錯(cuò)誤的基于遺傳算法的機(jī)器人路徑規(guī)劃MATLAB源碼,求高人指點(diǎn)

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1、基于遺傳算法的機(jī)器人路徑規(guī)劃MATLAB源碼 算法的思路如下：取各障礙物頂點(diǎn)連線的中點(diǎn)為路徑點(diǎn)，相互連接各路徑點(diǎn)，將機(jī)器人移動(dòng)的起點(diǎn)和終點(diǎn)限制在各路徑點(diǎn)上，利用Dijkstra算法來(lái)求網(wǎng)絡(luò)圖的最短路徑，找到從起點(diǎn)P1到終點(diǎn)Pn的最短路徑，由于上述算法使用了連接線中點(diǎn)的條件，不是整個(gè)規(guī)劃空間的最優(yōu)路徑，然后利用遺傳算法對(duì)找到的最短路徑各個(gè)路徑點(diǎn)Pi?(i=1,2,…n)調(diào)整，讓各路徑點(diǎn)在相應(yīng)障礙物端點(diǎn)連線上滑動(dòng)，利用Pi=?Pi1+ti×(Pi2-Pi1)（ti∈[0,1]?i=1,2,…n）即可確定相應(yīng)的Pi，即為新的路徑點(diǎn)，連接此路徑點(diǎn)為最優(yōu)路徑。 function?[L1,XY

2、1,L2,XY2]=JQRLJGH(XX,YY) %%?基于Dijkstra和遺傳算法的機(jī)器人路徑規(guī)劃演示程序 %輸入?yún)?shù)在函數(shù)體內(nèi)部定義 %輸出參數(shù)為 %??L1????由Dijkstra算法得出的最短路徑長(zhǎng)度 %??XY1???由Dijkstra算法得出的最短路徑經(jīng)過(guò)節(jié)點(diǎn)的坐標(biāo) %??L2????由遺傳算法得出的最短路徑長(zhǎng)度 %??XY2???由遺傳算法得出的最短路徑經(jīng)過(guò)節(jié)點(diǎn)的坐標(biāo) %程序輸出的圖片有 %??Fig1??環(huán)境地圖（包括：邊界、障礙物、障礙物頂點(diǎn)之間的連線、Dijkstra的網(wǎng)絡(luò)圖結(jié)構(gòu)） %??Fig2??由Dijkstra算法得到的最短路徑 %??Fi

3、g3??由遺傳算法得到的最短路徑 %??Fig4??遺傳算法的收斂曲線（迄今為止找到的最優(yōu)解、種群平均適應(yīng)值） %%?畫Fig1 figure(1); PlotGraph; title('地形圖及網(wǎng)絡(luò)拓?fù)浣Y(jié)構(gòu)') PD=inf*ones(26,26); for?i=1:26 ????for?j=1:26 ????????if?D(i,j)==1 ????????????x1=XY(i,5); ????????????y1=XY(i,6); ????????????x2=XY(j,5); ????????????y2=XY(j,6); ????????????dist

4、=((x1-x2)^2+(y1-y2)^2)^0.5; ????????????PD(i,j)=dist; ????????end ????end end %%?調(diào)用最短路算法求最短路 s=1;%出發(fā)點(diǎn) t=26;%目標(biāo)點(diǎn) [L,R]=ZuiDuanLu(PD,s,t); L1=L(end); XY1=XY(R,5:6); %%?繪制由最短路算法得到的最短路徑 figure(2); PlotGraph; hold?on for?i=1:(length(R)-1) ????x1=XY1(i,1); ????y1=XY1(i,2); ????x2=XY1(i+1

5、,1); ????y2=XY1(i+1,2); ????plot([x1,x2],[y1,y2],'k'); ????hold?on end title('由Dijkstra算法得到的初始路徑') %%?使用遺傳算法進(jìn)一步尋找最短路 %第一步：變量初始化 M=50;%進(jìn)化代數(shù)設(shè)置 N=20;%種群規(guī)模設(shè)置 Pm=0.3;%變異概率設(shè)置 LC1=zeros(1,M); LC2=zeros(1,M); Yp=L1; %第二步：隨機(jī)產(chǎn)生初始種群 X1=XY(R,1); Y1=XY(R,2); X2=XY(R,3); Y2=XY(R,4); for?i=1:N

