%%%基于改进蚁群算法的图像分割
%%%%%%%%%%%初始部分,读取图像及计算相关信息%%%%%%%%%%%%%%%%%
clear;
clc;
x=imread(‘F:\photo图片\Photo\220.jpg’); %读取图像
imshow(x),title(‘原图’);
x=rgb2gray(x);
figure;imhist(x),title(‘灰度直方图’); %显示图像灰度直方图
alpha=1; %表征信息素重要程度的参数
beta=1; %表征启发式因子重要程度的参数
maxant=numel(x); %最大蚂蚁数目
r=10; %聚类半径
rho=0.9; %挥发系数
ranta=0.9; %隶属度
c=105; %食物源中心(初始聚类中心)
new_m=0; %类集合中所有像素灰度值总和
new_n=0; %类集合中所有像素个数
x=double(x);
%%%%%%%%%%%%%计算蚂蚁i到食物源c的距离%%%%%%%%%%%%%%%%%%%%%%%%%
for i=1:maxant
distance(i)=sqrt((x(i)-c)^2);
end
%%%%%%%%%%%%%%更新类集合中所有像素与食物源的距离%%%%%%%%%%%%%%%%%%
j=1;
for i=1:maxant
if distance(i)<=r;
distance3(j)=distance(i);
j=j+1;
end
end
%%%%%%%%%%%%计算蚂蚁i在路径上放置的信息浓度%%%%%%%%%%%%%%%%%%%%%%
for i=1:maxant
if distance(i)<=r;
ph(i)=1;
else
ph(i)=0;
end
end
%%%%%%%%%%%%%%计算各个像素的灰度值与聚类中心的相似度%%%%%%%%%%%%%%%%%
for i=1:maxant
if distance(i)==0;
similar(i)=1;
else
similar(i)=r/sqrt((x(i)-c)^2);
end
end
%%%%%%%%%%%%%%计算更新类中所有像素的信息素浓度的调整%%%%%%%%%%%%%%%%%
for i=1:maxant
if distance(i)<=r;
new_n=new_n+1;
newph(new_n)=ph(i)*(1-rho^new_n)/(1-rho);
newph1(new_n)=1;
end
end
%%%%%%%%%%%%%%%%计算更新蚂蚁i的相似度的调整%%%%%%%%%%%%%%%%%%%%
for i=1:maxant
if distance(i)<=r;
similar1(i)=similar(i);
end
end
similar2=similar1(find(similar1));
%%%%%%%%%%计算更新类集合中所有像素的信息浓度与相似度的调整%%%%%%%%%%%%%%
allsum=newph1.*similar2;
for n=2:new_n
allsum(n)=allsum(n-1)+allsum(n);
end
for n=1:new_n
newallsum(n)=allsum(n)/n;
end
%%%%%%%%%%%%%%%%%%计算概率%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
for n=1:new_n
if distance3(n)==0;
newp(n)=1;
else
newp(n)=((newph1(n)^alpha)*(similar2(n)^beta))/newallsum(n);
end
end
%%%%%%%%%%%%%%%计算类间所有像素的灰度值的平均值%%%%%%%%%%%%%%%%%%%
for i=1:maxant
if distance(i)<=r;
new_m(i)=x(i);
end
end
new_m1=new_m(find(new_m));
new_m2=0;
new_n2=0;
for n=1:new_n
if newp(n)>ranta;
new_m2=new_m2+new_m1(n);
new_n2=new_n2+1;
end
end
T=new_m2/new_n2;
new_m3=0;
for n=1:new_n
new_m3=new_m3+new_m1(n);
T1=new_m3/new_n;
end
%%%%%%%%%%%%%%%%利用改进蚁群算法进行图像分割%%%%%%%%%%%%%%%%%%%
x=uint8(x);
x1=im2bw(x,T/255);
x1=double(x1);
for j=2:maxant
distance1(j)=sqrt((x1(j)-x1(j-1))^2);
end
for j=1:maxant
if distance1(j)==1;
x1(j)=1;
else
x1(j)=0;
end
end
x1=logical(x1);
figure;imshow(x1),title(‘改进蚁群算法’);
%%%%%%%%%%%%%%%%%利用传统蚁群算法进行图像分割%%%%%%%%%%%%%%%%%%%%
x2=im2bw(x,T1/255);
x2=double(x2);
for j=2:maxant
distance2(j)=sqrt((x2(j)-x2(j-1))^2);
end
for j=1:maxant
if distance2(j)==1;
x2(j)=1;
else
x2(j)=0;
end
end
x2=logical(x2);
figure;imshow(x2),title(‘基本蚁群算法’);
%%%%%%%%%%%%%%%%%利用其他算法进行图像分割%%%%%%%%%%%%%%%%%%%%%
bw1=edge(x,’roberts’);
figure;imshow(bw1),title(‘roberts算子’);
bw2=edge(x,’sobel’);
figure;imshow(bw2),title(‘sobel算子’);
bw3=edge(x,’prewitt’);
figure;imshow(bw3),title(‘prewitt算子’);