1) time-frequency
时频
1.
Wavelet Package Based Speech Enhancement Algorithm Using Time-Frequency Threshold;
基于时频阈值的小波包语音增强算法
2.
Application of joint time-frequency distribution and its attribution.;
联合时频分布及其属性的应用
3.
Applying "zoom lens having adjustable focus" of wavelet transform to provide multiple levels time-frequency analysis for load power signal of shearer,analysis results show that th.
应用小波变换的"可变焦"特性对采煤机负载功率信号进行了多尺度时频分析,分析结果对采煤机工作状况监控和采煤机的设计具有实际的应用价值。
2) space-time-frequency spreading
空时频扩频
1.
STS is expanded from a single carrier to multi-carrier when space, time and frequency are coded, which results in a space-time-frequency spreading(STFS) coding arithmetic.
通过一种空时频扩频(STFS)的编码算法,将单载波的空时扩频扩展到多载波,进行空间、时间 和频率的联合编码,这种编码在相同符号率下比空时扩频具有更大的分集度和更高的编码增益,用线性 合并最大似然检测法检测和仿真结果都显示这种空时频扩频比空时扩频具有更好的性能。
3) time-frequency distribution
时-频分布
1.
Preliminary analysis of time-frequency distribution of transient evoked otoacoustic emission in normal hearing human subjects;
正常人耳瞬态诱发耳声发射的时-频分布初步分析
2.
Thus, the standard time-frequency distribution images of all fault conditions including the gap abrasion in-formation of the main bearing can be defined.
通过该方法,可以得到含有内燃机主轴承间隙磨损状态的时频信息,定义出各个标准故障状态的时-频分布图,建立了基于图像匹配技术的内燃机主轴承磨损故障诊断模型。
4) Instantaneous dominant frequency
瞬时主频
5) Instantaneous frequency
瞬时频率
1.
Diagnosis method of instantaneous frequency for rotor impact-rub fault of aeroengine;
航空发动机转子碰摩故障瞬时频率诊断方法
2.
Ultrasonic signal process method based on instantaneous frequency;
基于瞬时频率的超声信号数字处理方法
3.
Study of analysis of instantaneous frequency in partial wave method;
论局域波法中瞬时频率分析
6) time and frequency analysis
时频分析
1.
The study of time and frequency analysis,feature extraction,source locating and denoising of the original signal is described in detail.
在综合描述复合材料声发射信号特征和小波变换基本原理的基础上,本文总结了小波变换在声发射信号分析中的研究进展,并重点描述小波变换对复合材料破坏过程中声发射信号的特征提取、时频分析和信号除噪及声源定位方面的研究,提出了小波变换在声发射信号分析应用中需要进一步解决的问题。
补充资料:频率计量(见时间频率计量)
频率计量(见时间频率计量)
frequency metrology: see time and frequency metrology
口n IQ liliang顷率频率计皿(f比quency metrolo盯) 计t。见时闰
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