基于SVM的多源信息复合的高空间分辨率遥感数据分类研究   总被引：47，自引：1，他引：47  

张锦水  何春阳  潘耀忠  李京 《遥感学报》2006,10(1):49-57

遥感图像尤其是高空间分辨率（1—4m）遥感图像在土地利用和土地覆盖变化方面有着广阔的应用前景，传统高空间分辨率遥感图像信息提取方法存在精度和分类效率低的不足。本文提出的基于SVM的分类方法，复合光谱、纹理和结构信息等多源数据信息，对IKONOS高空间分辨率图像进行分类，并与最大似然法和单源数据（光谱）SVM分类结果进行定性和定量比较分析。研究结果表明，多源数据复合的SVM高空间分辨率遥感图像分类方法，能够有效解决单源数据信息图像分类效果破碎的问题；总精度达到68．38％，Kappa达到0．5993；对高维输入向量具有高的推广能力；比单源信息的SVM和最大似然方法图像分类精度更高，适合高空间分辨率遥感图像分类。  相似文献   

基于波段子集的独立分量分析的特征提取的高光谱遥感影像分类     

郭学兰;杨敏华;毛军;周秋琳 《东北测绘》2013,(4):144-146,149+152

针对高光谱影像数据具有波段众多、数据量较大的特点,本文提出了一种基于波段子集的独立分量分析(ICA)特征提取的高光谱遥感影像分类的新方法。以北京昌平小汤山地区的高光谱影像为例,根据高光谱遥感影像的相邻波段的相关性进行子空间划分,在各个波段子集上采用ICA算法进行特征提取,将各个子空间提取的特征合并组成特征向量,采用支持向量机(SVM)分类器进行分类。结果表明:该方法分类精度最佳(分类精度89.04%,Kappa系数0.8605,明显优于其它特征提取方法的SVM分类,有效地提高了高光谱数据的分类精度。  相似文献   

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  

侯榜焕  王锟  姚敏立  贾维敏  王榕 《测绘学报》2017,46(9):1098-1106

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   

适用于遥感图像分类的对偶子空间分类器     

朱述龙 《测绘学院学报》1995,(1)

本文在子空间分类器的基础上，对子空间的概念进行了扩展，提出了对偶子空间的概念和相应的分类算法。这种分类器不仅保持了子空间分类器分类准确度高的特点，而且分类速度有很大提高，因而更适用于大规模的遥感图像分类。  相似文献   

结合纹理的SVM遥感影像分类研究   总被引：7，自引：0，他引：7  

陈波  张友静  陈亮 《测绘工程》2007,16(5):23-27

针对传统统计模式识别分类方法分类精度不高,分类时未加入像元灰度的空间分布和结构特征以及分类时样本不足等缺陷,采用一种结合纹理的支持向量机(SVM)遥感图像分类方法。该方法在对Landsat7 ETM遥感影像进行纹理特征提取的基础上,构建了结合纹理的SVM分类模型。以河南省汝阳县为试验区,利用此模型对该区域的土地利用类型进行分类研究,并将分类结果与最大似然法和单源数据(光谱)SVM分类结果进行定性和定量比较分析。研究结果表明:该方法能够有效地解决单数据源分类效果破碎、分类精度不高等问题;对高维输入向量具有较高的推广能力;总精度达到90%,比单源信息的SVM分类法提高了6%,而与最大似然法相比,总精度提高了近9%,取得了良好的效果。  相似文献   

空-谱融合的条件随机场高光谱影像分类方法     

魏立飞  余铭  钟燕飞  袁自然  黄灿 《测绘学报》2020,49(3):343-354

高光谱遥感数据具有光谱信息丰富、图谱合一的特点,目前已经广泛地应用在对地观测中。传统的高光谱分类模型大多过分依赖影像光谱信息,没有充分利用空间特征信息,这使得分类精度还有很大的提升空间。条件随机场是一种概率模型,能够较好地融合空间上下文信息,在高光谱影像分类中已经得到越来越多的关注,但大部分条件随机场模型存在超平滑的现象,会导致影像细节丢失。针对该问题,本文提出了一种优化融合影像空-谱信息的高分辨率/高光谱影像分类方法,该方法将影像的纹理信息与原始光谱信息进行融合,利用SVM分类器对其进行预分类,并将各类概率定义为一元势函数,以融合空间特征信息;然后将空间平滑项和局部类别标签成本项加入二元势函数中,以考虑空间背景信息,并保留各类别中的详细信息。最后,通过两组的高分辨率/高光谱影像数据进行试验。结果表明,与SVM算法、传统的条件随机场方法和面向对象的分类方法相比,本文提出的算法在整体分类精度上分别提高了10%、9%和8%以上,同时在保持地物边缘完整性、避免“同谱异物”与“同物异谱”的现象方面有较明显的优势。  相似文献   

