共查询到19条相似文献,搜索用时 890 毫秒
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非监督波段选择方法是高光谱图像降维的主要方法,但现有方法应用到实际高光谱图像分类时,分类精度并不理想。本文提出一种改进的基于聚类的高光谱图像非监督波段选择方法,主要通过对传统的K-means聚类算法进行两方面改进:一方面是相似性度量函数;另一方面是聚类中心的选取。然后,通过实验数据用支持向量机法(SVM)对所提算法及现有的三种非监督波段选择方法进行分类。最后,用总体精度(OA)和Kappa系数评价分类结果。表明本文所提方法在分类精度方面优于其他现有方法。 相似文献
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空间聚类应当同时满足空间位置邻近和属性相似,在此背景下,为满足空间邻近实体之间趋势性和不均匀性的属性聚类需求,提出一种基于图论和信息熵的空间聚类算法。该算法主要是在Delaunay三角网空间位置聚类基础上,通过引入信息熵,采用多元相似性度量方法以解决二元关系在属性聚类中的缺陷,同时基于"等概率最大熵"原则提出了一种局部参数度量方法,用于表达邻近目标间属性分布的局部变化信息。将本文方法与多约束聚类方法和DDBSC聚类方法进行对比分析,结果表明:(1)在属性空间分布不均的情况下,本文方法的聚类精度要高于多约束方法和DDBSC方法,尤其是当属性空间分布不均程度不断扩大时,DDBSC和多约束算法会将空间簇内的实体误判为噪声;(2)在对异常值的敏感性问题上,3类方法都能识别出异常值的位置,但DDBSC和多约束算法对异常值具有一定的敏感性,聚类结果会掩盖属性分布的趋势性,本文方法受异常值影响很小。通过模拟实验和实际算例可以发现,在保证空间邻近的基础上本文方法具有如下优势:第一,能反映实体属性在空间分布中的趋势性特征;第二,能满足属性空间分布不均匀;第三,对异常值具有良好的稳健性。 相似文献
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一种基于局部分布的空间聚类算法 总被引:1,自引:1,他引:0
设计了一种度量邻近域内空间实体局部分布的新指标——中值角度,在此基础上,提出了一种基于空间实体局部分布的空间聚类算法。该方法递归搜索空间实体集中所有局部分布度量值相近且非离群的点,并将其聚为一类。通过模拟数据和实际数据进行实验发现,所提出的算法比DBSCAN算法的聚类结果更合理,具有很好的抗噪性,能发现任意形状的聚类。 相似文献
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给出了空间聚类知识发现的一些基本概念,包括空间聚类维、空间聚类主题及主题相关性度量(相关度和包容度)等。按不同的空间聚类主题进行聚类分析,并以聚类结果的空间样本为纽带,以计算的主题相关性度量为评价标准,对相异空间聚类主题问可能的关联关系进行知识挖掘发现,获得了良好的结果。 相似文献
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针对现有算法从LiDAR点云中提取复杂建筑物屋顶面不完整、阈值难以设置的问题,提出一种结合点云空间分布的法向量密度聚类提取屋顶面点云方法。通过构建Delaunay三角网,计算建筑物LiDAR点云的法向量;在分析建筑物点云空间和法向量分布特点的基础上,定义一种邻域关系度量屋顶面点云之间的相似性,并利用提出的算法聚类建筑物点云,得到屋顶面片点云粗提取结果;通过构建屋顶面片缓冲区,经面片处理得到建筑物各屋顶面的完整点云。选取不同复杂程度的建筑物进行实验,结果表明,算法能有效提取复杂建筑物屋顶面点云,具有较好的适应性,并能为建筑物三维重建提供可靠的屋顶面信息。 相似文献
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基于支撑向量机概率输出的高光谱影像混合像元分解 总被引:5,自引:0,他引:5
提出利用支撑向量机(SVM)后验概率来分解高光谱影像的混合像元,通过支撑向量机的输出值转化为两两配对的后验概率,再由两两配对的概率值求得多类后验概率,并以像元所属类别的后验概率作为地物的组分信息。实验结果表明,该方法能较好地估计出混合像元的组分比。 相似文献
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移动轨迹聚类方法研究综述 总被引:6,自引:2,他引:4
轨迹数据是人类移动行为的表征,能够映射出人的出行模式和社会属性等信息。怎样有效挖掘轨迹数据蕴藏的人类活动规律一直是研究的热点。通过轨迹聚类发现行为相似的类簇,从而探究群体的移动模式是轨迹挖掘和深度应用常见的方法之一。本文首先根据轨迹数据的特点,将轨迹数据模型分为轨迹点模型和轨迹段模型,并据此定义相应的相似性度量:空间相似性度量和时空相似性度量;然后,对两类模型的聚类方法进行了综述,并总结不同聚类算法的优缺点,以期为不同应用选取聚类算法提供科学依据;最后对移动轨迹数据聚类方法研究的发展趋势进行了讨论。 相似文献
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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
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Marconcini M. Camps-Valls G. Bruzzone L. 《Geoscience and Remote Sensing Letters, IEEE》2009,6(2):234-238
This letter presents a novel composite semisupervised support vector machine (SVM) for the spectral-spatial classification of hyperspectral images. In particular, the proposed technique exploits the following: 1) unlabeled data for increasing the reliability of the training phase when few training samples are available and 2) composite kernel functions for simultaneously taking into account spectral and spatial information included in the considered image. Experiments carried out on a hyperspectral image pointed out the effectiveness of the presented technique, which resulted in a significant increase of the classification accuracy with respect to both supervised SVMs and progressive semisupervised SVMs with single kernels, as well as supervised SVMs with composite kernels. 相似文献
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Support vector machines in remote sensing: A review 总被引:19,自引:0,他引:19
Giorgos Mountrakis Jungho Im Caesar Ogole 《ISPRS Journal of Photogrammetry and Remote Sensing》2011,66(3):247-259
