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提出了基于Karhunen Lo埁ve变换的小波谱特征矢量量化三维谱像数据压缩方法耍幔颍瑁酰睿澹?Lo埁ve变换 /小波变换 /小波谱特征矢量量化方法应用了Karhunen Lo埁ve变换的消除谱相关性优良性能 ,应用二维小波变换消除空间相关性 ,在小波变换域内应用二维集分割嵌入块编码和一维谱特征矢量量化对三维谱像数据压缩 ,获得较高的压缩性能。实验结果表明 :Karhunen Lo埁ve变换 /小波变换 /小波谱特征矢量量化编码比Karhunen Lo埁ve变换 /小波变换 /改进对块零树编码和Karhunen Lo埁ve变换 /小波变换 /快速矢量量化编码方法在同样压缩比条件下 ,峰值信噪比提高 2dB和 1dB以上 ,而速度提高了 1.5和 8倍 ,整体压缩性能有较大的提高 相似文献
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提出了对块零树的预测二值标量量化压缩编码方法,给出了压缩比公式,并应用此压缩编码实现了对超细光谱数据的压缩,该压缩编码方法既具有小波零树压缩编码高压缩比和宜于实时实现的特点,同时具有编码,解码速度快和易于实时传输等优点,实验结果表明,改进的对块零树编码压缩(IBBZTC)方法在不传输剩余误差的情况下,达到190倍的压缩比时,峰值信噪比仍然在30dB以上,压缩性能优于KL变换-静止图像压缩(KLT-JPEG),小波变换-矢量量化(WT-VQ),小波变换一零树矢量量化(WT-ZTVQ)和对块零树编码压缩方法。 相似文献
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In this paper, an improved 3D SPIHT compression coding method, naming 3D BCSPIHT, based on wavelet zero tree compression coding (EZW), is used to exploit redundancy in 3D hyperspectral imagery data. The experimental results show that this method can obtain the compression ratio 200 for 224 spectral band data without any K-L transformation (KLT) to remove the spectral correlation, and the total compression performance of this method is better than the method of KLT and other two dimensional transformation (such as 2D DCT and 2DWT) to remove the spectral correlation and spatial redundancy. To compare with the total compression ratio of KLT+JPEG method and KLT+BBZTC method, this method reaches 200 folds at the average PSNR of 32.531 dB. This method enhances 2~5 dB in PSNR at same compression ratio to KLT+BBZTC method, and the average compression rate improves above 15 fold. 相似文献
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1 Introduction Compressioncanbeachievedbyencodingthetransformeddata .Afundamentalgoalofdatacompressionistoreducethebitratefortransmissionorstoragewhilemaintaininganacceptablefidelityorimagequality,especiallyavolumeof 3Dhyperspectralimagerydataneedsuchp… 相似文献
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