基于多分类器组合的遥感影像分类方法研究   总被引：2，自引：0，他引：2  

彭正林  毛先成  刘文毅  何美香 《国土资源遥感》2011,(2):19-25

针对遥感影像分类特点,提出了一种基于多分类器组合的遥感影像分类方法.该方法选取分类性能以及多样性最好的马氏距离、支持向量机(SVM)和最大似然等3种分类器作为子分类器,自定义规则对简单投票法、最大概率类别法以及模糊积分法进行组合,并以山西怀仁县为研究区,对基于航摄数字正射影像进行分类.结果表明,与单个子分类器中精度最高...  相似文献   

基于卷积核哈希学习的高光谱图像分类     

薛朝辉  张瑜娟 《遥感学报》2022,26(4):722-738

高光谱遥感可同步获取地表覆盖空间影像和连续且精细的光谱数据,能够实现对地物的精细分类与识别。然而,高光谱图像的高维特性对分类带来巨大挑战。为此,本文探讨了一种基于卷积核哈希学习的高光谱图像分类方法。哈希学习可以将高维信息表达为低维哈希编码,通过计算哈希编码内积并借助最小汉明距离实现分类。为了有效表达非线性数据,又发展了核哈希学习方法。然而,直接应用核哈希学习进行高光谱图像分类存在运行速度慢和未考虑空间邻域信息的不足。为此,本文在核哈希学习中引入径向基函数RBF（Radial Basis Function）作为损失函数以提高运行效率;同时,借助四维卷积操作充分表达空间邻域信息,提出了基于卷积核哈希学习的高光谱图像分类方法CKSH（Supervised Hashing with RBF Kernel and Convolution）,同时探讨了该方法在仅利用光谱特征和光谱—空间联合特征上的分类效果。在国际通用测试数据Indian Pines和University of Pavia上进行了实验,结果表明：本文提出的CKSH方法优于传统分类方法（支持向量机、随机子空间）和其他哈希学习方法（如谱哈希、球哈希、监督离散哈希、潜在因子哈希等）,同时在不同训练样本数量条件下均取得了较高的分类精度,达到96.12%（Indian Pines,10%的训练样本）和98.00%（University of Pavia,5%的训练样本）,从而验证了该方法的有效性。  相似文献   

SVM多窗口纹理土地利用信息提取技术   总被引：2，自引：0，他引：2  

张伐伐  李卫忠  卢柳叶  张青峰  康乐 《遥感学报》2012,16(1):67-78

针对单一窗口纹理分类时地物破碎,分类精度不高等问题,提出了一种基于支持向量机多窗口纹理的遥感图像分类方法。该方法在对SPOT5遥感影像进行纹理特征提取的基础上,构建了结合多窗口纹理的SVM模型。以陕西省佛坪县长角坝乡为试验区,利用此模型对该区域的土地利用类型进行分类研究,并将分类结果与单一窗口纹理SVM分类和单元数据(光谱)SVM分类结果进行了比较分析。结果表明:多窗口纹理参与的土地利用分类总精度达到85.33%,比单一窗口纹理分类提高了13.11%,而与单元数据SVM分类相比提高了近24.10%,取得了较好的分类效果,有效地解决了单一窗口纹理分类时地物破碎、分类精度不高等问题。  相似文献   

基于稀疏判别分析的高光谱影像特征提取     

周亚文  董广军  薛志祥  黎珂  王惠英 《测绘科学技术学报》2017,34(4)

