搜索资源列表
BasedonMATLABpronunciation
- 基于MATLAB的语音信号的调制和解调,包括画出各个阶段的语音时域和频域图形-Matlab-based voice signal modulation and demodulation, including draw stages of time domain and frequency domain speech
Matlab_FFT
- Matlab FFT 实现 时域频域转换
LABEX2
- 时域信号分析,用MATLAB实现观察仿真,可以看到时域信号频域信号的区别-Laboratory Exercise 1 DISCRETE-TIME SIGNALS: TIME-DOMAIN REPRESENTATION
cheng-xu
- (1)认真复习第七章中用窗函数法和等波纹最佳逼近法设计FIR数字滤波器的原理; (2)调用信号产生函数xtg产生具有加性噪声的信号xt,并自动显示xt及其频谱,如图10.5.1所示; 图10.5.1 具有加性噪声的信号x(t)及其频谱如图 (3)请设计低通滤波器,从高频噪声中提取xt中的单频调幅信号,要求信号幅频失真小于0.1dB,将噪声频谱衰减60dB。先观察xt的频谱,确定滤波器指标参数。 (4)根据滤波器指标选择合适的窗函数,计算窗函数的长度N,调用MATLAB函
dsp
- 在matlab中直接运行程序,将会显示包含谐波的时域、频域图,设计一个滤波器,滤除谐波,得到滤除谐波后的图形。-Run the program directly in matlab will display a harmonic of the time domain, frequency domain, to design a filter, harmonic filter, harmonic filter obtained after the graphics.
record
- 录音程序,在matlab下运行。能录1-6秒的音频并对其进行时域和频域的分析。能保存文件-Recording procedures, run under matlab. 1-6 seconds of audio can be recorded and its time domain and frequency domain analysis. To save the file
Microsoft-Word-)
- 利用Matlab产生一个2FSK信号,显示出时域以及频域的波形-2FSK using Matlab to generate a signal, showing that the time domain and frequency domain waveforms
xianhao
- 北航信号与测试技术实验 基本信号的时域频域分析 FFT变换 自相关互相关变换 matlab源码 以及实验结果图-Northern Testing experimental data signal and the signal in time domain frequency domain analysis FFT, autocorrelation and cross-correlation transform matlab source results map
Harmonic-extraction
- 我学习信号系统时原创的用matlab实现的谐波提取 ,两种方案,先分频再提基波,或者利用带通滤波器-I study the signal system to achieve an original harmonic extraction using matlab, the two programs, the first frequency and then Ti Jibo, or the use of band-pass filter
Experimental-Software-Signal-System
- 信号系统实验软件,matlab编写,实现时域和频域,离散和连续的各种处理-Signal system experimental software, matlab writing, to achieve time-domain and frequency domain, a variety of discrete and continuous processing
The-simulation-of-OFDM-systems
- 正交频分复用(OFDM) 是第四代移动通信的核心技术。该文首先简要介绍了OFDM基本原理,重点研究了理想同步情 况下,保护时隙(CP) 和不同的信道估计方法在高斯信道和多径瑞利衰落信道下对OFDM系统性能的影响。在给出OFDM系 统模型的基础上,用MATLAB语言实现了整个系统的计算机仿真并给出参考设计程序。最后给出在不同的信道条件下,保 护时隙、信道估计方法对OFDM系统误码率影响的比较曲线,得出了较理想的结论。-Orthogonal frequency division mult
LAB01
- matlab实现,验证奈奎斯特采样定理,对信号求傅里叶变换的数值解,数值求解,画出时域图,频域图-matlab implementation, verification Nyquist sampling theorem, Fourier transform of the signal find the numerical solution, numerical solution, draw the graph in time domain, frequency domain graph
05
- 利用MATLAB编写控制系统的频域分析以及频率特性及其与时域响应的关系-Preparation of control systems using MATLAB in frequency domain analysis and frequency domain response characteristics and the relationship with the
188
- 线阵波束形成MATLAB语音程序编辑, 频域自适应,时域自适应-Voice line array beamforming MATLAB program editing, adaptive frequency domain, time domain adaptive
weina
- 这个是基于matlab的维纳滤波设计,其中包括两个列子,一个是在时域实现滤波器,一个是在频域实现滤波器,两个列子都是对chirp信号进行处理的-there are two examples for weina filer desined in matlab ,one is achieved in frequency domain and another is achieved in time domain.the two weina filers are desined to remove no
Untitled
- 基于MATLAB的小波分析应用:运用小波的时域、频域特征对摩托车发动机故障诊断和齿轮点蚀故障诊断-Wavelet analysis of MATLAB-based applications: the use of wavelets in time domain, frequency domain characteristics of motorcycles engine fault diagnosis and fault diagnosis of gear pitting
shizizhong
- 利用QuartusII7.0、MATLAB以及SmartSOPC实验系统进行多功能数字钟的设计是本次试验的主要内容。该数字中需包含的功能主要有:分频、校时校分、清零、动态显示、整点报时、闹钟闹铃、秒表以及24小时制和12小时制的转换等。-QuartusII7.0, MATLAB, and SmartSOPC experimental system for the design of multi-function digital clock is the main content of the t
daopu
- 能够实现声音信号的时域、频域、相位、功率谱分析-this matlab codes can realize the function analysis of time domain, frequency domain,phase ,powerspectrum ect for a noise signal
CSD_Detect_Eval1
- Matlab编写的循环谱计算程序,并对谱参数进行检测和估计,如载频估计,时宽估计,幅度估计等-Matlab computer program written in cyclic spectrum, and spectral parameters for detection and estimation, such as carrier frequency is estimated at wide estimated range estimation
sound
- 包含了使用matlab对声音信号进行时域和频域分析,加高斯噪声,并用高通、低通、带通滤波器进行滤波,并显示波形图。-Contains the sound signal using matlab time domain and frequency domain analysis, plus Gaussian noise, and high-pass, low pass, band pass filter to filter and display waveforms.