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1.
本文就在藏北草资源调查中,应用空间实验室量测摄影机(MC)摄得的彩色红外影像,及根据遥感影像目视判读所利用的信息空间特点和草场分类原理进行计算机自动分类的理论与方法,对利用辅助数据和影像数据复合技术的几种尝试进行了讨论,并依实地调查资料和专家判读结果对各种分类结果进行了评价。说明利用这种航天遥感资料,辅以Landsat影像生物量指标、DTM和坡度、坡向数据以及计算机自动分类技术,进行资源调查是可行的,可以达到最佳效果。 相似文献
2.
本文提出了一种利用GlobeLand30数据辅助多源数据融合进行城市不透水面自动提取的方法。首先基于波段映射和小波变换的影像融合方法,融合哨兵二号和高分二号影像,获得同时具有较高空间分辨率和光谱分辨率的融合影像,其具有丰富的光谱特征和空间特征,有利于提升复杂城市区域的不透水面和非不透水面区分能力。然后利用GlobeLand30数据的类别信息自动获取初始分类样本,基于融合影像的丰富光谱信息构建多种植被指数、水体指数和建成区指数,对初始分类样本进行优化。最后利用优化后的训练样本,使用光谱、地物指数等特征训练分类器,实现城市不透水面的自动准确提取。本文以济南市2019年的高分二号和哨兵二号影像为试验数据,在时相、分辨率与影像均不同的GlobeLand30全球地表覆盖数据辅助下获得了总体精度优于92%的不透水面提取结果,验证了本文方法的有效性。 相似文献
3.
随着遥感数据获取能力的不断增强,自动化程度已经成为大尺度遥感土地覆被分类面临的关键问题。然而,现有训练样本的人工选取方法成为制约土地覆被分类自动化的瓶颈。本文以河南、贵州两省为研究区,提出一种基于多源数据的土地覆被样本自动提取方法,以构建适用于大尺度的土地覆被自动分类。首先,以2010年1∶10万土地利用数据CHINALC和30 m分辨率全球土地覆被数据Globle Land30为样本数据源;然后,利用空间一致性分析及异质性分析确定样本初选区域;最后,通过样本提纯去除无效样本。结果表明:(1)应用多源数据的土地覆被样本自动提取方法获得的分类产品总体分类精度高于人工样本提取方法制作的全球土地覆被产品MCD12Q1。(2)与单源样本自动提取方法相比,应用多源数据的土地覆被样本自动提取方法,可获得更好的分类稳定性。综上,多源数据的土地覆被样本自动提取方法可在保证精度的同时,提升土地覆被分类的自动化程度。 相似文献
4.
实现彩色地图扫描数据自动分层的途径与方法 总被引:14,自引:1,他引:13
彩色地图扫描数据自动分层是全自动地图数字化的关键技术之一。作者在研究了彩色地图扫描数据中客观存在的颜色误差后,指出仅用颜色这一单一判据很难实现彩色地图扫描数据的分层;同时研究出了顾及彩色地图颜色特点、利用地图知识辅助的彩色地图扫描数据的自动分层。此外,本文还提出了一种适用于彩色地图扫描数据的按颜色分类的快速算法。 相似文献
5.
基于HBase的空间矢量数据存储模型设计与优化 总被引:1,自引:0,他引:1
数据存储模型是数据库模型的重要组成部分。本文针对目前关系型空间数据库发展过程中遇到的瓶颈问题以及采用HBase管理空间矢量数据存在的问题,在分析关系型空间数据库存储模型的基础上,将关系型数据库存储模式向HBase存储模式转换规则应用到空间矢量数据管理领域,提出了空间矢量数据关系存储模式向HBase存储模式转换方法,设计了一种空间矢量数据HBase存储模型。利用HBase的实体嵌套、反范式化、无模式等特性,对模型进行了优化完善。通过试验验证了在没有辅助索引情况下,本文设计的存储模型查询效率优于目前常用的基于HBase的空间矢量数据存储模型。 相似文献
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7.
利用OpenStreetMap数据进行高空间分辨率遥感影像分类 总被引:1,自引:0,他引:1
针对高分辨率遥感影像分类样本标注困难的问题,提出了一种利用OpenStreetMap (OSM)数据自动获取标注样本的方法。与现有的利用OSM数据进行分类的方法不同,该方法加入了空间特征以弥补单独使用光谱特征分类的不足。首先,基于OSM数据提供的地物类别和位置信息进行样本标注,为了降低OSM数据中少量错误信息对分类结果的影响,采用聚类分析的方法对样本进行提纯;其次,使用形态学轮廓来提取影像的结构特征,挖掘高分辨率遥感影像丰富的空间信息,与光谱特征相叠加并输入分类器进行分类。试验证明,本文提出的方法能够有效避免人工样本标注所需要的人力物力;同时,联合影像的光谱空间特征能够更好地描述地物特性,得到较高的分类精度。 相似文献
8.