A wide range of methods for analysis of airborne- and satellite-derived imagery continues to be proposed and assessed. In this paper, we review remote sensing implementations of support vector machines (SVMs), a promising machine learning methodology. This review is timely due to the exponentially increasing number of works published in recent years. SVMs are particularly appealing in the remote sensing field due to their ability to generalize well even with limited training samples, a common limitation for remote sensing applications. However, they also suffer from parameter assignment issues that can significantly affect obtained results. A summary of empirical results is provided for various applications of over one hundred published works (as of April, 2010). It is our hope that this survey will provide guidelines for future applications of SVMs and possible areas of algorithm enhancement. 相似文献
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Pradeep Kumar Arti Choudhary Varun Narayan Mishra Dileep Kumar Gupta Prashant K. Srivastava 《国际地球制图》2017,32(2):206-224
Crop classification is needed to understand the physiological and climatic requirement of different crops. Kernel-based support vector machines, maximum likelihood and normalised difference vegetation index classification schemes are attempted to evaluate their performances towards crop classification. The linear imaging self-scanning (LISS-IV) multi-spectral sensor data was evaluated for the classification of crop types such as barley, wheat, lentil, mustard, pigeon pea, linseed, corn, pea, sugarcane and other crops and non-crop such as water, sand, built up, fallow land, sparse vegetation and dense vegetation. To determine the spectral separability among crop types, the M-statistic and Jeffries–Matusita (J–M) distance methods have been utilised. The results were statistically analysed and compared using Z-test and χ2-test. Statistical analysis showed that the accuracy results using SVMs with polynomial of degrees 5 and 6 were not significantly different and found better than the other classification algorithms. 相似文献
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A new machine learning paradigm for terrain reconstruction 总被引:1,自引:0,他引:1
《Geoscience and Remote Sensing Letters, IEEE》2006,3(3):382-386
Terrain models that permit multiresolution access are essential for model predictive control of unmanned aerial vehicles in low-level flights. The authors present the extreme learning machine (ELM), a recently proposed learning paradigm, as a mechanism for learning the stored digital elevation information to allow multiresolution access. We give results of simulations designed to compare the performance of our approach with two other approaches for multiresolution access, namely: 1) linear interpolation on Delaunay triangles of the sampled terrain data points and 2) terrain learning using support vector machines (SVMs). The results show that to achieve the same mean square error during access, the memory needed in our approach is significantly lower. Additionally, the offline training time for the ELM network is much less than that for the SVM. 相似文献
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复杂环境下高分二号遥感影像的城市地表水体提取 总被引:1,自引:0,他引:1
水体指数可以抑制背景噪声和提高地表水体的可分性,已经广泛用于地表水体提取。传统FCM聚类算法考虑了地物的不确定性,但没有顾及地物的邻域空间信息,对背景异质性比较敏感。针对传统FCM聚类算法的不足,提出一种可变邻域的区域FCM聚类算法。由于复杂环境下高分二号(GF-2)遥感影像的城市地表水体具有复杂异质背景和不确定性的特点,本文利用水体指数和区域FCM聚类算法的优点,提出一种整合水体指数和区域FCM的城市地表水体自动提取算法,该算法主要步骤包括:(1)去除影像阴影后计算归一化差分水体指数NDWI(Normalized Difference Water Index);(2)区域FCM聚类算法;(3)整合水体指数和区域FCM聚类的城市地表水体自动提取算法。最后采用两景GF-2高分辨率遥感影像(广州和武汉)进行实验,验证了该算法的有效性,并与经典地表水体提取算法进行对比分析。实验结果表明:该算法具有较高的水体提取精度,城市地表水体边界既具有较好的区域完整性又保持了局部细节,同时对城市地表水体复杂背景噪声具有较好的抑制作用,有效减少传统FCM聚类算法的"胡椒盐"现象。 相似文献
