GA-PID_matlab/GA/main.m

%%清空环境
clc;
clear;
close all;
%% 参数设置
ChromosomeSize = 1;                                 %染色体个数
ChromosomeLen=17;                                   %染色体长度   由最大值决定  
PopulationSize = 200;                               %种群规模
MaxIter = 200;                                      %最大迭代次数
% MinFitness=0.01;                                    %最小适应值
CrossRate=0.6;                                      %交叉概率
MutateRate=0.1;                                     %变异概率
% ObjFun=@PSO_PID;                                    %适应值函数
NoChangeNo=5;                                              
% UpLimit=30;                                              %上限


%% 初始化种群init.m
Population1=rand(PopulationSize,ChromosomeLen);    %种群,预分配内存
% Population2=rand(PopulationSize,ChromosomeLen);    %种群,预分配内存
% Population3=rand(PopulationSize,ChromosomeLen);    %种群,预分配内存
for i=1:PopulationSize
    disp(['正在初始化种群',num2str(i)]);
    for j=1:ChromosomeLen
        Population1(i,j)=round(rand);   
    end 
end
% for i=1:PopulationSize
%     disp(['正在初始化种群',num2str(i)]);
%     for j=1:ChromosomeLen
%         Population2(i,j)=round(rand);   
%     end 
% end
% for i=1:PopulationSize
%     disp(['正在初始化种群',num2str(i)]);
%     for j=1:ChromosomeLen
%         Population3(i,j)=round(rand);   
%     end 
% end
clear i;
clear j;

%% 开始循环
%Iter =1;
PopulationFitness=zeros(PopulationSize,1);       %种群适应度值，预分配内存
BestFitness=zeros(MaxIter,1);                                   %初始化每一代的最佳适应度
AveFitness=zeros(MaxIter,1);                               %初始化每一代的平均适应度
Elite1=zeros(MaxIter,1);                  %用于记录每一代的最优解
Elite2=zeros(MaxIter,1);                  %用于记录每一代的最优解
Elite3=zeros(MaxIter,1);                  %用于记录每一代的最优解
for Iter=1:MaxIter
    disp(['迭代次数：',num2str(Iter)]);         %显示迭代进度
    %% 适应值计算Fitness
    for i=1:PopulationSize
        PopulationFitness(i,1) = fitness(decode(Population1(i,:)));
%         PopulationFitness(i,1) = fitness(decode(Population1(i,:)),decode(Population2(i,:)),decode(Population3(i,:)));
    end
    %% 适应值大小排序，并保存最佳个体和最佳适应度
    FitnessSum=sum(PopulationFitness);                 %种群累加适应度
    AveFitness(Iter,1)=FitnessSum/PopulationSize;           %种群平均适应度
    [PopulationFitness,Index]=sort(PopulationFitness);         %适应值从小到大排序
    BestFitness(Iter,1) = PopulationFitness(PopulationSize,1);                %记录每一代的最佳适应度 
    Elite1(Iter,1) = decode(Population1(Index(PopulationSize),:));                    %记录本代的精英
%     Elite2(Iter,1) = decode(Population2(Index(PopulationSize),:));                    %记录本代的精英
%     Elite3(Iter,1) = decode(Population3(Index(PopulationSize),:));                    %记录本代的精英
    disp(['最佳适应度：',num2str(BestFitness(Iter,1))]);
    disp(['最佳个体：',num2str(Elite1(Iter,1)),' ',num2str(Elite2(Iter,1)),' ',num2str(Elite3(Iter,1))]);
     %% 复制适应值最大的不变的染色体
     PopulationNew1=zeros(PopulationSize,ChromosomeLen);                %初始化新的种群
%      PopulationNew2=zeros(PopulationSize,ChromosomeLen);                %初始化新的种群
%      PopulationNew3=zeros(PopulationSize,ChromosomeLen);                %初始化新的种群
    for i=1:NoChangeNo
        PopulationNew1(i,:)=Population1(Index(PopulationSize-i+1),:);
%         PopulationNew2(i,:)=Population2(Index(PopulationSize-i+1),:);
%         PopulationNew3(i,:)=Population3(Index(PopulationSize-i+1),:);
    end   
    %% 轮盘赌法   选择selection     
    for i=(NoChangeNo+1):2:PopulationSize
        [idx1,idx2] = selection(PopulationSize,FitnessSum,PopulationFitness,Index);        
    %%  父母交叉形成子代
        Rate=rand;
        if Rate<=CrossRate
            acr_position = floor(ChromosomeLen*rand+1);   %交叉节点
            [PopulationNew1(i,:),PopulationNew1(i+1,:)]=crossover(acr_position,Population1(idx1,:),Population1(idx2,:));
%           [PopulationNew2(i,:),PopulationNew2(i+1,:)]=crossover(acr_position,Population2(idx1,:),Population2(idx2,:));
%           [PopulationNew3(i,:),PopulationNew3(i+1,:)]=crossover(acr_position,Population3(idx1,:),Population3(idx2,:));
        end
    end
    %%  变异
    for i=(NoChangeNo+1):PopulationSize 
        PopulationNew1(i,:)=mutation(ChromosomeLen,MutateRate,PopulationNew1(i,:));
%         PopulationNew2(i,:)=mutation(ChromosomeLen,MutateRate,PopulationNew2(i,:));
%         PopulationNew3(i,:)=mutation(ChromosomeLen,MutateRate,PopulationNew3(i,:));
    end
    parfor i=1:PopulationSize
        Population1(i,:)=PopulationNew1(i,:);
%         Population2(i,:)=PopulationNew2(i,:);
%         Population3(i,:)=PopulationNew3(i,:);
    end
    
