共查询到19条相似文献,搜索用时 46 毫秒
1.
针对一般超光谱遥感图像的压缩方法无法同时实现图像信息缩减和图像完整性的问题,提出一种机器学习理论的超光谱遥感图像无损压缩方法.利用机器学习中的聚类算法进行第一次压缩,减少超光谱遥感图像中的冗余波段光谱,并降低图像维度;再利用机器学习中的人工神经网络进行第二次压缩,将不同图像子块送入不同压缩率的神经元当中,通过隐含层自主... 相似文献
2.
1数据无损压缩技术特征 多光谱遥感图像来源于多光谱遥感技术,比如用于气象卫星的成像光谱仪,其产生的图像与一般图像相比多了一维光谱信息,数据量大,远远超出了数据传输和存储等设备的要求,这就必须对其进行压缩;图像的拍摄价格昂贵,且有长远的保存价值,最好对其进行无失真压缩,即无损压缩;日新月异发展的气象观测技术,需要对图像的原始数据进行某些计算和应用,因而需要对原始采集数据进行无损压缩. 相似文献
3.
4.
有效的星载超光谱图像压缩技术对于解决超光谱图像实时传输极为重要。针对超光谱图像传统的联合编解码算法的不足,提出了一种基于分布式信源编码(Distributed Source Coding,DSC)的超光谱图像无损压缩算法。为利用超光谱图像的局部空间相关性,将超光谱图像进行分块处理;引入多元线性回归模型构建编码块的边信息,并为每个编码块选取最优的预测阶数,以有效利用超光谱图像的局部谱间相关性。根据(n,k)线性分组码的原理,通过多元陪集码实现超光谱图像的分布式无损压缩。实验结果表明:该算法能够取得较好的无损压缩性能,同时具有较低的编码复杂度,适合星载超光谱图像的压缩实现。 相似文献
5.
基于双向预测的高光谱图像无损压缩 总被引:1,自引:1,他引:1
提出了一种基于双向预测的高光谱图像无损压缩算法。该算法首先采用自适应波段选择算法选出信息量较大的波段,然后利用聚类算法对这些波段的谱向矢量进行分类预处理。为了便于组织谱间预测过程,根据相邻波段相关性大小进行自适应波段分组,采用双向预测的方法去除谱间相关性。通过在参考波段和预测波段中定义三维上下文预测结构,在聚类结果的基础上,对各个像素分别训练最优的预测系数,从而实现当前波段的有效预测。对AVIRIS型高光谱图像的实验结果表明,该方法可获得较好的无损压缩性能。 相似文献
6.
高光谱数据的有效压缩成为遥感技术发展中需要迫切解决的问题.提出了一种基于分类非线性预测的高光谱图像无损压缩算法.针对不同频谱波段间相关性不同的特点,根据相邻波段相关性大小进行波段分组.为提高谱间预测性能,对各组波段进行最优排序.采用自适应波段选择算法对高光谱图像进行降维,并利用k-means算法对降维后波段的谱向矢量进行分类.在参考波段和预测波段中选取具有相同空间位置的上下文结构,在分类结果的基础上,对当前波段进行谱间非线性预测.参考波段采用JPEG-LS标准进行压缩,预测残差进行Golomb-Rice编码.对AVIRIS型高光谱图像的实验结果表明,该算法可显著降低压缩后的平均比特率. 相似文献
7.
8.
9.
10.
11.
高光谱海量数据的有效压缩成为遥感技术发展中需要迫切解决的问题。该文提出了一种基于聚类的高光谱图像无损压缩算法。针对高光谱图像不同频谱波段间相关性不同的特点,根据相邻波段相关性大小进行波段分组。由于高光谱图像波段数量较多,采用自适应波段选择算法对高光谱图像进行降维,以获取信息量较大的部分波段,利用k均值算法对降维后的波段谱矢量进行聚类。采用多波段预测的方案对各组中的波段进行预测,对于各个分类中的每个像素,分别选取与其空间相邻的已编码的部分同类点进行训练,从而获得当前像素的谱间最优预测系数。对AVIRIS型高光谱图像的实验结果表明,该算法可显著降低压缩后的平均比特率。 相似文献
12.
A simple and adaptive lossless compression algorithm is proposed for remote sensing image compression, which includes integer wavelet transform and the Rice entropy coder. By analyzing the probability distribution of integer wavelet transform coefficients and the characteristics of Rice entropy coder, the divide and rule method is used for high-frequency sub-bands and low-frequency one. High-frequency sub-bands are coded by the Rice entropy coder, and low-frequency coefficients are predicted before coding. The role of predictor is to map the low-frequency coefficients into symbols suitable for the entropy coding. Experimental results show that the average Comprcssion Ratio (CR) of our approach is about two, which is close to that of JPEG 2000. The algorithm is simple and easy to be implemented in hardware. Moreover, it has the merits of adaptability, and independent data packet. So the algorithm can adapt to space lossless compression applications. 相似文献
13.
