• DocumentCode
    1568314
  • Title

    Improved fast encoding method of vector quantization based on dynamic element reordering for codewords

  • Author

    Pan, Zhibin ; Kotani, Koji ; Ohmi, Tadahiro

  • Author_Institution
    New Ind. Creation Hatchery Center, Tohoku Univ., Sendai
  • fYear
    2007
  • Firstpage
    404
  • Lastpage
    407
  • Abstract
    Vector quantization (VQ) is a popular signal compression method. In a VQ framework, the encoding speed is one of the key issues for its practical applications. In principle, the high dimension of the original (nxn)-dimensional vectors is the reason that makes it is computationally very expensive to find the best-matched codeword for a given input vector by computing Euclidean distances. As a result, a lot of fast VQ encoding methods have been developed in the previous works based on using scalar statistical features (i.e., sum, variance or L2 norm) or lower dimensional multi-resolution representation (i.e., various pyramid data structures) of a vector to deal with this computational complexity problem caused by the high dimension of the original vectors, hi particular, a very effective mixed-pyramid data structure is reported in the previous work [7], which features a minimum configuration by combining a 2-PM core sum pyramid and a (nxn)-PM auxiliary variance pyramid together. However, this mixed-pyramid failed to take the element order of a vector into account. hi order to further improve the encoding performance of the previous work [7], this paper proposes to introduce a dynamic element reordering operation to let all elements of a codeword rearranged in an ascending order by an offline sorting process before it goes to construct the mixed-pyramid for the codeword. After the element reordering, it is possible to make the intermediate levels in the mixed-pyramid of a codeword keep more energy and become more powerful for rejection tests. Experimental results confirmed that the encoding efficiency of the proposed method remarkably outperforms the previous work [7].
  • Keywords
    computational complexity; encoding; vector quantisation; Euclidean distances; codewords; dynamic element reordering; fast encoding method; lower dimensional multi-resolution representation; mixed-pyramid; offline sorting process; scalar statistical features; signal compression method; vector quantization; Computational complexity; Data structures; Electronics industry; Encoding; Euclidean distance; Image coding; Industrial electronics; Sorting; Testing; Vector quantization;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Circuit Theory and Design, 2007. ECCTD 2007. 18th European Conference on
  • Conference_Location
    Seville
  • Print_ISBN
    978-1-4244-1341-6
  • Electronic_ISBN
    978-1-4244-1342-3
  • Type

    conf

  • DOI
    10.1109/ECCTD.2007.4529618
  • Filename
    4529618