高程呈负相关关系,景观类型水平上各景观类型的破碎度、和斑块密度变化程度随海拔升高趋于缓和。 相似文献
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针对当前无人机影像获取精度高但数据规模小的问题,本文提出通过U-Net模型探讨不同空间分辨率对防护林提取精度的影响。以CW-20复合翼无人机搭载Micro MAC12 Snap多光谱传感器获取的300 m(空间分辨率0.15 m)、400 m(空间分辨率0.20 m)、500 m(空间分辨率0.25 m)3种不同高度的遥感影像为例,试验结果证明,3种不同高度的影像提取精度误差在1.3%以内;MIoU误差在3.7%以内。空间分辨率对防护林提取精度的影响较小,高空间分辨率的影像数据并不能显著提升防护林的提取精度。本文为大规模农林业遥感监测的数据源获取提供了理论依据。 相似文献
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An Adaptive Method of High Accuracy Surface Modeling and Its Application to Simulating Elevation Surfaces 总被引:3,自引:0,他引:3
An adaptive method is employed to speed up computation of high accuracy surface modeling (HASM), for which an error indicator and an error estimator are developed. Root mean‐square error (RMSE) is used as the error estimator that is formulated as a function of gully density and grid cell size. The error indicator is developed on the basis of error surfaces for different spatial resolutions, which are interpolated in terms of the absolute errors calculated at sampled points while paying attention to the landform characteristics. The error surfaces indicate the magnitude and distribution of errors in each step of adaptive refinement and make spatial changes to the errors in the simulation process visualized. The adaptive method of high accuracy surface modeling (HASM‐AM) is applied to simulating elevation surface of the Dong‐Zhi tableland with 27.24 million pixels at a spatial resolution of 10 m × 10 m. Test results show that HASM‐AM has greatly speeded up computation by avoiding unnecessary calculations and saving memory. In addition, HASM‐AM improves simulation accuracy. 相似文献
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最佳DEM分辨率的确定及其验证分析 总被引:2,自引:0,他引:2
在玛尔挡地区格网DEM的数据上选择实验样区,以不同分辨率情况下DEM数据对地表模拟表达的逼近程度为研究对象,最优逼近时的栅格单元大小的临界值就是所求的最佳分辨率。在分析坡度中误差法和公式法等常见方法的基础上,借鉴坡度中误差的思想,选取区域地形粗糙度K、剖面线长度SL两个定量指标来综合分析确定该地区格网DEM的最佳分辨率。在ArcGIS平台上对方法进行了实验验证,得出分别以2m和8m作为玛尔挡地区1∶10 000和1∶50 000 DEM生产时是最佳分辨率的结论。研究表明这种解决办法不仅可以克服GIS空间分析中DEM分辨率确定的盲目性和随意性,而且能确保基于DEM的各种空间分析的精度,为相关研究提供重要的参考价值。 相似文献
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Tengfei Su 《地理信息系统科学与遥感》2019,56(6):811-842
Image segmentation has a remarkable influence on the classification accuracy of object-based image analysis. Accordingly, how to raise the performance of remote sensing image segmentation is a key issue. However, this is challenging, primarily because it is difficult to avoid over-segmentation errors (OSE) and under-segmentation errors (USE). To solve this problem, this article presents a new segmentation technique by fusing a region merging method with an unsupervised segmentation evaluation technique called under- and over-segmentation aware (UOA), which is improved by using edge information. Edge information is also used to construct the merging criterion of the proposed approach. To validate the new segmentation scheme, five scenes of high resolution images acquired by Gaofen-2 and Ziyuan-3 multispectral sensors are chosen for the experiment. Quantitative evaluation metrics are employed in the experiment. Results indicate that the proposed algorithm obtains the lowest total error (TE) values for all test images (0.3791, 0.1434, 0.7601, 0.7569, 0.3169 for the first, second, third, fourth, fifth image, respectively; these values are averagely 0.1139 lower than the counterparts of the other methods), as compared to six state-of-the-art region merging-based segmentation approaches, including hybrid region merging, hierarchical segmentation, scale-variable region merging, size-constrained region merging with edge penalty, region merging guided by priority, and region merging combined with the original UOA. Moreover, the performance of the proposed method is better for artificial-object-dominant scenes than the ones mainly covering natural geo-objects. 相似文献
