Title :
Rotated partial distance search for faster vector quantization encoding
Author_Institution :
Dept. of Electr. & Comput. Eng., Portland State Univ., OR, USA
Abstract :
Partial distance search (PDS) is a method of reducing the amount of computation required for vector quantization encoding. The method is simple and general enough to be incorporated into many fast encoding algorithms. This paper describes a simple improvement to PDS based on principal components analysis (PCA), which rotates the codebook without altering the interpoint distances. Like PDS, this new method can be used to improve many fast encoding algorithms. The algorithm decreases the decoding time of PDS by as much as 44%, and decreases the decoding time of k-d trees by as much as 66% on common vector quantization benchmarks.
Keywords :
Decoding; Encoding; Principal component analysis; Vector quantization; PCA; decoding time; fast encoding algorithm; k-d trees; principal components analysis; rotated partial distance search; vector quantization encoding; Computational efficiency; Costs; Decoding; Encoding; Euclidean distance; Matrix decomposition; Nearest neighbor searches; Principal component analysis; Singular value decomposition; Vector quantization;
Journal_Title :
Signal Processing Letters, IEEE
