1) characteristic waveform interpolation(CWI)
特征波形内插
1.
A scalable variable rate characteristic waveform interpolation(CWI) speech coding algorithm is proposed based on wavelet transform(WT).
基于小波变换提出可分级变速率特征波形内插(CWI)语音编码算法。
2) waveform interpolation
波形内插
1.
Review of waveform interpolation speech coding;
波形内插语音编码技术回顾与展望
2.
A new waveform interpolation speech coder at 2kbit/s;
一种新的2kbit/s波形内插语音编码器
3.
Research on Phase Information in Waveform Interpolation Speech Coding;
波形内插语音编码算法中相位问题的研究
3) wave characteristics
波形特征
1.
Observation methodology and effective factors of wave characteristics of portal hypertension;
门脉高压波形特征的观察方法及其影响因素
2.
The relationship between stress and AE rate and wave characteristics of AE in laboratory were analyzed in the paper.
通过小波变换,将室内岩体声发射等波形分解成低频和高频信号,对其原始声发射波形、细节信号和近似信号进行比较与分析,结果表明岩体在变形损伤破裂过程中不同时期的声发射波形特征不同。
3.
The wave characteristics of shallow defeats in pile is shown.
通过对基桩低应变实测波形曲线的分析,说明桩身浅部存在缺陷的波形特征。
4) Waveform Character
波形特征
1.
In accordance with the characteristics of Putaohua oil reservoir of thin deltaic interbeded sedimentary layers in Songliao basin, we study the relation among sandstones of different microfacies log characters, and seismic attributes to try qualitatively predict the sandstone reservoir development zone in terms of sedimentary microfacies and waveform characters.
针对松辽盆地葡萄花油层三角洲沉积薄互层储层的特点 ,研究不同微相的砂岩与测井特征、地震属性的关系 ,探讨利用沉积微相、波形特征定性预测砂岩储层发育带的技术。
6) characteristic waveform
特征波形
1.
In WI coding scheme,how to decompose and quantize the characteristic waveforms with low delay,low complexity and high precision have always been a hot research topic.
在波形内插(Waveform Interpolation,WI)语音编码器中,如何低延时、高精度并且低复杂度的分解和量化特征波形(Characteristic Waveform,CW)一直是该编码模型的研究热点和难点。
2.
The basic theory and design methods of prototype waveform interpolation and characteristic waveform interpolation are presented and their recent development is discussed in detail, and the direction and future works of the research field are also offered.
介绍了原型波形内插和特征波形内插算法的基本原理及其实现方法,详细描述了原型波形内插和特征形内插语音编码技术的研究进展情况,并提出了今后的研究方向。
3.
This paper proposed a new methods to realize quantitative auscultation in time and frequency domain,that is to say,heart sound characteristic waveform is extracted,which contains rich clinical diagnosis evaluated information.
本文从时频两域研究心脏量化听诊的新方法,实现心脏的诊断从定性到定量转变,即从时、频两域分别提取蕴含着丰富临床评价信息的心音特征波形,并依据所设定的阈值计算特征诊断参数,这些特征参数配以易于理解的图解和数字化参数来快速准确地判别正常心音与各种心脏杂音,该技术的实现不仅有利于缓解医生长时间听诊造成的听力疲劳,也使得其有可能成为一种大规模的人群心脏状况普查方法。
补充资料:插插
1.犹喳喳。低语声。
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