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Roads and buildings constitute a significant proportion of urban areas. Considerable amount of research has been done on the road and building extraction from remotely sensed imagery. However, a few of them have been concentrating on using only spectral information. This study presents a comparison between three object-based models for urban features’ classification, specifically roads and buildings, from WorldView-2 satellite imagery. The three applied algorithms are support vector machines (SVMs), nearest neighbour (NN) and proposed rule-based system. The results indicated that the proposed rules in this study, despite the spectral complexity of land cover types, performed a satisfactory output with an overall accuracy of 92.92%. The advantages offered by the proposed rules were not provided by other two applied algorithms and it revealed the highest accuracy compared to SVM and NN. The overall accuracy for SVM was 76.76%, which is almost similar to the result achieved by NN (77.3%). 相似文献
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Iman Khosravi Majid Mohammad-Beigi 《Journal of the Indian Society of Remote Sensing》2014,42(2):423-428
One of the most widely used outputs of remote sensing technology is Hyperspectral image. This large amount of information can increase classification accuracy. But at the same time, conventional classification techniques are facing the problem of statistical estimation in high-dimensional space. Recently in remote sensing, support vector machines (SVMs) have shown very suitable performance in classifying high dimensionality problem. Another strategy that has recently been used in remote sensing is multiple classifier system (MCS). It can also improve classification accuracy by combining different classifier methods or by a diversity of the same classifier. This paper aims to classify a Hyperspectral data using the most common methods of multiple classifier systems i.e. adaboost and bagging and a MCS based on SVM. The data used in the paper is an AVIRIS data with 224 spectral bands. The final results show the high capability of SVMs and MCSs in classifying high dimensionality data. 相似文献
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Support vector machines for tree species identification using LiDAR-derived structure and intensity variables 总被引:1,自引:0,他引:1
Zhenyu Zhang 《国际地球制图》2013,28(4):364-378
Tree species identification and forest type classification are critical for sustainable forest management and native forest conservation. Recent success in forest classification and tree species identification using LiDAR (light detection and ranging)-derived variables has been reported in many studies. However, there is still considerable scope for further improvement in classification accuracy. It has driven research into more efficient classifiers such as support vector machines (SVMs) to take maximum advantage of the information extracted from LiDAR data for potential increases in the accuracy of tree species classification. This study demonstrated the success of the SVMs for the identification of the Myrtle Beech (the dominant species of the Australian cool temperate rainforest in the study area) and adjacent tree species – notably, the Silver Wattle at individual tree level using LiDAR-derived structure and intensity variables. An overall accuracy of 92.8% was achieved from the SVM approach, showing significant advantages of the SVMs over the traditional classification methods such as linear discriminant analysis in terms of classification accuracy. 相似文献