针对当前特征提取方法不能充分挖掘高光谱影像稀疏特性的问题,提出一种基于稀疏判别分析的高光谱影像特征提取方法。首先,在线性判别分析的系数向量中引入稀疏正则项来捕获具有更强判别能力的特征,将高光谱影像映射至低维稀疏的子空间;然后,利用迭代优化方法对模型进行求解。利用Salinas和Pavia University高光谱影像进行对比实验,所提方法与分类方法结合用于影像分类时,其分类精度优于其他方法,总体分类精度分别达到97.42%和97.64%。  相似文献   

高光谱遥感影像多级联森林深度网络分类算法   总被引：1，自引：1，他引：0  

武复宇  王雪  丁建伟  杜培军  谭琨 《遥感学报》2020,24(4):439-453

高光谱遥感技术在环境监测、应急保障、精细地物提取等方面有着广泛的应用,随着高分五号高光谱数据的正式发布,高光谱遥感技术将发挥更重要的作用。遥感影像分类作为高光谱遥感影像信息处理的重要部分,已成为当前研究重点。本文针对传统多级联森林深度学习中模型复杂、无法利用基分类器差异信息、对类间差异较小的样本无法正确区分等不足,提出了一种改进的多级联森林深度学习模型,在模型框架中,分别采用了随机森林和旋转森林作为基分类器,并引入逻辑回归分类器作为判别器用于训练层扩展。相较于传统的深度神经网络,改进的多级联森林深度网络超参数较少且能够自适应确定训练层,更方便进行模型优化。实验采用了高分五号数据集及两个公开的高光谱数据集(Indian Pines数据集及Pavia University数据集)进行精度评定,同时选择了传统分类器支持向量机、深度置信网等模型作为对比分析。实验结果表明,改进的多级联森林深度学习模型能有效地进行高光谱遥感影像分类,且较传统的分类方法精度有所提升。  相似文献   

Comparative performance of convolutional neural network,weighted and conventional support vector machine and random forest for classifying tree species using hyperspectral and photogrammetric data     

C. Sothe  C. M. De Almeida  M. B. Schimalski  L. E. C. La Rosa  J. D. B. Castro  R. Q. Feitosa 《地理信息系统科学与遥感》2020,57(3):369-394

ABSTRACT

The classification of tree species can significantly benefit from high spatial and spectral information acquired by unmanned aerial vehicles (UAVs) associated with advanced classification methods. This study investigated the following topics concerning the classification of 16 tree species in two subtropical forest fragments of Southern Brazil: i) the potential integration of UAV-borne hyperspectral images with 3D information derived from their photogrammetric point cloud (PPC); ii) the performance of two machine learning methods (support vector machine – SVM and random forest – RF) when employing different datasets at a pixel and individual tree crown (ITC) levels; iii) the potential of two methods for dealing with the imbalanced sample set problem: a new weighted SVM (wSVM) approach, which attributes different weights to each sample and class, and a deep learning classifier (convolutional neural network – CNN), associated with a previous step to balance the sample set; and finally, iv) the potential of this last classifier for tree species classification as compared to the above mentioned machine learning methods. Results showed that the inclusion of the PPC features to the hyperspectral data provided a great accuracy increase in tree species classification results when conventional machine learning methods were applied, between 13 and 17% depending on the classifier and the study area characteristics. When using the PPC features and the canopy height model (CHM), associated with the majority vote (MV) rule, the SVM, wSVM and RF classifiers reached accuracies similar to the CNN, which outperformed these classifiers for both areas when considering the pixel-based classifications (overall accuracy of 84.4% in Area 1, and 74.95% in Area 2). The CNN was between 22% and 26% more accurate than the SVM and RF when only the hyperspectral bands were employed. The wSVM provided a slight increase in accuracy not only for some lesser represented classes, but also some major classes in Area 2. While conventional machine learning methods are faster, they demonstrated to be less stable to changes in datasets, depending on prior segmentation and hand-engineered features to reach similar accuracies to those attained by the CNN. To date, CNNs have been barely explored for the classification of tree species, and CNN-based classifications in the literature have not dealt with hyperspectral data specifically focusing on tropical environments. This paper thus presents innovative strategies for classifying tree species in subtropical forest areas at a refined legend level, integrating UAV-borne 2D hyperspectral and 3D photogrammetric data and relying on both deep and conventional machine learning approaches.  相似文献   

Improving Spectral–spatial Classification of Hyperspectral Imagery Using Spectral Dimensionality Reduction Based on Weighted Genetic Algorithm     

