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基于小波变换的图像Wiener滤波并行实现 被引量:2

Image Wiener filtering Parallel Realization Based on Wavelet Transform
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摘要 面向大规模数据图像去噪处理高效实现,本文提出一种基于Daubechies 9—7小波分解的方向窗Wiener滤波并行实现方法和阵列结构。首先针对小波变换给出了提升小波变换的并行实现方法和PE间的互联结构。该实现方法极大地加速了小波变换的速度,同时其互联结构又确保了各变换层中存放相同子带系数的PE的直接互联,有效地减少了小波变换和去噪处理中的通信开销。针对Wiener滤波中各子带滑动窗累加求和问题,采用循环前缀求和的处理方式,并行地实现了多窗口的累加求和,极大地降低了Wiener滤波的时间开销,满足大图像帧处理的实时性要求。 To archieve highly efficient realization of denoising process of large-scale images, a kind of wiener filtering parallel implementing method and array architecture based on danbechies 9-7 bi-orthogonal wavelet transform are proposed in this paper. First, a parallel implementing method of lifting wavelet transformation and the PE interconnect are introduced. While the former accelerates the decomposing process, the latter ensures direct connection between PEs which store the same subband coefficients of every transform level. In this way, the communication cost of wavelet transformation and denoising are efficiently reduced. Second, focusing the accumulation problem of subband sliding window during Wiener filtering, the way of cycling prefix-accumulation is adopted to realize the parallel accumulation of multi-windows, which dramatically reduces time cost of wiener filtering, and real-time processing requirement of large scale image frames are satisfied.
作者 钟升 杨恒 王忠
机构地区 西安微电子技术研究所 西安通信学院军事电子工程系 第二炮兵工程学院
出处 《信号处理》 CSCD 北大核心 2008年第2期333-338,共6页 Journal of Signal Processing
基金 国防微电子预研项目(41308010203)
关键词 提升小波变换 方向窗Wiener滤波 PM2I网络 前缀求和 Lifting Wavelet Transformation directional Wiener filtering PM2I network Prefix-accumulation
分类号 TP391 [自动化与计算机技术—计算机应用技术] TP301.6 [自动化与计算机技术—计算机系统结构]
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参考文献9

  • 1M. K. Mihcak, I. Kozinsev, K. Ramchandran, and P. Moulin," Low-complexity image denoising based on statistical modeling of wavelet coefficients," IEEE Signal Process. Lett. ,vol. 7 ,no. 6 ,pp. 300-303 ,Jun. 1999.
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二级参考文献1

共引文献17

同被引文献15

  • 1沈绪榜,刘泽响,王茹.计算机体系结构的统一模型[J].计算机学报,2007,30(5):729-736. 被引量:17
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  • 10Mark jutian Maslen. Factoring wavelet transforms into lifting steps [Ph.D. dissertation]. The University of Western Australia, Perth, Australia, 1997.

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信号处理
2008年 第2期

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