14.
Traditional lossless compression methods for satellite hyperspectral imagery focus on exploiting spatial and/or spectral redundancy. Those methods do not consider the temporal redundancy between images of the same area that are captured at different times. To exploit the temporal redundancy between hyperspectral images and reduce the amount of information to be transmitted from the space-satellite to the ground station via the downlink, this paper introduces a dual link distributed source coding (DLDSC) scheme for hyperspectral space-satellite communication. The proposed scheme employs the space-satellite dual link (i.e., the downlink and the uplink). The satellite onboard uses some side information from the ground station to calculate the hyperspectral image band coset values, and then, without syndrome coding, transmits to the ground station via the downlink. Coset coding is a typical technique used in distributed source coding (DSC), and here the coset values represent the timely hyperspectral image details. Typically, the coset values have lower entropy than that of the original source values. To exploit the temporal redundancy, the side information is computed in the ground station using the image captured at the previous time for the same area and transmitted to the space-satellite via the uplink. Hyperspectral images from the Hyperion satellite are used for the validation of the proposed scheme. The experimental results indicate that the proposed DLDSC scheme can reduce the original signal entropy by approximately 3.2 bits per sample (bps) and can achieve up to 1.0 bps and 1.6 bps gains over the lossless JPEG2000 standard and the state-of-art predictive CCSDS-123 method, respectively. 相似文献
15.
16.
多光谱扫描仪(MSS)卫星遥感图象原始数据的信息保持型压缩编码 总被引:2,自引:0,他引:2
电视图象(隔行扫描)编码中采用的预测器:x^0=1/2x1′ 1/4(x3′ x4′),同样适用于多光谱扫描仪(MSS)卫星遥感图象原始数据(逐行扫描)的信息保持型压缩编码.采用此预测器和简单的熵编码(A3码),在两类计算机上用软件实现了典型MSS数据的信息保持型的编码/解码,压缩比略大于2.本文是课题报告及后续工作的简要报导,所提出的算法现JPEG建议中有关部分相似. 相似文献
17.
一种基于小波系数上下文模型的图像压缩方法 总被引:2,自引:3,他引:2
提出了二种新颖的基于小波系数上下文模型的图像压缩方法,该方法通过量化当前系数的线性预测值形成上下文.进行自适应的算术编码;同时利用了小波变换的多分辨率性质,以渐近分辨率的方式压缩图片,具有分辨率可扩展性。实验结果表明,该方法获得的无损压缩比高于SPIHT和用于JPEG2000的EBCOT,在各分辨率下的压缩比也高于EBCOT.压缩时间也比EBCOT要少。 相似文献
18.
Marco Cagnazzo Luca Cicala Giovanni Poggi Luisa Verdoliva 《Signal Processing: Image Communication》2006,21(10):850-861
Compression of remote-sensing images can be necessary in various stages of the image life, and especially on-board a satellite before transmission to the ground station. Although on-board CPU power is quite limited, it is now possible to implement sophisticated real-time compression techniques, provided that complexity constraints are taken into account at design time. In this paper we consider the class-based multispectral image coder originally proposed in [Gelli and Poggi, Compression of multispectral images by spectral classification and transform coding, IEEE Trans. Image Process. (April 1999) 476–489 [5]] and modify it to allow its use in real time with limited hardware resources. Experiments carried out on several multispectral images show that the resulting unsupervised coder has a fully acceptable complexity, and a rate–distortion performance which is superior to that of the original supervised coder, and comparable to that of the best coders known in the literature. 相似文献
19.
This paper presents a study of lossless image compression of fullband and subband images using predictive coding. The performance of a number of different fixed and adaptive predictors are evaluated to establish the relative performance of different predictors at various resolutions and to give an indication of the achievable image resolution for given bit rates. In particular, the median adaptive predictor is compared with two new classes of predictors proposed in this paper. One is based on the weighted median filter, while the other uses context modelling to select the optimum from a set of predictors. A graphical tool is also proposed to analyse the prediction methods. Simulations of the different predictors for a variety of real world and medical images, evaluated both numerically and graphically, show the superiority of median based prediction over this proposed implementation of context model based prediction, for all resolutions. The effects of different subband decomposition techniques are also explored. 相似文献