Davood Akbari 《Journal of the Indian Society of Remote Sensing》2017,45(6):927-937

This paper aims to improve the accuracy and the efficiency of high resolution land cover mapping in urban area. To this end, an improved approach for classification of hyperspectral imagery is proposed and evaluated. This approach benefits from both inherent spectral and spatial information of an image. The weighted genetic (WG) algorithm is first used to obtain the subspace of hyperspectral data. The obtained features are then fed into the enhanced marker-based minimum spanning forest (EMSF) classification algorithm. In this algorithm, the markers are extracted from the classification maps obtained by both support vector machine and watershed segmentation algorithm classifiers. For this purpose, the class’s pixels with the largest population in the classification map are kept for each region of the segmentation map. Then, the most reliable classified pixels are chosen from among the exiting pixels as markers. To evaluate the efficiency of the proposed approach, three hyperspectral data sets acquired by ROSIS-03, Hymap and Hyper-Cam LWIR are used. Experimental results showed that the proposed WG–EMSF approach achieves approximately 9, 8 and 6% better overall accuracy than the original MSF-based algorithm for these data sets respectively.  相似文献   

融合空谱特征和集成超限学习机的高光谱图像分类     

谷雨  徐英  郭宝峰 《测绘学报》2018,47(9):1238-1249

为提高高光谱图像的分类精度,提出了一种融合空谱特征和集成超限学习机的高光谱图像分类方法。首先结合每个像素邻域的光谱信息提取空谱特征向量;考虑到高光谱相邻波段信息具有一定的相关性,先对提取的特征向量进行平均分组,然后从每个区间随机选择若干个波段进行组合,采用具有快速学习能力的超限学习机训练分类器。为提高分类模型的泛化能力,基于集成学习思想,对提取的空谱特征进行多次抽样,训练得到多个弱分类器,最后采用投票表决法得到用于高光谱图像分类的强分类器。采用3个典型高光谱数据进行了分类试验,试验结果表明,提出的算法总体分类精度较优,尤其当训练样本数较少时能取得较高的分类精度。提出的算法具有可调参数少、训练速度快、分类精度高等优点,具有广阔的应用前景。  相似文献   

Evaluation of Goddard’s LiDAR,hyperspectral, and thermal data products for mapping urban land-cover types   总被引：1，自引：0，他引：1  

Caiyun Zhang  Molly Smith  Chaoyang Fang 《地理信息系统科学与遥感》2018,55(1):90-109

Goddard’s LiDAR (Light Detection And Ranging), hyperspectral and thermal (G-LiHT) airborne imager is a new system to advance concepts of data fusion for worldwide applications. A recent G-LiHT mission conducted in June 2016 over an urban area opens a new opportunity to assess the G-LiHT products for urban land-cover mapping. In this study, the G-LiHT hyperspectral and LiDAR-canopy height model (LiDAR-CHM) products were evaluated to map five broad land-cover types. A feature/decision-level fusion strategy was developed to integrate two products. Contemporary data processing techniques were applied, including object-based image analysis, machine-learning algorithms, and ensemble analysis. Evaluation focused on the capability of G-LiHT hyperspectral products compared with multispectral data with similar spatial resolution, the contribution of LiDAR-CHM, and the potential of ensemble analysis in land-cover mapping. The results showed that there was no significant difference between the application of the G-LiHT hyperspectral product and simulated Quickbird data in the classification. A synthesis of G-LiHT hyperspectral and LiDAR-CHM products achieved the best result with an overall accuracy of 96.3% and a Kappa value of 0.95 when ensemble analysis was applied. Ensemble analysis of the three classifiers not only increased the classification accuracy but also generated an uncertainty map to show regions with a robust classification as well as areas where classification errors were most likely to occur. Ensemble analysis is a promising tool for land-cover classification.  相似文献   

利用分离性测度多类支持向量机进行高光谱遥感影像分类     

谭琨  杜培军  王小美 《武汉大学学报(信息科学版)》2011,(2):171-175

从支持向量机的基本理论出发,结合高光谱数据的分离性测度,提出了一种基于分离性测度的二叉树多类支持向量机分类器,并用OMIS传感器获得的高光谱遥感数据和Hyperion高光谱遥感数据进行实验,分析比较了各种多类SVM的分类精度,并和传统的光谱角制图和最小距离分类算法进行了比较。结果表明,SVM进行高光谱分类时,基于分离性测度的二叉树多支持向量机的分类精度最高。  相似文献   

