搜索资源列表
GA
- 遗传算法应用程序使用说明: 1.安装MATLAB5.X; 2.建立目录:(c:\GeneticProgram),并将这里提供的所有源程序拷入该目录; 3.运行(c:\GeneticProgram)中的 startup; 4.在MATLAB Command Window内直接运行程序 FloatExample和BinaryExample。 FloatExample和BinaryExample分别采用浮点编码和二
sin-signal-generate
- 正弦信号发生器的应用及单边FFT处理,对如何应用正弦发生器有个全面认识-Sine signal generator applications and unilateral FFT processing
heredity
- 用遗传算法实现函数f(x)=x*sin(10pi*x)+2.0,x[-1,2]的最大值-Genetic algorithm is used to realize the function f ( x ) = x* sin (10pi* x )+ 2, x [- 1,2] maximum value
sincos
- 用verilog实现sin和cos的计算-verilog sin cos
ISE_lab17_sinsignal
- 正弦信号发生器,excd-1竞赛开发学习板上实现 逻辑比较清晰-sin signal generator
chazhi
- matlab实现信号波形插值运算,其中给出了包含sin函数和sinc函数的插值源代码-matlab signal waveform interpolation, which gives the source code contains the sin function and the sinc function interpolation
ScienceCalculator
- MFC框架下实现的科学计算其,加载动态链接库dll,每个动态库是一个算法,可实现算法拓展。例如,原来计算器只能实现加减乘除,加入sin的动态库,又可计算sin的值。-Science Calculator
sin-generate
- 生成所需要的正弦波、方波、三角波、锯齿波-Generate a sine wave, square wave, triangle wave, sawtooth wave
619
- C THE INVERSE LAPLACE TRANSFORM OF 1/(P**2+1) IS COMPUTED C FOR T=0.1,1,2,3,4,5,10,20,30,40,50,60,70,80,90 AND 100 C (THESE VALUES ARE STORED IN THE ARRAY TVAL). C THE REQUESTED TOLERANCES ARE EPSAB=EPSRE=1.0D-4, 1
Lab3
- enhanced pwm sin wave
Matlab-so-called-brann
- 用以训练 BP 网络,使其能够拟合某一附加有白噪声的正弦样本数据-train bp network, to fit a noisy-free sin sample data
simulink
- 数字信号的处理,正弦函数与余弦函数的结合-digital signal prozessing sin cos function
sin_cos
- 用CORDIC算法实现非线性函数sin,cos的求值,即只用加减法和右移位操作来求sin,cos-compute sin and cos by CORDIC arithmetic
lab10
- 正弦信号发生器DSP源码,已在CCS环境验证-SIN signal generator DSP source code
calculator
- 用C++制作简单的计算器,能实现普通四则运算、括号运算符,暂不支持sin等函数-With VC++ to create a simple calculator to achieve the common four operations, parentheses operator, they will not support a function of sin, etc.
DDS-SIN
- 用verilog语言实现DDS的正弦波发送-DDS sine wave sent verilog language
sin
- 该模块产生以64个时钟为一个周期的正弦波。-The module is a 64 clock cycle of the sine wave.
sin
- 名称:定时器0 内容:利用定时器产生不同频率方波 -Name: Timer 0: use the timer to a different frequency square wave
123
- FM without noise Fs = input( enter the value of Fs ) Sampling rate of signal Fc = input( enter the value of Fc ) Carrier frequency t = [0:Fs] /Fs Sampling times x = sin(2*pi*20*t) +2*sin(2*pi*60*t) Channel
SIN
- 一个很好的软件输入正弦波点数就可以计算出正弦表数据-Input sine wave points we can calculate the sine table data