由于其高效率,该算法可作为递归二维离散余弦变换算法的核心模块。
Because of its high efficiency, the algorithm may be used as a kernel of recursive 2_d DCT algorithms.
在此基础上,介绍一种基于GPU的并行计算二维离散余弦变换方法。
本文将二维离散余弦变换(DCT)应用于多光谱图像与全色光学图像融合问题的研究中。
This paper applies 2-d DCT to the remote sensing image fusion between panchromatic and multi-spectral images.
在光线空间的数据压缩中,计算了数据的相关系数,采用二维离散余弦变换(DCT)进行了变换域分析。
Data correlation coefficients were calculated and switch regions were analyzed by using two dimension discrete cosine transform (DCT) in ray-space data compression.
该文抽象出图形处理器的流执行模型,描述图形处理器流处理机制的执行过程,在图形处理器上实现了二维离散余弦变换。
This paper abstracts a stream execution model of GPU, describes its stream execution process, and implements the discrete cosine transform on GPU.
该文抽象出图形处理器的流执行模型,描述图形处理器流处理机制的执行过程,在图形处理器上实现了二维离散余弦变换。
This paper abstracts a stream execution model of GPU, describes its stream execution process, and implements the discrete cosine transform on GPU.
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