6、????farm{i}=rand(1,aaa); end %?以下是進(jìn)化迭代過(guò)程 counter=0;%設(shè)置迭代計(jì)數(shù)器 while?counter

7、,1:P0),B(:,(P0+1):end)];%產(chǎn)生子代a ????b=[B(:,1:P0),A(:,(P0+1):end)];%產(chǎn)生子代b ????newfarm{2*N-1}=a;%加入子代種群 ????newfarm{2*N}=b; ????for?i=1:(N-1) ????????A=farm{Ser(i)}; ????????B=farm{Ser(i+1)}; ????????newfarm{2*i}=b; ????end ????FARM=[farm,newfarm];%新舊種群合并???? ????%%?第四步：選擇復(fù)制 ????SER=randperm

8、(2*N); ????FITNESS=zeros(1,2*N); ????fitness=zeros(1,N); ????for?i=1:(2*N) ????????PP=FARM{i}; ????????FITNESS(i)=MinFun(PP,X1,X2,Y1,Y2);%調(diào)用目標(biāo)函數(shù) ????end ????for?i=1:N ????????f1=FITNESS(SER(2*i-1)); ????????f2=FITNESS(SER(2*i)); ????????if?f1<=f2 ????????else ????????????farm{i}=FARM{SER

9、(2*i)}; ????????????fitness(i)=FITNESS(SER(2*i)); ????????end ????end???? ????%記錄最佳個(gè)體和收斂曲線 ????minfitness=min(fitness); ????meanfitness=mean(fitness); ????if?minfitness

10、???????PPP=[0.5,Xp,0.5]'; ????????PPPP=1-PPP; ????????X=PPP.*X1+PPPP.*X2; ????????Y=PPP.*Y1+PPPP.*Y2; ????????XY2=[X,Y]; ????????figure(3) ????????PlotGraph; ????????hold?on ????????for?i=1:(length(R)-1) ????????????x1=XY2(i,1); ????????????y1=XY2(i,2); ????????????x2=XY2(i+1,1); ???????

11、?????y2=XY2(i+1,2); ????????????plot([x1,x2],[y1,y2],'k'); ????????????hold?on ????????end ????????title('遺傳算法第10代') ????????hold?on ????????for?i=1:(length(R)-1) ????????????x1=XY1(i,1); ????????????y1=XY1(i,2); ????????????x2=XY1(i+1,1); ????????????y2=XY1(i+1,2); ????????????plot([x1,x

12、2],[y1,y2],'k','LineWidth',1); ????????????hold?on ????????end ????end???? ????if?counter==20 ????????PPP=[0.5,Xp,0.5]'; ????????PPPP=1-PPP; ????????X=PPP.*X1+PPPP.*X2; ????????Y=PPP.*Y1+PPPP.*Y2; ????????XY2=[X,Y]; ????????figure(4) ????????PlotGraph; ????????hold?on ????????for?i=1:(l

13、ength(R)-1) ????????????x1=XY2(i,1); ????????????y2=XY2(i+1,2); ????????????plot([x1,x2],[y1,y2],'k'); ????????????hold?on ????????end ????????title('遺傳算法第20代') ????????hold?on ????????for?i=1:(length(R)-1) ????????????x1=XY1(i,1); ????????????y1=XY1(i,2); ????????????x2=XY1(i+1,1); ????

14、????????y2=XY1(i+1,2); ????????????plot([x1,x2],[y1,y2],'k','LineWidth',1); ????????????hold?on ????????end ????end ????if?counter==30 ????????PPP=[0.5,Xp,0.5]'; ????????PPPP=1-PPP; ????????X=PPP.*X1+PPPP.*X2; ????????Y=PPP.*Y1+PPPP.*Y2; ????????XY2=[X,Y]; ????????figure(5) ????????PlotG

15、raph; ????????hold?on ????????for?i=1:(length(R)-1) ????????????x1=XY2(i,1); ????????????y1=XY2(i,2); ????????????x2=XY2(i+1,1); ????????????y2=XY2(i+1,2); ????????????plot([x1,x2],[y1,y2],'k'); ????????????hold?on ????????end ????????title('遺傳算法第30代') ????????hold?on ????????for?i=1:(le