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林顺海 《测绘与空间地理信息》2017,(6):86-88
鉴于采用传统方法在提取高分辨率影像水域信息存在不足,本文以高分辨率国产卫星高分一号宽幅16 m空间分辨率多光谱影像为数据源,以浙江省钱塘江流域为研究区域,通过预先对影像进行NDWI处理,在此基础上利用改进FCM聚类算法实现了水域信息的自动提取,并与传统的NDWI和ISODATA分类方法提取结果进行比较。结果表明,该方法在分类效果和精度方面均优于传统分类方法,作为国产高分一号影像水域信息自动提取方法是可行的。 相似文献
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Hyperspectral image (HSI) and multispectral image (MSI) are two types of images widely used in the field of remote sensing. These images are useful in certain applications, such as environmental monitoring, target detection, and mineral exploration. HSI contains a large amount of spectral information. Photons are typically collected in a larger spatial area on the sensor to ensure a sufficiently high signal-to-noise ratio (SNR). Accordingly, the HSI spatial resolution is much lower compared with MSI. This low spatial resolution greatly affects the practicality of HSI. Accordingly, fusing a low-spatial resolution HSI (LR-HSI) with a high-spatial resolution MSI (HR-MSI) in the same scene to obtain a high-resolution HSI (HR-HSI) is a method for solving such problems, which resolves the contradiction that the spatial resolution and the spectral resolution cannot simultaneously maintain a high level. From the analysis of fusion effect, the spatial and spectral reconstruction errors of the existing algorithms are mainly reflected in the edge and detail areas. The method proposed in this work was a fusion algorithm for dictionary construction and image reconstruction based on detail attention. In terms of maintaining spectral characteristics, the spectral distribution in the detail area is complex and diverse because of the proximity effect of the image. This work proposes to perform dictionary learning on the image and detail layers. The detail perception error terms and a constraint of edge adaptive directional total variation are proposed for spatial characteristic enhancement, which is combined with a local low rank constraint in the same fusion framework to estimate the sparse coefficient. Experiments were conducted on two datasets, namely, Pavia University and Indian Pine, to verify the effectiveness of the proposed method. The quantitative evaluation metrics contain peak SNR, relative dimensionless global error in synthesis, spectral angle map, and universal image quality index. Based on the experimental comparison, the fusion result of the algorithm proposed in this work is significantly improved compared with those of the other algorithms in terms of spatial and spectral characteristics. This work uses dictionary learning to propose a fusion algorithm for dictionary construction and image reconstruction with attention to details through the analysis of the existing hyperspectral and multispectral image fusion algorithms. A hierarchical dictionary learning algorithm is proposed to address the problem of large reconstruction error in the detail part of the existing algorithms. The detail perception error term and the direction adaptive full variational regularization term are used to improve the spectral dictionary solution and coefficient estimation, respectively. The result of the fusion is the error in the spectral characteristics and spatial texture of the detail, which achieves an accurate representation of the edge detail. © 2022 National Remote Sensing Bulletin. All rights reserved. 相似文献
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A cloud mask methodology for high resolution remote sensing data combining information from high and medium resolution optical sensors 总被引:1,自引:0,他引:1
Fernando Sedano Pieter KempeneersPeter Strobl Jan KuceraPeter Vogt Lucia SeebachJesús San-Miguel-Ayanz 《ISPRS Journal of Photogrammetry and Remote Sensing》2011,66(5):588-596
