利用遗传算法解决电力系统最优潮流问题

图像处理中的量化方法以及MSE/SNR/PSNR误差计算，采用了Level=16和Level=8两种量化方式。

Norad公布的TLE两行星历的计算源码，采用SGP4和SDP4模型，亲测可用，添加了自己的代码，关键地方中文注释，能迅速的由两行星历数据计算出每个时间的卫星轨道位置，俯仰角，并可转换成大地坐标经纬度。本人找了很久，对于没有学过天体物理学测量学的，可以用这个，相当于一个黑盒子，计算精度很高,8分决定超值。

装箱问题遗传算法MATLAB求解。希望对你有用。

【实例简介】磁通观测说明： ///////////////////////////0519主要程序 flux_d=flux_d_o+T*(edss+20*reg3*cos_theta-20*flux_d_o); flux_q=flux_q_o+T*(eqss+20*reg3*sin_theta-20*flux_q_o); ///////////////磁通的大小在0.3-0.8之间 if(flux=0.8) reg3=0.8; end if(flux=1)) reg3=abs(we); if(we>=0) flux_d_comp=flux_d+flux_q; flux_q_comp=flux_q-flux_d; else flux_d_comp=flux_d-flux_q; flux_q_comp=flux_d+flux_q; end % else % reg3=1; % flux_d_comp=flux_d; % flux_q_comp=flux_q; % end %----------------------- flux_d_r=(Lr/Lm)*(flux_d_comp-(o*Ls*idss)); flux_q_r=(Lr/Lm)*(flux_q_comp-(o*Ls*iqss)); ///////////////////////////////// ////////////////////////////在磁通观测的这些已有的m文件中， 0254，0617，0623，0701采用的方法是zw论文中提及的p34-p35的方法， 其中函数之间的区别是在参数上作了调整。0518，0519方法同上。 0520采用不同方法？？

对鸢尾花数据进行分类，使用KNN算法，可直接在matlab上运行。

CanFestival移植到arm的am3359,文件中有所用到交叉编译器、编译后源码和编译手册。

基于Labview的虚拟示波器的实现这是一个已经写好的程序，下载后可直接使用

站里这方面资源不多，特别是种子区域生长方面的很少，上传一个算一个吧rightnumleftnuIm percent2()Ivaluerightnumipercent2(rvalue)pm= lvalue/‖P‖,pma= rvalue/‖P‖‖Pwindows xpMATLAB (R2008aOtsa.RlenI=ll, Rlen2=60, percent1=55%c, percent270%b. Rlenl=ll, Rlen2=80, percent1=50%, percent2=94%c.Rlen1-1l, Rlen2-100 percent1-65%. percent2-80%d. Rlen1-1l, Rlen2-=80, percent1=60%. percent2-83%2cent 1percent2Percentppercent 13C1994-2012ChinaAcademicJournalElectronicPublishingHouse.Allrightsreservedhtlp://www.cnki.net[J]2007,29(6):854-857[J]26(2):93-962010,45(7):76-80[JI.1963:1l5-12005,26(11):[J],2005,17(1):1-3Research on the improved algorithm and application ofseed region growth method and its sail image extrationYAN Shen-hai, HUANG Xian-tong, LIU Yang(School of Mathematics Computer Science, Gannan Normal University, Ganzhou 341000, Jiangxi, ChinaAbstract: Seeded region growing is a common method of image segmentation. Its performance depends largelyon the seleclion of seed points and growth rules. In order Lo extract snail images with such methods more effectively.The article analyzes the basic idea of the seeded region growing method(SRG) and presents an improved seededregion growing method (ISRG) which is used to extract the snail images. In ISRG, novel similarities rules and anew dynamic threshold method are adopted. For the complex and various habitat of snail, ISRG selects the region growing seed points manually. It is demonstrated by experimental results that ISRG can achieve better snailimage extraction results under the complicated real-world sceneKey words: seeded region growing (SRG; image extraction; dynamic threshold; snail(E D:X, JC1994-2012ChinaAcademicJournalElectronicPublishingHouse.Allrightsreservedhtlp://www.cnki.net

通信原理2DPSK课程设计实验报告,2DPSK的调制与解调

leaflet-velocity 动态风场,基于leaflet的生成流体风场代码