1) quantum signal processing
量子信号处理
1.
Then, quantum signal processing, quantum neural network and quantum image processing are discussed separately.
首先介绍了有关量子理论的基础知识,然后分别介绍了量子信号处理、量子神经网络及量子图像处理三个方面的内容,并简述了量子理论在信号处理领域的发展前景。
2.
Quantum signal processing (QSP) is aimed at developing new or modifying existing signal processing algorithms by borrowing from the principles of quantum mechanics and some of its interesting axioms and constraints.
量子信号处理(Quantum Signal Processing,QSP)借用量子力学原理和它的一些公理和约束形成的一种信号处理框架。
3.
Covariance shaping least squares estimator is a new kind of linear estimator based on covariance shaping in quantum signal processing(QSP) framework.
协方差成形最小二乘估计器是量子信号处理框架内基于MMSE协方差成形方法的一种新型线性估计器。
2) vector signal processing
矢量信号处理
1.
A vector Hilbert-Huang transform(V-HHT) is proposed by combining an HHT transform with vector signal processing.
针对瞬态信号存在时间短、变化快,传统的信号处理方法很难对其进行方位估计的问题,将希尔伯特-黄变换与矢量信号处理相结合应用到水声领域,提出了矢量希尔伯特-黄变换的方法。
2.
An application of Hilbert-Huang Transform in underwater acoustic vector signal processing was introduced and a new method of Vector Hilbert-Huang Transform(Vector HHT)was developed.
将希尔伯特黄变换应用于水声矢量信号处理之中,提出了矢量希尔伯特黄变换法(矢量HHT)。
4) signal measurement and process
信号测量处理
1.
The factors that need to be considered in the modularization design of digital equipment are expounded,and the design method that integrates the radar signal measurement and processor designed by multiple boxes and PCBs in the past to one module board by the application of ultra large-scale programmable integrated circuit FPGA are introduced.
阐述了数字设备模块化设计需要考虑的因素,介绍了应用超大规模可编程集成电路FP GA将过去采用多机箱、多印制板设计的信号测量处理设备集成为单板模块的设计实现方法。
5) Signal subspace processing
信号子空间处理
1.
Calibration method for ATI errors based on signal subspace processing
基于信号子空间处理的ATI误差校正方法
6) subband signal processing
子带信号处理
1.
By analyzing sub-band decomposition of linear frequency modulation(LFM) signals,a subband signal processing based time frequency cell delete(SSP-TFCD) algorithm for LFM interference suppression is proposed.
通过对线性调频(LFM)信号子带分解的分析,提出了一种基于子带信号处理的时频单元剔除(SSP-TFCD)LFM干扰抑制算法。
补充资料:单量子阱(见量子阱)
单量子阱(见量子阱)
single quantum well
单且子阱sillgle quantum well见量子阱。
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