This study presents a novel cloud masking approach for high resolution remote sensing images in the context of land cover mapping. As an advantage to traditional methods, the approach does not rely on thermal bands and it is applicable to images from most high resolution earth observation remote sensing sensors. The methodology couples pixel-based seed identification and object-based region growing. The seed identification stage relies on pixel value comparison between high resolution images and cloud free composites at lower spatial resolution from almost simultaneously acquired dates. The methodology was tested taking SPOT4-HRVIR, SPOT5-HRG and IRS-LISS III as high resolution images and cloud free MODIS composites as reference images. The selected scenes included a wide range of cloud types and surface features. The resulting cloud masks were evaluated through visual comparison. They were also compared with ad-hoc independently generated cloud masks and with the automatic cloud cover assessment algorithm (ACCA). In general the results showed an agreement in detected clouds higher than 95% for clouds larger than 50 ha. The approach produced consistent results identifying and mapping clouds of different type and size over various land surfaces including natural vegetation, agriculture land, built-up areas, water bodies and snow. 相似文献
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基于缓冲区分析的城市化与地表水质关系研究——以烟台沿海区县为例 总被引:5,自引:0,他引:5
将城市化过程中的人为土地定义为建设用地,利用2004年TM影像得到烟台沿海区县建设用地数据。用缓冲区分析提取乡镇水平上建设用地比率和人口密度数据,缓冲半径从100m到2000m,利用ArcView空间分析功能对建设用地比率、人口密度、河网等级和水质进行叠置分析,并结合逐步回归分析方法揭示烟台沿海区县28个水质监测站各水质参量的空间变化情况。结果显示,通过建设用地比率和人口密度共同作用可以解释85%以上的水质参量模型,反映城市化的建设用地比率比人口密度能更好地解释水质参量的空间变化,大多数水质参量的最佳模型出现在2000m的缓冲半径上,表明建设用地比率和人口密度是影响研究区域水质的首要因素。同时,运用缓冲区分析等GIS空间分析方法为区域城市化进程与水环境质量的研究提供了新的途径。 相似文献
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遥感地表温度产品(LST)对陆面过程和全球与区域气候变化研究具有重要价值。但是当前卫星遥感观测到的地表温度分辨率较粗,多为混合像元,有明显的角度效应和时空变化特征,严重影响陆面过程等研究的应用精度。为定量评估3维异质性场景对亮度温度分布的影响,本文基于再分析资料,耦合3维小气候模型ENVI-met和3维热辐射传输模型RAPID,开展了地表3维温度场的模拟。研究以全球数值预报产品NCEP来提供ENVI-met所需的边界条件,分别进行了异质性植被场景的亮温水平分布和热辐射方向性模拟试验。在水平分布模拟研究中,基于机载G-LiHT数据(光学影像、激光雷达数据、LST产品)提供3维场景构建输入参数和温度场验证数据,并以美国某湿地区域的6个不同异质性场景为例进行了模拟与验证;在热辐射方向性的模拟研究中,基于机载WiDAS多角度多光谱数据构建了3维场景,并以黑河地区的2个异质性场景为例进行了模拟与验证。结果显示:(1)星下点亮温模拟值在水平分布上与G-LiHT的LST亮温值较为接近(标准误差RMSE为1.1 K),说明耦合模型能有效模拟不同空间异质性下的亮温分布。其中,裸土模拟误差最大(2.31 K),两种行播作物方向的模拟误差均小于1.2 K,道路宽度对模拟结果有影响(约为1 K);(2)耦合模型的多角度模拟结果与方向性亮温随视角的变化规律相一致,但变化速率和大小存在着差异。本文的模拟方法可以用于预测卫星过境时刻地表的热辐射方向性。 相似文献
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Building on the availability of high revisit frequency Earth Observation satellites at medium spatial resolution (250 m), this study investigates the feasibility of temporal monitoring of water bodies at a continental scale with MODIS. A 2004–2010 time series of twice-daily observations covering the whole African continent was systematically processed using a surface water detection method to derive 10-day indicators describing the location, the intra- and inter-annual variability as well as the temporal characterization of water bodies (i.e. seasonal or permanent water and maximum extent). The multispectral surface reflectance transformation in the HSV color space allows a per-pixel identification of surface water. The water aggregation time indicator provides the water occurrence for each 10-day period built from the seven years of observations. The cartographic products were successfully cross-validated with already existing maps and water products. The validation of the water body maximum extent map estimates the commission error at less than 6% and the seasonality information was also found to be consistent with the Köppen climatic classification. 相似文献