16、ngth(R)-1) ????????????x1=XY1(i,1); ????????????y2=XY1(i+1,2); ????????????plot([x1,x2],[y1,y2],'k','LineWidth',1); ????????????hold?on ????????end ????end ????if?counter==40 ????????PPP=[0.5,Xp,0.5]'; ????????PPPP=1-PPP; ????????X=PPP.*X1+PPPP.*X2; ????????Y=PPP.*Y1+PPPP.*Y2; ????????XY

17、2=[X,Y]; ????????figure(6) ????????PlotGraph; ????????hold?on ????????for?i=1:(length(R)-1) ????????????x1=XY2(i,1); ????????????y1=XY2(i,2); ????????????x2=XY2(i+1,1); ????????????y2=XY2(i+1,2); ????????????plot([x1,x2],[y1,y2],'k'); ????????????hold?on ????????end ????????title('遺傳算法第4

18、0代') ????????hold?on ????????for?i=1:(length(R)-1) ????????????x1=XY1(i,1); ????????????y1=XY1(i,2); ????????????x2=XY1(i+1,1); ????????????y2=XY1(i+1,2); ????????????plot([x1,x2],[y1,y2],'k','LineWidth',1); ????????????hold?on ????????end ????end ????if?counter==50 ????????PPP=[0.5,Xp,0

19、.5]'; ????????PPPP=1-PPP; ????????X=PPP.*X1+PPPP.*X2; ????????Y=PPP.*Y1+PPPP.*Y2; ????????XY2=[X,Y]; ????????figure(7) ????????PlotGraph; ????????hold?on ????????for?i=1:(length(R)-1) ????????????x1=XY2(i,1); ????????????y1=XY2(i,2); ????????????x2=XY2(i+1,1); ????????????y2=XY2(i+1,2);

20、 ????????????plot([x1,x2],[y1,y2],'k'); ????????????hold?on ????????end ????????title('遺傳算法第50代') ????????hold?on ????????for?i=1:(length(R)-1) ????????????x1=XY1(i,1); ????????????y1=XY1(i,2); ????????????x2=XY1(i+1,1); ????????????y2=XY1(i+1,2); ????????????plot([x1,x2],[y1,y2],'k','Line

21、Width',1); ????????????hold?on ????????end ????end???? ????LC2(counter+1)=Yp; ????LC1(counter+1)=meanfitness;???? ????%%?第五步：變異 ????for?i=1:N ????????if?Pm>rand&&pos(1)~=i ????????????AA=farm{i}; ????????????AA(POS)=rand; ????????????farm{i}=AA; ????????end ????end???? ????counter=coun

22、ter+1; ????disp(counter); end %%?輸出遺傳算法的優(yōu)化結(jié)果 PPP=[0.5,Xp,0.5]'; PPPP=1-PPP; X=PPP.*X1+PPPP.*X2; Y=PPP.*Y1+PPPP.*Y2; XY2=[X,Y]; L2=Yp; %%?繪制Fig3 figure(8) PlotGraph; hold?on hold?on for?i=1:(length(R)-1) ????x1=XY1(i,1); ????y1=XY1(i,2); ????x2=XY1(i+1,1); ????y2=XY1(i+1,2); ????p

23、lot([x1,x2],[y1,y2],'k','LineWidth',1); ????hold?on end for?i=1:(length(R)-1) ????x1=XY2(i,1); ????y1=XY2(i,2); ????x2=XY2(i+1,1); ????y2=XY2(i+1,2); ????plot([x1,x2],[y1,y2],'k'); ????hold?on end title('遺傳算法最終結(jié)果') figure(9) PlotGraph; hold?on for?i=1:(length(R)-1) ????x1=XY1(i,1);

24、????y1=XY1(i,2); ????x2=XY1(i+1,1); ????y2=XY1(i+1,2); ????plot([x1,x2],[y1,y2],'k','LineWidth',1); ????hold?on end hold?on for?i=1:(length(R)-1) ????x1=XY2(i,1); ????y1=XY2(i,2); ????x2=XY2(i+1,1); ????y2=XY2(i+1,2); ????plot([x1,x2],[y1,y2],'k','LineWidth',2); ????hold?on end title('遺傳算法優(yōu)化前后結(jié)果比較') %%?繪制Fig4 figure(10); plot(LC1); hold?on plot(LC2); xlabel('迭代次數(shù)'); title('收斂曲線');