搜索资源列表
通信MATLAB代码
- 压缩文件夹中包含二十几个MATLAB编写的仿真程序,包括GMSK信号的调制仿真,PN码生成,FIR滤波器的设计,GOLD序列的生成等等,另外还有许多经典的滤波器变换的小程序-compressed file folder containing 20 prepared by several MATLAB simulation program, including GMSK modulation signal simulation, PN code generation, FIR filter des
FIR
- 利用matlab实现的Fir滤波器设计程序。程序有较好的运行界面,滤波器各种参数均可设置。
fir
- 在matlab下用DSPbuilder实现的16阶FIR滤波器
fir
- matlab中实现有限相应滤波器FIR的程序
matlab
- 基于MATLAB的fir带通滤波器,窗函数设计(凯泽窗和布莱克曼窗)及信号带宽计算(fir bandpass filter)
FIR filter
- Implementation of FIR filter in matlab
FIR滤波器
- FIR滤波器matlab源程序,能够实现低通、高通、带通、带阻的滤波功能,滤波效果好。(FIR filter matlab source code, to achieve low-pass, high pass, band pass, with blocking filter function, filtering effect is good.)
FIR
- 提供了一个FIR滤波器的MATLAB实现程序(A MATLAB implementation program of FIR filter is provided)
IIR和FIR滤波器设计的常用方法
- 最典型的IIR滤波器和FIR滤波器设计例程,DSP的基础(The most typical IIR filter and FIR filter design methods)
FIR Filter
- DESIGNING OF FIR FILTERs USING MATLAB COMMANDS
matlab fir滤波
- 基于matlab的FIR滤波器,有低通,带通滤波器,能够较好地实现信号的分离(Matlab based FIR filter, with low pass, bandpass filter, can achieve better signal separation)
基于matlab的FIR滤波器设计及DSP实现
- FIR 滤波器设计代码,可以在DSP上实现。(The design code of FIR filter can be implemented on DSP.)
2 d fir filter design in matlab
- 2 d fir filter design in matlab
Matlab的FIR数字滤波器的设计与仿真
- Matlab的FIR数字滤波器的设计与仿真(Design and Simulation of FIR digital filter for Matlab)
matlab fir
- matlab fir数字滤波器,z,s映射(Matlab's FIR digital filter and its z, s domain mapping)
FIR数字滤波器的设计与实现
- FIR滤波器的相关知识以及生成所需要用到的matlab函数,具体生成例程。(FIR filter related knowledge and generate the matlab function needed to generate specific routines.)
FIR,IIR滤波器对语音信号的滤波处理matlab仿真
- 本资源实现的是构建一个FIR滤波器对一段语音信号进行处理,IIR滤波器的构建分别采用了冲激响应不变法和双线性变换法,内部含有相关论文,方便理解
数字滤波器
- FIR低通数字滤波器的设计,利用matlab编程语言利用FIR1函数设计低通滤波器。(Design of FIR Low Pass Digital Filter)
FIR1
- 对标Matlab中fir1函数的C语言实现(C language implementation of fir1 function in benchmarking matlab)
matlab
- GUI和FIR滤波器和IIR滤波器的高通、低通、带通滤波器的设计,以及频率响应(GUI and FIR filter and IIR filter high pass, low pass, band-pass filter design, as well as frequency response)