基于ASTER数据的决策树自动构建及分类研究 总被引:6,自引:3,他引:6
在对ASTER原始9个波段数据进行各种变换处理的基础上,采用数量化指标平均可分性方法确定参与分类的最佳特征组合; 结合研究区8种主要地物类型训练数据集,分别采用最大似然法、BP神经网络法和基于See 5.0数据挖掘的决策树分类法进行分类,提取主要地物的空间分布专题信息。经过379个野外样点的验证,结果表明: 决策树算法分类性能最优,神经网络算法次之,最大似然法效果最差; 与ENVI 4.1、ERDAS 8.7提供的传统决策树建立及分类方法比较,基于数据挖掘工具See 5.0和Cart的决策树生成和分类方法具有客观、高效率、分类性能可靠和精度高等优点。 相似文献
9.
面向高光谱图像分类的半监督空谱判别分析 总被引:2,自引:2,他引:0
为充分利用高光谱图像蕴藏的空间信息提升分类精度,提出了面向高光谱图像分类的半监督空谱判别分析(S3 DA)算法。考虑高光谱图像数据集的空间一致性,首先利用少量标记样本定义类内散度矩阵,保存数据集同类像元的光谱近邻结构;再利用无标记样本定义空间近邻像元散度矩阵,揭示像元间的空间近邻结构和地物的空间分布结构信息。S3 DA既保持数据集在光谱域的可分性,又保存了无标记样本蕴藏的空间域近邻结构,增强了同类像元和空间近邻像元在投影子空间的聚集性,从而提升分类性能。在PaviaU和Indian Pines数据集的试验表明,总体分类精度分别达到81.50%和71.77%。与传统的光谱方法比较,该算法能有效提升高光谱图像数据集的地物分类精度。 相似文献
10.
高空间分辨率、高光谱分辨率、大幅宽与大数据量是高光谱卫星数据发展趋势,传统高光谱影像的像素级分类面临难以处理海量数据、无法高效获取复杂海量影像中隐含信息的困境。已有研究开始关注高光谱影像的场景级分类,并逐步建立完善高光谱遥感场景分类数据集。然而,目前的数据集制作过程多参考高空间分辨率可见光遥感场景数据集的制作方法,主要采用遥感影像的空间信息进行场景类别解译,忽视了高光谱场景的光谱信息。因此,为构建高光谱影像的遥感场景分类数据集,本文利用“珠海一号”高光谱卫星拍摄的西安地区高光谱数据,使用无监督光谱聚类辅助定位、裁剪与标注待选场景样本,结合Google Earth高分影像进行目视筛选,构建6类场景类型和737幅场景样本的珠海一号高光谱场景分类数据集。并基于光谱与空间两个视角开展场景分类实验,通过视觉词袋、卷积神经网络等方法的基准测试结果,对不同算法在现有多光谱和高光谱遥感场景分类数据集下的性能进行深入分析。本研究可为后续的高光谱影像解译研究提供了有力的数据支撑。 相似文献
11.
Manoj Joseph S. Rama Subramoniam K. S. Srinivasan Suparn Pathak J. R. Sharma 《Journal of the Indian Society of Remote Sensing》2013,41(1):177-182
The potential of quad polarization radar data for the target discrimination has been analyzed. Quad polarization data of the RADARSAT-2 fine resolution mode has been utilized. Class separability analysis has been carried out on different polarization combinations using Transformed Divergence (TD) method and it is observed that HH-HV/VH-VV polarization combination gives better class separability when compared to other polarization combinations. Classification has been carried out on the optimized polarization combination using Maximum likelihood (MLC) and Support Vector Machine (SVM) classifiers. It is observed that SVM classification gives better classification accuracy compared to MLC. Overall classification accuracy is 93.03% for SVM and 88.78% for MLC. Class separability and classification accuracy comparison results are presented. 相似文献
12.
