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DSppart12
From the partial fraction expansion of H(z) we can find a, b
- 2009-04-11 12:08:50下载
- 积分:1
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cn_T2_4_Jing_Wu_Mathworks
Design and Implementation of
Motor Control Systems with MATLAB,
Simulink, and TI C2000™ DSPs
- 2010-11-08 13:55:31下载
- 积分:1
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chengxu
食堂用餐拥挤问题
但服务台多队列模型
系统优化(Canteen meals congestion problem, but help desk Multi-Queue Model of System Optimization)
- 2010-03-15 22:43:37下载
- 积分:1
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COOFDM
一个相干光OFDM系统范例,其中包括频偏补偿、信道估计即色散补偿、相差估计、误码率计算等等。(A coherent optical OFDM system paradigm, including frequency offset compensation, channel estimation, namely the dispersion compensation, a phase difference estimation and error rate calculation, and so on.)
- 2015-10-22 11:13:11下载
- 积分:1
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fourierAtomata
VEanlo por ustedes mismos
- 2012-03-28 22:09:16下载
- 积分:1
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bian_yuan_te_zheng_ti_qu
说明: 边缘方向直方图matlab程序,直方图为提取8个方向的的统计概率(Edge direction histogram matlab program, the histogram for the extraction of eight directions of the statistical probability)
- 2010-04-21 21:36:42下载
- 积分:1
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robway1
基于遗传算法的机器人路径规划算法matlab源代码(Genetic algorithm based path planning algorithm matlab source code)
- 2011-06-06 23:04:34下载
- 积分:1
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MATLAB_simul
系统辨识与MATLAB仿真程序与剖析夹.iso《系统辨识及其MATLAB仿真》附带的光盘(System identification and analysis with MATLAB simulation program folder. Iso " System Identification and MATLAB" supplied CD-ROM)
- 2013-09-01 00:03:28下载
- 积分:1
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zuoye
此程序实现的是对一幅图像进行卡尔曼滤波实现多天线时变信道下基于卡尔曼滤波跟踪的数字图像通信系统仿真(Realize this procedure is the image of a Kalman filter to achieve multi-antenna time-varying channel tracking based on Kalman filtering of digital image communication system simulation)
- 2007-09-01 16:58:26下载
- 积分:1
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JHSantiagoTexcoco_FletcherReeves-MatLab
Prueba1 FletcherReeves
Hernández Santiago José
Maestría en Ciencias de la Computación
Septiembre / 2011
1. Comenzar con un punto arbitrario
2. Calcular Gradiente de Fi
3. Si el Gradiente Fi es igual a 0(converge), termina
4. Si el Gradiente Fi es !=0 continuar
5. Encontrar dirección de búsqueda
Si= -GradienteFi= - Gradiente F(Xi)
6. Determinar la Longitud Optima del incremento lamda(i) en dirección Si
X(i+1)=X(i)+lamda(i)*S(i)= X(i)-lamda(i)*Gradiente F(Xi)
7. Hacer i=2
8. Obtener Gradiente Fi
9. Calcular Si= -GradFi + ( [abs(GradFi)^2]/[abs(GradF(i-1))^2] )*S(i-1)
10. Determinar la Longitud Optima del incremento lamda(i) en dirección Si
X(i+1)=X(i)+lamda(i)*S(i)= X(i)-lamda(i)*Gradiente F(Xi)
7. Verificar Optimalidad de X(i+1)
Si es optimo, detener
Si no es optimo hacer i=i+1 e ir al paso 8
- 2013-08-08 14:30:24下载
- 积分:1