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traditionalsp
- 语音信号的频域处理,语音虽然是一个时变、非平稳的随机过程。但在短时间内可近似看作是平稳的。因此如果能从带噪语音的短时谱中估计出“纯净”语音的短时谱,即可达到语音增强的目的。由于噪声也是随机过程,因此这种估计只能建立在统计模型基础上。利用人耳感知对语音频谱分量的相位不敏感的特性,这类语音增强算法主要针对短时谱的幅度估计。 -voice signals in the frequency domain processing, voice
tfarma10
- 用于模拟时变非平稳的ARMA过程,根据Doppler频移和时变参数计算ARMA过程的系数,可以用来模拟非平稳的多径衰落信道-used to simulate nonstationary time-varying ARMA process, according to Doppler frequency shift and the time-varying parameters ARMA process coefficient, can b
hybridSIREKF
- To estimate the input-output mapping with inputs x % and outputs y generated by the following nonlinear, % nonstationary state space model: % x(t+1) = 0.5x(t) + [25x(t)]/[(1+x(t))^(2)] % + 8cos(1.2t) + process
A Nonlinear Adaptive Filter for Online Signal
- This paper presents various applications of a nonlinear adaptive notch filter which operates based on the concept of an enhanced phase-locked loop (PLL). Applications of the filter for online signal analysis for power
traditionalsp
- 语音信号的频域处理,语音虽然是一个时变、非平稳的随机过程。但在短时间内可近似看作是平稳的。因此如果能从带噪语音的短时谱中估计出“纯净”语音的短时谱,即可达到语音增强的目的。由于噪声也是随机过程,因此这种估计只能建立在统计模型基础上。利用人耳感知对语音频谱分量的相位不敏感的特性,这类语音增强算法主要针对短时谱的幅度估计。 -voice signals in the frequency domain processing, voice
tfarma10
- 用于模拟时变非平稳的ARMA过程,根据Doppler频移和时变参数计算ARMA过程的系数,可以用来模拟非平稳的多径衰落信道-used to simulate nonstationary time-varying ARMA process, according to Doppler frequency shift and the time-varying parameters ARMA process coefficient, can b
hybridSIREKF
- To estimate the input-output mapping with inputs x % and outputs y generated by the following nonlinear, % nonstationary state space model: % x(t+1) = 0.5x(t) + [25x(t)]/[(1+x(t))^(2)] % + 8cos(1.2t) + process
NonstationaryChannelEstimation
- Nonstationary Channel Estimation using a Kalman Tracking Filter 卡尔曼滤波算法的一个一个用,可用作 efk学习之用-Nonstationary Channel Estimation using a Kalman Tracking Filter Kalman filter algorithm one by one, and can be used as a learn
HHT
- 台湾国立中央大学开发的EMD-HHT算法,其中,EMD-HHT的创始人为该中心的主任.-EMD-HHT IS SPECIALLY DESIGNED FOR PROCESSING NONSTATIONARY AND NONLINEAR SIGNALS. IT CAN DECOMPSE SIGNALS AND THEN RECONSTRUCT SIGNALS ACCORDING TO SOME CRITERIA. AFTER THE PRO
herbordt2003
- Herbordt, W. Nakamura, S. & llermann, W. Multichannel estimation of the power spectral density of noise for mixtures of nonstationary signals IPSJ SIG Technical Reports, 2004 ,131 ,211 - 216-Herbordt, W. Nakamura, S. &
TASL_16(6)_1112-1123
- Tracking of Nonstationary Noise Based on Data-Driven Recursive Noise Power Estimation
noisetracking
- 包含M文件,培训和跟踪落实的噪音中描述的算法: [1] J.S.厄克伦斯和R. Heusdens,“非平稳噪声跟踪基于数据驱动的递归噪声功率的估计”,IEEE期刊。音频,语音卷。 16,第6页。1112年至1123年,2008年8月。 见Descr iption.doc在zip文件。-Contains m-files to train and implement the noise tr
Noise_Tracking
- 根据” J.S. Erkelens and R. Heusdens, "Tracking of nonstationary noise based on data-driven recursive noise power estimation”所开发的源码-noisetracker based on data-driven recursive noise power estimation
TrackingofTimeVaryingChannelsUsingTwoStepLMSTypeA
- This paper presents a modified version of the twostep least-mean-square (LMS)-type adaptive algorithm motivated by the work of Gazor. We describe the nonstationary adaptation characteristics of this modified two-st
analyze-nonstationary-time-
- 分析非平稳时变的实证分解法(EMD)的基础上产生的适应性,本征模函数(IMF)的数据,处理的数据。-analyze the non-stationary time-varying data processed by the Empirical Decomposition Method (EMD), which generates the adaptive basis, Intrinsic Mode Functions (IMF), fr
jdpgj
- 噪声中非平稳信号的频谱分析,基于MATLAB,实验报告一份-Nonstationary noise frequency spectrum analysis, based on MATLAB, a lab report
fpwxh
- 噪声中非平稳信号的频谱分析,基于MATLAB,实验报告一份-Nonstationary noise frequency spectrum analysis, based on MATLAB, a lab report
linphone-analyze
- 主要介绍linphone的代码结构介绍,并且分析的相关的关键函数,附图,有助于整体了解linephone。-Introduces the structure introduced linphone code, and analysis related to key functions, drawings, to help the overall understanding of linephone.
shipingshangshiyang1
- 求信号的时频熵,对非平稳信号进行emd分解后,求时频熵,得出其故障特征-For the signal s time-frequency entropy, the nonstationary signals are EMD decomposition, and time-frequency entropy, the fault feature
nonstationary-deconvolution
- nonstationary seismic deconvolution