1) odd symmetric biorthogonal wavelet transforms
奇对称双正交小波变换
2) Bi-orthogonal symmetric wavelets
双正交对称小波
3) biorthogonal wavelet transform
双正交小波变换
1.
CT/PET medical image fusion based on biorthogonal wavelet transform;
基于双正交小波变换的CT/PET医学图像融合
2.
Application of lifting-scheme-based CDF(1,5) integer-integer invertible biorthogonal wavelet transform in progressively lossless image compression;
基于提升方案的CDF(1,5)整-整可逆双正交小波变换在渐进性无损图像压缩中的应用
3.
In this paper, the performance and the specialty which biorthogonal wavelet transform has in image procession was analyzed, and the application of fingerprint image compression was introduced.
双正交小波变换应用较广泛。
4) anti-symmetrical biorthogonal wavelets
反对称双正交小波
1.
A method of image compression using anti-symmetrical biorthogonal wavelets is presented, where the space and the structure redundancy in the static picture are analysized.
研究了一种反对称双正交小波的图像压缩算法。
5) anti-symmetric biorthogonal wavelet
反对称双正交小波
1.
MethodsA region of facial features is detected and compressed using anti-symmetric biorthogonal wavelet (ASBW) and subband coding.
方法 将人脸图像分为特征区、过渡区和背景区,特征区采用反对称双正交小波变换子带编码;过渡区和背景区采用不同码率的改进型零树编码和Huffman编码。
6) finite interval bi-orthogonal wavelet
区间双正交小波变换
补充资料:正交变换
设m是对称矩阵, p是可逆矩阵, n=p^tmp 称为 m的正交变换。
正交变换不改变m的特征值。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条