To reduce the computation time of multidimensional data processing,a 2 M-dimensional vector integer Discrete Cosine Transformation(DCT) kernel matrix was proposed and the orthogonality and energy concentration of the integer transform kernel matrix were analyzed.First,according to the theory and properties of original floating-point 2 M-dimensional vector DCT transform kernel matrix,the algorithm for the 2 M-dimensional vector DCT integer transform kernel matrix was introduced and the orthogonality of 2 M-vector integer transform kernel matrix was validated.Then,the basic principles of blocking and reorganizing the *.yuv format video files were given.Finally,by taking the four order and eight order integer transform kernels as examples,the 2 M-dimensional vector integer transform kernel matrix was analyzed,namely,the energy concentration of multidimensional data after integer transform was discussed.The experimental results show that 2 M-vector transform relative floating-point transformation has good energy concentration.The average value of energy concentration for the Y component has reached more than 97.3%,and those for the U component and V component have been more than 99.9 %.It concludes that the results will provide a strong basis for compression processing of multi-dimensional data.%为了减少处理多维数据的运算时间,提出了2M维矢量离散余弦变换(DCT)整数核矩阵,并分析了该整数变换核矩阵的正交性和能量集中性.首先,根据原有浮点型2M维矢量DCT变换核矩阵的理论及性质介绍了2M维矢量DCT整数变换核矩阵的实现算法;验证了2M维矢量整数变换核矩阵的正交性.然后,简述了对*.yuv格式视频文件进行分块与重组的基本原理.最后,以四阶整数变换核为例,分析了2M维矢量整数变换核矩阵,即讨论多维数据在整数变换后的能量集中性.实验结果表明:采用2M维矢量整数变换相对浮点型变换仍然具有较好的能量集中性,而且Y分量能量集中性均值已达到97.3%以上,U分量和V分量的能量集中性均值也已达到99.9%以上,此结果会对后来的多维数据压缩编码处理提供有力依据.
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