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一种基于JPEG2000标准的高性能FIR滤波器组设计 被引量:1

A High Performance Design of FIR Filter Based on JPEG2000Standard
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摘要 文章提出了一种基于JPEG2000标准中无损压缩滤波器组的VLSI实现方法。在文章中我们充分利用了小波系数是2的幂的和的形式的性质、FIR滤波器的线性性质以及流水线的设计技术,不需要乘法器就完成了小波变换。本文所提出的设计方法的特征:没有为小波变换专门设计下采样模块,而是通过一个时钟分频方案来完成;通过移位加来代替乘法运算;无“等待时间”的开销;吞吐量高、芯片面积小。实验结果表明本文提出的方法是一种适合于VLSI实现的设计方案。 This paper proposes an efficient VLSI method for realizing Discrete Wavelet Transformation for lossless compression in the upcoming JPEG2000standard.Th e proposed method takes advantage of power-of-two format of wavelet coefficie nts;the linear phase property of FIR filters and pipeline technology to obtain multiplierless wavelet transformation.The main features of the proposed approac h are:No explicit down-sampling block is used.Down-sampling is effected usi ng a multi-clock scheme.Multiplierless implementation through performing shift-add operations.A″wait time ″free architecture.Comparing with the existing designs,this approach supports fast transformation and allows achieving very c ompact design.The results show that the proposed method is suitable for VLSI i mplementation.
作者 孙飞 孙平 陈安宏 郑南宁
机构地区 西安交通大学人工智能与机器人研究所
出处 《微电子学与计算机》 CSCD 北大核心 2003年第3期5-7,共3页 Microelectronics & Computer
基金 国家创新研究群体科学资助项目(600024301)
关键词 JPEG2000标准 高性能FIR滤波器组 设计 离散小波变换 VLSI 信号处理 小波变换 FIR Filter,Discrete Wavelet Transformation,JEPG20 00,VLSI Design
分类号 TN713 [电子电信—电路与系统] TN911.7 [电子电信—通信与信息系统]
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参考文献7

  • 1[1]K K Parhi and T Nishitani. VLSI Architecture for Discrete Wavelet transform. IEEE Trans. VLSI Syst, June, 1993, 1:191~202.
  • 2[2]M Vishwanath, R M Owens, and M J Irwin. VLSI Architectures for the Discrete Wavelet transform. IEEE Trans. Circuits Syst. Ⅱ, May, 1995, 42: 305~316.
  • 3[3]G Lafruit, F Catthoor, J P H Cornelis, and H J D Man. An Efficient VLSI Architecture for 2-D Wavelt Image with Novel Image Scan. IEEE Trans. VLSI System, January,1999, 7: 56~68.
  • 4[4]Nevin A Elghamery and S E-D Habib. An Efficient FPGA Implementation of a Wavelet Coder/Decoder. The 12th International Conference on Microelectronics Tehran,October, 2002.
  • 5[5]S R Powell, P M Chau. Reduced Complexity Programmable FIR Filters. IEEE International Symposium on Circuits and Systems (ISCAS). May, 1992, 561~564.
  • 6[6]M Nibouche, A Bouridane and O Nibouche. Design and FPGA Implementation of Biorthogonal Discrete Wavelet Transforms.
  • 7[7]JPEG 2000 Image Coding System, ISO/IEC CD 15444-1:1999 (Version 1.0, December, 9, 1999).

同被引文献6

  • 1Shapiro J M.Adaptive multidimensional perfect reconstruction filter banks using McClellan transformations[J].IEEE circuits and Systems,1992,2:939-942
  • 2Zhou Jianping,Do M N,Kovacevic J.Multidimensional orthogonal filter bank characterization and design using the cayley transform[J].Image Processing,IEEE Transactions,2005,14:760-769
  • 3Muramatsu S,Yamada A,Kiya H A.Design method of multidimensional linear-phase paraunitary filter banks with a lattice structure[C].Speech and Image Technologies for Computing and Telecommunications.Proceedings of IEEE,1997,1:69-72
  • 4Buchberger B.Groebner bases and systems theory[J].Multidimensional Systems and Signal Processing,2001,12:223-251
  • 5Charoenlarpnopparut C.Groebner basis in multidimensional system and signal processing[D].Ph.D.thesis,the Pennsylvania State University,2000
  • 6Adams W W,Loustaunau P.An introduction to groebner bases.Graduate Studies in Mathematics,American Mathematic Society,1994

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微电子学与计算机
2003年 第3期

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