1.The chapter a new method for the improvement of source coding systems by means of Spectral Band Replication (SBR) is introduced.
介绍了一种用于改进信源编码系统的新方法―频带复制(SBR)。
2.The result of the design is given. Best spectral band with of earth sensor for satellite is proposed.
给出了设计结果,提出了卫星用地球敏感器的最佳光谱波段。
3.This is accomplished by means of spectral bandwidth reduction at the encoder side and subsequent spectral band replication at the decoder.
SBR是通过在编码端减小频谱带宽,在解码端复制相应的频谱来实现的。
4.A change in wavelength, causing a movement of a spectral band or line.
频变波长的变化,引起光谱带或光谱线的运动。
5.The spectra have been assigned theoretically and the red shift of spectral band from molecule to cation has been discussed.
对光谱进行理论指认并讨论了从中性分子到离子谱带红移的原因。
6.Software scouted for variations in the image under each spectral band.
软件会侦测出每张图像在每个光谱波段下不同的变化。
7.Secondly, supervised classification is carried out with both spectral band and textural band;
然后,综合利用光谱波段和纹理波段进行监督分类;
8.Exact Expressions for Bend Phenomena of Spectral Line and Spectral Band of Spectrometer
光谱仪谱线和谱带弯曲现象的精确表述方式
9.Etching of multilayer grating using a narrow spectral band X-ray
窄光谱带宽X射线刻蚀多层膜光栅
10.FTIR Measurement and Analysis Based on the Selection of Optimized Spectral Band
基于光谱波段优化选择的FTIR测量与分析