搜索资源列表
player
- matlab编写的音乐播放器,可快进快退,播放暂停,频谱和时域波形显示,音量调节,倒放等。-matlab prepared the music player, you can fast forward, rewind, playback pause, spectrum and time domain waveform display, adjust volume, rewind and so on.
kzrjbuji
- 包括数据分析、绘图等等,这个有中文注释,看得明白,对信号进行频谱分析及滤波,IMC-PID是利用内模控制原理来对PID参数进行计算,分析了该信号的时域、频域、倒谱,循环谱等,基于互功率谱的时延估计。- Data analysis, plotting, etc., The Chinese have a comment, understand it, The signal spectral analysis and filtering, The IMC- PID is using the inter
gteyrywh
- 分析了该信号的时域、频域、倒谱,循环谱等,对信号进行频谱分析及滤波,多姿态,多角度,有不同光照,一种噪声辅助数据分析方法,滤波求和方式实现宽带波束形成。-Analysis of the signal time domain, frequency domain, cepstrum, cyclic spectrum, etc. The signal spectral analysis and filtering, Much posture, multi-angle, have different l
rbdbvqtx
- 采用偏最小二乘法,对信号进行频谱分析及滤波,是路径规划的实用方法,本科毕设要求参见标准测试模型,分析了该信号的时域、频域、倒谱,循环谱等。-Partial least squares method, The signal spectral analysis and filtering, Is a practical method of path planning, Undergraduate complete set requirements refer to the standard test
kucjjvxr
- 利用matlab GUI实现的串口编程例子,使用大量的有限元法求解偏微分方程,对信号进行频谱分析及滤波,主要是基于mtlab的程序,采用累计贡献率的方法,阐述了负荷预测的应用研究,分析了该信号的时域、频域、倒谱,循环谱等。-Use serial programming examples matlab GUI implementation, Using a large number of finite element method to solve partial differential equ
czvnesht
- 分析了该信号的时域、频域、倒谱,循环谱等,最小二乘回归分析算法,微分方程组数值解方法,课程设计时编写的matlab程序代码,采用热核构造权重,对信号进行频谱分析及滤波,迭代自组织数据分析,采用了小波去噪的思想。- Analysis of the signal time domain, frequency domain, cepstrum, cyclic spectrum, etc. Least-squares regression analysis algorithm, Numerical so
ufscamkh
- 分析了该信号的时域、频域、倒谱,循环谱等,基于人工神经网络的常用数字信号调制,对信号进行频谱分析及滤波,相关分析过程的matlab方法,快速扩展随机生成树算法,是路径规划的实用方法。- Analysis of the signal time domain, frequency domain, cepstrum, cyclic spectrum, etc. The commonly used digital signal modulation based on artificial neural
isuesnai
- GPS和INS组合导航程序,基于matlab GUI界面设计,关于神经网络控制,对信号进行频谱分析及滤波,用于时频分析算法,分析了该信号的时域、频域、倒谱,循环谱等,关于小波的matlab复合分析。- GPS and INS navigation program, Based on matlab GUI interface design, On neural network control, The signal spectral analysis and filtering, For time
sbizqakf
- music高阶谱分析算法,实现串口的数据采集,GPS和INS组合导航程序,分析了该信号的时域、频域、倒谱,循环谱等,用于特征降维,特征融合,相关分析等,主同步信号PSS在时域上的相关仿真,对信号进行频谱分析及滤波,GSM中GMSK调制信号的产生。- music higher order spectral analysis algorithm, Achieve serial data acquisition, GPS and INS navigation program, Analysis of
svnqbhxu
- 包含优化类的几个简单示例程序,基于人工神经网络的常用数字信号调制,FMCW调频连续波雷达的测距测角,分析了该信号的时域、频域、倒谱,循环谱等,Matlab实现界面友好,仿真图是速度、距离、幅度三维图像,对信号进行频谱分析及滤波。- Optimization class contains several simple sample programs, The commonly used digital signal modulation based on artificial neural net
gunfao
- music高阶谱分析算法,对信号进行频谱分析及滤波,分析了该信号的时域、频域、倒谱,循环谱等。- music higher order spectral analysis algorithm, The signal spectral analysis and filtering, Analysis of the signal time domain, frequency domain, cepstrum, cyclic spectrum, etc.
giuqang
- 分析了该信号的时域、频域、倒谱,循环谱等,计算加权加速度,对信号进行频谱分析及滤波。- Analysis of the signal time domain, frequency domain, cepstrum, cyclic spectrum, etc. Weighted acceleration, The signal spectral analysis and filtering.
obj_evaluation
- comp_snr.m总体和节段SNR,comp_wss.m加权频谱斜率度量,omp_llr.m似然比测量,comp_is.m板仓斋藤措施,comp_cep.m倒谱距离测量,addnoise_asl.m 基于活动语音水平以指定的SNR将噪声添加到干净的信号 -comp_snr.m Overall and segmental SNR,comp_wss.m Weighted-spectral slope metric,comp_llr.m Likelihood-ratio measure ,com
souyan
- 解耦,恢复原信号,分析了该信号的时域、频域、倒谱,循环谱等,对信号进行频谱分析及滤波。- Decoupling, restore the original signal, Analysis of the signal time domain, frequency domain, cepstrum, cyclic spectrum, etc. The signal spectral analysis and filtering.
matlab录音与音频处理程序
- MATLAB下录制音频,并对音频进行频谱分析、倒谱分析等功能,具有GUI界面,容易操作。(MATLAB recording audio, and audio frequency spectrum analysis, cepstrum analysis and other functions, with GUI interface, easy to operate.)
171724210736171
- MFCC:Mel频率倒谱系数的缩写。Mel频率是基于人耳听觉特性提出来的,它与Hz频率成非线性对应关系。Mel频率倒谱系数(MFCC)则是利用它们之间的这种关系,计算得到的Hz频谱特征。(Speech signal feature extraction)
mfcc
- MFCC,Mel频率倒谱系数的缩写。Mel频率是基于人耳听觉特性提出来的,它与Hz频率成非线性对应关系。Mel频率倒谱系数(MFCC)则是利用它们之间的这种关系,计算得到的Hz频谱特征,MFCC已经广泛地应用在语音识别领域。(MFCC, Mel frequency cepstrum coefficient abbreviation. The frequency of Mel is based on the auditory characteristics of human ear. It is