The analysis and classification of land cover is one of the principal applications in terrestrial remote sensing. Due to the seasonal variability of different vegetation types and land surface characteristics, the ability to discriminate land cover types changes over time. Multi-temporal classification can help to improve the classification accuracies, but different constraints, such as financial restrictions or atmospheric conditions, may impede their application. The optimisation of image acquisition timing and frequencies can help to increase the effectiveness of the classification process. For this purpose, the Feature Importance (FI) measure of the state-of-the art machine learning method Random Forest was used to determine the optimal image acquisition periods for a general (Grassland, Forest, Water, Settlement, Peatland) and Grassland specific (Improved Grassland, Semi-Improved Grassland) land cover classification in central Ireland based on a 9-year time-series of MODIS Terra 16 day composite data (MOD13Q1). Feature Importances for each acquisition period of the Enhanced Vegetation Index (EVI) and Normalised Difference Vegetation Index (NDVI) were calculated for both classification scenarios. In the general land cover classification, the months December and January showed the highest, and July and August the lowest separability for both VIs over the entire nine-year period. This temporal separability was reflected in the classification accuracies, where the optimal choice of image dates outperformed the worst image date by 13% using NDVI and 5% using EVI on a mono-temporal analysis. With the addition of the next best image periods to the data input the classification accuracies converged quickly to their limit at around 8–10 images. The binary classification schemes, using two classes only, showed a stronger seasonal dependency with a higher intra-annual, but lower inter-annual variation. Nonetheless anomalous weather conditions, such as the cold winter of 2009/2010 can alter the temporal separability pattern significantly. Due to the extensive use of the NDVI for land cover discrimination, the findings of this study should be transferrable to data from other optical sensors with a higher spatial resolution. However, the high impact of outliers from the general climatic pattern highlights the limitation of spatial transferability to locations with different climatic and land cover conditions. The use of high-temporal, moderate resolution data such as MODIS in conjunction with machine-learning techniques proved to be a good base for the prediction of image acquisition timing for optimal land cover classification results. 相似文献
13.
《地理信息系统科学与遥感》2013,50(3):398-411
This study examines the relative utility of quad-polarization spaceborne radar and derived texture measures for classification of specific land cover categories at a site in east-central Sudan near the city of Wad Madani. Japanese Advanced Land Observing Satellite (ALOS) Phased Array type L-band Synthetic Aperture Radar (PALSAR) quad-polarization spaceborne radar data at 12.5 m spatial resolution were obtained for this study. Measures of variance texture were applied to the original PALSAR data over varied window sizes. Transformed divergence (TD) measures of separability were calculated in order to evaluate the best bands from the original and texture measures for classification. Results show that quad-polarization radar data and derived texture measures have high separability between different land cover classes, and therefore hold potential to attain high levels of classification accuracy. Specifically, when used individually the cross-polarization bands showed the highest separability, but when used in combination some mix of cross- and like-polarization bands had the highest separability. 相似文献
14.
天宫一号高光谱数据尚未得到普遍应用,其数据的质量和应用潜力仍在进一步实践求证和挖掘.See5.0数据挖掘工具是一种能够找出训练样本中模式类隐含特征,并可以自动建立决策规则的分类算法,可避免人为建立分类规则的主观性.本文首先通过光谱曲线分析,选择地物光谱分离性最好的波段组合,然后利用See5.0工具生成规则集,再利用规则集对同一幅天宫一号高光谱数据在不同分类级别上进行分类,并利用相同的验证样本进行精度验证.经过光谱分析发现分类不同森林类型的最佳谱段中心波长分别为:655 nm、673 nm、802 nm、866 nm、984 nm,See5.0分类结果表明在同一树种不同生长期及不同亚种的分类级别上,分类精度在45%以下,表现出了一定局限性,但在树种分类级别上,天宫一号数据表现出了高光谱的优越性,分类精度皆在80%以上,植被类型分类级别,分类精度可达到90%以上. 相似文献
15.
利用面向对象分类方法提取冬小麦种植面积的研究 总被引:7,自引:0,他引:7
应用陆地卫星TM数据和遥感图像处理软件eCognition5.0和ENVI4.3软件,以面向对象的方法和监督分类波谱角法分别提取泰安市2005年冬小麦种植面积及其分布信息。逐像素分类的结果存在"椒盐"效应,而且很难克服同物异谱、同谱异物现象,面向对象的分类方法可以有效的集成专家知识和各种辅助数据,克服逐像素分类的弊端。分类结果表明,利用面向对象的分类方法可以获得比传统的像素级分类方法更高的分类精度,为冬小麦种植面积的自动提取提供了广阔的前景。 相似文献
16.
Luzum B.J. Slatton K.C. Shrestha R.L. 《Geoscience and Remote Sensing Letters, IEEE》2004,1(4):268-271
Several novel features are examined to determine their effectiveness in separating buildings from trees in airborne laser swath mapping (ALSM) data. New one- and two-dimensional distance measures are created to quantify the separability of the classes using the different features. Several features involving the intensity of the laser returns were found to be highly effective at separating the classes. The new distance measure provides insight into what makes a good/bad feature when discriminating between classes. It also lays the groundwork for future classification of ALSM data by providing a systematic method of ranking features to be used for classification. 相似文献
17.