%     K_p(1,Iter)=Elite1(Iter,1);
%     K_i(1,Iter)=Elite2(Iter,1);
%     K_d(1,Iter)=Elite3(Iter,1);
end

% figure(1)
% plot(BestFitness,'LineWidth',2);
% 
% figure(2)
% plot(K_p)
% hold on
% plot(K_i,'k','LineWidth',3)
% plot(K_d,'--r')
Create main.m 6 years ago			`%%清空环境`
			`clc;`
			`clear;`
			`close all;`
			`%% 参数设置`
			`ChromosomeSize = 1; %染色体个数`
			`ChromosomeLen=17; %染色体长度由最大值决定`
			`PopulationSize = 200; %种群规模`
			`MaxIter = 200; %最大迭代次数`
			`% MinFitness=0.01; %最小适应值`
			`CrossRate=0.6; %交叉概率`
			`MutateRate=0.1; %变异概率`
			`% ObjFun=@PSO_PID; %适应值函数`
			`NoChangeNo=5;`
			`% UpLimit=30; %上限`



			`%% 初始化种群init.m`
			`Population1=rand(PopulationSize,ChromosomeLen); %种群,预分配内存`
			`% Population2=rand(PopulationSize,ChromosomeLen); %种群,预分配内存`
			`% Population3=rand(PopulationSize,ChromosomeLen); %种群,预分配内存`
			`for i=1:PopulationSize`
			`disp(['正在初始化种群',num2str(i)]);`
			`for j=1:ChromosomeLen`
			`Population1(i,j)=round(rand);`
			`end`
			`end`
			`% for i=1:PopulationSize`
			`% disp(['正在初始化种群',num2str(i)]);`
			`% for j=1:ChromosomeLen`
			`% Population2(i,j)=round(rand);`
			`% end`
			`% end`
			`% for i=1:PopulationSize`
			`% disp(['正在初始化种群',num2str(i)]);`
			`% for j=1:ChromosomeLen`
			`% Population3(i,j)=round(rand);`
			`% end`
			`% end`
			`clear i;`
			`clear j;`

