1) continuous-speech recognition
连续说话识别
2) Continous Speech Recognition
连续话音识别
3) speaker recognition
说话人识别
1.
Prevention of impostors entering speaker recognition systems;
防止假冒者闯入说话人识别系统
2.
Application of the improved VQ arithmetic to speaker recognition;
一种改进的VQ算法在说话人识别上的应用
3.
Application of vector quantification in speaker recognition;
矢量量化技术在说话人识别中的应用
4) Speaker identification
说话人识别
1.
Speaker identification using modified radial basis function networks by genetic algorithm;
说话人识别使用遗传RBF网络
2.
New codebook design method based on hybrid immune algorithm for text-independent speaker identification;
说话人识别中采用混合免疫算法的VQ码本设计
3.
Research and experiment of speaker identification algorithms based on artificial neural network;
基于神经网络的说话人识别算法的研究与实验
5) speaker recognition
说话者识别
1.
The concept of speaker recognition and involved theories of artifical neural network(ANN) were introduced.
以BP网络为例阐述了人工神经网络在说话者识别中的应用。
2.
This paper gave a novel approach that takes advantages of this property of auditory system to improve speaker recognition in real applications.
利用这一特性把丢失数据技术应用于噪声环境下说话者识别系统的性能改进。
3.
In speaker recognition system, it抯 one of the key problems to extract the valid acoustic features that can represent speaker抯 characters.
在说话者识别系统中,提取反映说话者个性的语音信号特征参数是系统的关键问题之一。
6) speaker verification
说话人识别
1.
Speaker verification based on Cohort Similarity
基于Cohort相似度的说话人识别
2.
Through analyzing some features that be used usually in speaker identification system nowadays,in order to improve the rate of identification,this paper puts forward a method that combining efficiently more features such as MFCC and LPCC and their one ranks coefficients and keynote period and so on to do speaker verification under Matlab 6.
通过分析当今说话人识别系统中常用的一些特征参数,以提高说话人识别的识别率为目的,在Matlab 6 。
3.
Most stateoftheart speaker verification systems need a speaker independent(SI) background model,and use some adaptive method to train the background model.
在大多数的说话人识别系统中,需要首先建立一个说话人无关的模型,这种模型成为全局模型。
补充资料:连续和非连续孔径射电望远镜
射电望远镜因接收天体射电的天线孔径的构成方式不同,而有连续孔径和非连续孔径之分。连续孔径射电望远镜是射电望远镜的一种最简单的类型,其天线孔径为接收单元所布满,因而天线增益和分辨率全由天线孔径的实际尺寸和形状决定。这类望远镜天线孔径可以有各种形状,如通常的抛物面、球面、抛物柱面、抛物带形反射面等。某些由分立天线(如偶极子天线、裂缝波导等)组成的天线阵,当阵元间距不大于半波长时,由于电场强度方向图和连续面电流分布的场强方向图相似,也被认为是连续孔径射电望远镜。这种情况更常见于线孔径或米波、十米波段的偶极子阵。非连续孔径射电望远镜是天线结构只分布在孔径部分面积内的望远镜,通常由多个天线组成。栅式干涉仪、复合射电干涉仪、栅十字、 T形栅、圆阵、圆环以及综合孔径射电望远镜等都是。这种望远镜的分辨率由天线范围(设想的孔径)的外尺寸决定,而总的天线增益或灵敏度,则取决于全部天线单元面积的总和。图中a所示的连续孔径天线可认为由N个单元面积组成,经天线传至接收机的信号是各单元反射信号的迭加,连续孔径射电望远镜通过焦点处的馈源自动得到这种迭加。由于二单元A、B信号的迭加效果等效于处在A、B的相关干涉仪输出,非连续孔径射电望远镜正是基于这个原理,在省去孔径一部分的情况下,保留连续孔径各单元间的全部间距和取向,如图中b所示的"骨架式"射电望远镜,或者依观测需要对这些间距和取向进行有限的采样(各种干涉阵),甚至用不少于2的有限天线依次采样后进行处理;图中c是综合孔径望远镜。
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