基于特征空间中类间可分性的层次型多类支撑向量机 总被引:1,自引:0,他引:1
针对支撑向量机的特点提出了一种特征空间中的类间可分性度量 ,并基于该度量通过聚类算法构造了二叉树和单层聚类两种层次型多类支撑向量机。通过多光谱遥感影像的分类实验证明了该可分性度量的有效性。 相似文献
18.
R. L. Mehta N. Parihar A. Sinha B. P. Shastri M. Chakraborty 《Journal of the Indian Society of Remote Sensing》2014,42(2):439-444
Radar sensors can be used for large-scale vegetation mapping and monitoring using backscattering coefficients in different polarizations and wavelength bands. C-band space borne SAR is widely used for the classification of agricultural crops, but can only perform a limited discrimination of various tree species. This paper presents the results of discrimination between mustard crop and babul plantation (Prosopis sp.) using quad polarisation Radarsat 2 and ALOS PALSAR data. Study area is comprised of dense babul plantation along the canal, mustard crop on one side of the canal and Fallow land near to Ramgarh village of Jaisalmer district. Three bands of Radarsat (HH, HV and VV) acquired during peak mustard crop growth stage were integrated with four polarizations (HH, HV, VH and VV) of ALOS PALSAR acquired when crop cover was absent. Using only Radarsat data Jefferies-Matusita (JM) separability between mustard crop and babul plantation was found to be poor (710). Where as in the seven band combination the separability was observed to be high (1374). Among the different polarizations three layer combination, highest separability was observed using cross polarizations (HV and VH) of L-band with any one of the Radarsat Polarisation (HH/HV/VV). This combination of C- and L-band resulted in easy separation of mustard and babul plantation which was otherwise difficult using only Radarsat data. 相似文献
19.
S. Panigrahy M. Chakraborty K. R. Manjunath N. Kundu J. S. Parihar 《Journal of the Indian Society of Remote Sensing》2000,28(1):59-65
Radarsat ScanSAR Narrow (SN2) data acquired on July 24 and August 17, 1997 were used to analyse the signature of rice crop in West Bengal, India. The analysis showed that the lowland practice of cultivation gives a distinct signature to rice due to the initial water background. The relatively stable backscatter from water bodies in temporal data enhanced the separability of rice fields from water using two date data. Around 94 per cent classification accuracy was achieved for rice crop using two date data. It was feasible to discriminate rice sub-classes based on their planting period like early and late crop. The analysis indicates the suitability of ScanSAR data for large area rice crop monitoring as it has a wide swath of 300 km. 相似文献
20.
Optical image classification converts spectral data into thematic information from the spectral signature of each object in the image. However, spectral separability is influenced by intrinsic characteristics of the targets, as well as the characteristics of the images used. The classification process will present more reliable results when aspects associated with natural environments (climate, soil, relief, water, etc.) and anthropic environments (roads, constructions, urban area) begin to be considered, as they determine and guide land use and land cover (LULC). The objectives of this study are to evaluate the integration of environmental variables with spectral variables and the performance of the Random Forest algorithm in the classification of Landsat-8 OLI images, of a watershed in the Eastern Amazon, Brazil. The classification process used 96 predictive variables, involving spectral, geological, pedological, climatic and topographic data and Euclidean distances. The selection of variables to construct the predictive models was divided into two approaches: (i) data set containing only spectral variables, and (ii) set of environmental variables added to the spectral data. The variables were selected through nonlinear correlation analysis, with the Randomized Dependence Coefficient and the Recursive Feature Elimination (RFE) method, using the Random Forest classifier algorithm. The spectral variables NDVI, bands 2, 4, 5, 6 and 7 of the dry season and band 4 of the rainy season were selected in both approaches (i and ii). The Euclidean distance from the urban area, Arenosol soil class, annual precipitation, precipitation in February and precipitation of the wettest quarter were the variables selected from the auxiliary data set. This study showed that the addition of environmental data to the spectral data reduces the limitation of the latter, regarding the discrimination of the different classes of LULC, in addition to improving the accuracy of the classification. The addition of soil classes to spectral variables provided a reduction in errors for vegetation classification (Evergreen Forest and Cerrado Sensu Stricto), as it was able to inform about nutrient availability and water storage capacity. The study demonstrates that the addition of environmental variables to the spectral variables can be an alternative to improve monitoring in areas of ecotone in Neotropical regions. 相似文献