			`%% 开始循环`
			`%Iter =1;`
			`PopulationFitness=zeros(PopulationSize,1); %种群适应度值，预分配内存`
			`BestFitness=zeros(MaxIter,1); %初始化每一代的最佳适应度`
			`AveFitness=zeros(MaxIter,1); %初始化每一代的平均适应度`
			`Elite1=zeros(MaxIter,1); %用于记录每一代的最优解`
			`Elite2=zeros(MaxIter,1); %用于记录每一代的最优解`
			`Elite3=zeros(MaxIter,1); %用于记录每一代的最优解`
			`for Iter=1:MaxIter`
			`disp(['迭代次数：',num2str(Iter)]); %显示迭代进度`
			`%% 适应值计算Fitness`
			`for i=1:PopulationSize`
			`PopulationFitness(i,1) = fitness(decode(Population1(i,:)));`
			`% PopulationFitness(i,1) = fitness(decode(Population1(i,:)),decode(Population2(i,:)),decode(Population3(i,:)));`
			`end`
			`%% 适应值大小排序，并保存最佳个体和最佳适应度`
			`FitnessSum=sum(PopulationFitness); %种群累加适应度`
			`AveFitness(Iter,1)=FitnessSum/PopulationSize; %种群平均适应度`
			`[PopulationFitness,Index]=sort(PopulationFitness); %适应值从小到大排序`
			`BestFitness(Iter,1) = PopulationFitness(PopulationSize,1); %记录每一代的最佳适应度`
			`Elite1(Iter,1) = decode(Population1(Index(PopulationSize),:)); %记录本代的精英`
			`% Elite2(Iter,1) = decode(Population2(Index(PopulationSize),:)); %记录本代的精英`
			`% Elite3(Iter,1) = decode(Population3(Index(PopulationSize),:)); %记录本代的精英`
			`disp(['最佳适应度：',num2str(BestFitness(Iter,1))]);`
			`disp(['最佳个体：',num2str(Elite1(Iter,1)),' ',num2str(Elite2(Iter,1)),' ',num2str(Elite3(Iter,1))]);`
			`%% 复制适应值最大的不变的染色体`
			`PopulationNew1=zeros(PopulationSize,ChromosomeLen); %初始化新的种群`
			`% PopulationNew2=zeros(PopulationSize,ChromosomeLen); %初始化新的种群`
			`% PopulationNew3=zeros(PopulationSize,ChromosomeLen); %初始化新的种群`
			`for i=1:NoChangeNo`
			`PopulationNew1(i,:)=Population1(Index(PopulationSize-i+1),:);`
			`% PopulationNew2(i,:)=Population2(Index(PopulationSize-i+1),:);`
			`% PopulationNew3(i,:)=Population3(Index(PopulationSize-i+1),:);`
			`end`
			`%% 轮盘赌法选择selection`
			`for i=(NoChangeNo+1):2:PopulationSize`
			`[idx1,idx2] = selection(PopulationSize,FitnessSum,PopulationFitness,Index);`
			`%% 父母交叉形成子代`
			`Rate=rand;`
			`if Rate<=CrossRate`
			`acr_position = floor(ChromosomeLen*rand+1); %交叉节点`
			`[PopulationNew1(i,:),PopulationNew1(i+1,:)]=crossover(acr_position,Population1(idx1,:),Population1(idx2,:));`
			`% [PopulationNew2(i,:),PopulationNew2(i+1,:)]=crossover(acr_position,Population2(idx1,:),Population2(idx2,:));`
			`% [PopulationNew3(i,:),PopulationNew3(i+1,:)]=crossover(acr_position,Population3(idx1,:),Population3(idx2,:));`
			`end`
			`end`
			`%% 变异`
			`for i=(NoChangeNo+1):PopulationSize`
			`PopulationNew1(i,:)=mutation(ChromosomeLen,MutateRate,PopulationNew1(i,:));`
			`% PopulationNew2(i,:)=mutation(ChromosomeLen,MutateRate,PopulationNew2(i,:));`
			`% PopulationNew3(i,:)=mutation(ChromosomeLen,MutateRate,PopulationNew3(i,:));`
			`end`
			`parfor i=1:PopulationSize`
			`Population1(i,:)=PopulationNew1(i,:);`
			`% Population2(i,:)=PopulationNew2(i,:);`
			`% Population3(i,:)=PopulationNew3(i,:);`
			`end`

			`% K_p(1,Iter)=Elite1(Iter,1);`
			`% K_i(1,Iter)=Elite2(Iter,1);`
			`% K_d(1,Iter)=Elite3(Iter,1);`
			`end`

			`% figure(1)`
			`% plot(BestFitness,'LineWidth',2);`
			`%`
			`% figure(2)`
			`% plot(K_p)`
			`% hold on`
			`% plot(K_i,'k','LineWidth',3)`
			`% plot(K_d,'--r')`