搜索资源列表
enframe
- 对连续语音信号进行分帧的matlab程序-of continuous speech signal-frame Matlab procedures
enframe
- 对语音信号进行加窗分帧的matlab程序,且可实现对任意一帧进行独立加窗。-can be used to split a signal up into frames. It can optionally apply a window to each frame.
enframe_envolape
- 基于matlab语音分析的分帧函数,可以实现对语音信号清音 浊音的分帧分析-Matlab speech analysis based on the sub-frame function, can realize the voiceless voiced speech signal analysis of the sub-frame
window-framing-matlab-program
- 语音信号处理预加重加窗分帧matlab程序-Speech signal processing pre-emphasis window framing matlab program
frame
- 语音信号处理,分帧,matlab源程序。 语音信号处理,分帧,matlab源程序。-Speech signal processing, sub-frame, matlab source. Speech signal processing, sub-frame, matlab source.
study1
- 在matlab环境下实现语音信号的预处理,包括分帧,加窗,滤波,并进行端点检测,绘图。-Voice signal preprocessing in the Matlab environment, including the frame, windowing, filtering, and endpoint detection, drawing.
dtw
- 用matlab实现特定人的单个词识别,采用dtw算法,主要用到了语音端点检测、语音分帧、梅尔倒谱系数等,文件中含有0-9个输入模版语音,作为参考模版信号。-Using matlab to achieve a specific person single word recognition, using dtw algorithm, mainly used in the voice activity detection, voice sub-frame, Mel Cepstral, etc., do
kikok
- 语音信号的分帧加窗的matlab实现及语音信号处理预加重、加窗分帧matlab程序-Sub-frame window of the speech signal and speech signal processing matlab to achieve pre-emphasis, adding windows framing matlab program
MATLAB-speech-programming-process
- 常用matlab语音编程流程(语音信号的分帧加窗的matlab实现),学习语音信号处理的人必须要知道这些基本的编程方法。-Common Voice matlab programming process (sub-frame windowed speech signal matlab implementation), learning of speech signal processing must be aware of these basic programming methods.
daopu
- 浊音倒谱图的matlab实现,包括语音信号的分帧、加窗,取一帧进行分析。-Dullness inverted spectrum realize the matlab,ncluding sub-frame of the speech signal, windowing, take a frame for analysis
voicebox
- 基于matlab采集语音信号;实现语音预加重、过零检测、分帧等预处理;实现可视化界面设计,完成语音预处理过程显示;-Matlab based speech signal acquisition, voice pre emphasis, zero detection, sub frame, etc. preprocessing visual interface design, complete voice preprocessing process display
sse
- 利用matlab实现对语音信号的单边带调制(SSE)算法,包括语音信号的分帧、滤波、处理等。-Matlab implementation of the speech signal with a single side band modulation (SSE) algorithm, including speech signal sub frame, filtering, processing, etc..
m_vgixuf
- 用MATLAB编写的语音信号的短时分析,主要包括:分帧、短时能量、短时平均幅度、短时过零率、temp函数、短时幅度差、倒谱、复倒谱temp1系数计等,是我多年调试通过的程序 -MATLAB prepared with short-term analysis of the speech signal, including: framing, short-time energy, short-term average amplitude, short-term zero rate, temp f
m_x4695j
- 用MATLAB编写的语音信号的短时分析,主要包括:分帧、短时能量、短时平均幅度、短时过零率、 Swjqlf函数、短时幅度差、倒谱、复倒谱 mSfcKbB系数计等,是我多年调试通过的程序 -MATLAB prepared with short-term analysis of the speech signal, including: framing, short-time energy, short-term average amplitude, short-term zero rate,S
m_xs6wyo
- 用MATLAB编写的语音信号的短时分析,主要包括:分帧、短时能量、短时平均幅度、短时过零率、 KPuiyk函数、短时幅度差、倒谱、复倒谱 rbUgYfE系数计等,是我多年调试通过的程序 -MATLAB prepared with short-term analysis of the speech signal, including: framing, short-time energy, short-term average amplitude, short-term zero rate,K
m_yr57ye
- 用MATLAB编写的语音信号的短时分析,主要包括:分帧、短时能量、短时平均幅度、短时过零率、 olpjad函数、短时幅度差、倒谱、复倒谱 OkrzXPY系数计等,是我多年调试通过的程序 -MATLAB prepared with short-term analysis of the speech signal, including: framing, short-time energy, short-term average amplitude, short-term zero rate,o
m_zl0rd0
- 用MATLAB编写的语音信号的短时分析,主要包括:分帧、短时能量、短时平均幅度、短时过零率、 sbdFHh函数、短时幅度差、倒谱、复倒谱 aPdzNNR系数计等,是我多年调试通过的程序 -MATLAB prepared with short-term analysis of the speech signal, including: framing, short-time energy, short-term average amplitude, short-term zero rate,s
m_zrh3dk
- 用MATLAB编写的语音信号的短时分析,主要包括:分帧、短时能量、短时平均幅度、短时过零率、 pVeUKP函数、短时幅度差、倒谱、复倒谱 GVMSLQX系数计等,是我多年调试通过的程序 -MATLAB prepared with short-term analysis of the speech signal, including: framing, short-time energy, short-term average amplitude, short-term zero rate,p
voicebox
- 包含了多种语音信号分析与合成中需要用到的基本函数,分帧,加窗等等。用matlab语言实现。(Contains a variety of voice signal analysis and synthesis need to use the basic functions, sub-frame, window and so on. Using matlab language to achieve.)
vad
- 可对一段信号进行分帧加窗,利用过零率和短时能量检测语音端点(It can divide the frame into a window and use the zero crossing rate and short time energy to detect speech endpoints.)