结合随机森林面向对象的森林资源分类   总被引：2，自引：0，他引：2  

王猛  张新长  王家耀  孙颖  箭鸽  潘翠红 《测绘学报》2020,49(2):235-244

针对森林资源分类研究较少且缺少相对简单有效的方法的情况,提出一种结合面向对象和随机森林的森林资源分类方法。面向对象分割技术可减少“椒盐效应”,随机森林分类算法具有高准确度、抗噪声能力强、性能稳定等优势。鉴于此,通过调整面向对象的分割参数,构造最优特征空间及估算随机森林中决策树的数量等,构建了最优的面向对象随机森林分类模型。另外,选择了SVM算法作对比试验。试验结果显示,本文分类算法的总体精度达到83.34%,Kappa系数为0.7892,明显高于SVM,能够有效提高森林资源分类的精度。  相似文献   

基于随机森林的国产小卫星遥感影像分类研究   总被引：5，自引：0，他引：5  

刘毅  杜培军  郑辉  夏俊士  柳思聪 《测绘科学》2012,(4):194-196

近年来随着小卫星数量与传感器类型的快速增加,急需研究和发展快速可靠的小卫星遥感影像分类方法。针对分类方法各具局限性、具体应用中最优分类器选取困难等问题,本文基于多分类器集成学习的思路,引入随机森林(Random Forests)方法用于小卫星遥感影像分类。采用灾害监测预报小卫星(HJ-1)、北京1号小卫星(BJ-1)两种国产小卫星多光谱遥感影像进行试验,并与传统分类方法进行比较,结果表明,随机森林比最大似然分类器(MLC)、支持向量机分类器(SVM)等具有更好的稳定性、更高的分类精度和更快的运算速度,具有很好的适用性。  相似文献   

Effects of Training Samples and Classifiers on Classification of Landsat-8 Imagery     

Ming Shang  Shi-Xin Wang  Yi Zhou  Cong Du 《Journal of the Indian Society of Remote Sensing》2018,46(9):1333-1340

In this study, we used Landsat-8 imagery to test object- and pixel-based image classification approaches in an urban fringe area. For object-based classification, we applied four machine learning classifiers: decision tree (DT), naive Bayes (NB), random trees (RT), and support vector machine (SVM). For pixel-based classification, we utilized the maximum likelihood classifier (MLC). Specifically, we explored the influence of repeated sampling on classification results with different training sample sizes. We found that (1) except the overall accuracy of NB, those of the other four classifiers increased as the training sample size increased; (2) repeated sampling had a significant effect on classification accuracy, especially for the DT and NB classifiers; and (3) SVM achieved the best classification accuracy. In addition, the performance of the object-based classifiers was superior to that of the pixel-based classifier. The results of this study can provide guidance on the training sample size and classifier selection.  相似文献   

Object-based image analysis of suburban landscapes using Landsat-8 imagery     

Ming Shang  Yi Zhou  Cong Du  Wenliang Liu 《International Journal of Digital Earth》2019,12(6):720-736

Many experiments of object-based image analysis have been conducted in remote sensing classification. However, they commonly used high-resolution imagery and rarely focused on suburban area. In this research, with the Landsat-8 imagery, classification of a suburban area via the object-based approach is achieved using four classifiers, including decision tree (DT), support vector machine (SVM), random trees (RT), and naive Bayes (NB). We performed feature selection at different sizes of segmentation scale and evaluated the effects of segmentation and tuning parameters within each classifier on classification accuracy. The results showed that the influence of shape on overall accuracy was greater than that of compactness, and a relatively low value of shape should be set with increasing scale size. For DT, the optimal maximum depth usually varied from 5 to 8. For SVM, the optimal gamma was less than or equal to 10^?2, and its optimal C was greater than or equal to 10². For RT, the optimal active variables was less than or equal to 4, and the optimal maximum tree number was greater than or equal to 30. Furthermore, although there was no statistically significant difference between some classification results produced using different classifiers, SVM has a slightly better performance.  相似文献