📄 leachvsdeec.m
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S2(i).E=S2(i).E- ( ETX*(4000) + Emp*4000*( min_dis * min_dis * min_dis * min_dis));
end
if (min_dis<=do)
S2(i).E=S2(i).E- ( ETX*(4000) + Efs*4000*( min_dis * min_dis));
end
packets_TO_BS2=packets_TO_BS2+1;
end
end
end
if countCHs2~=0
u2=(n-y2)/countCHs2;
for c=1:1:cluster2-1
z2=(x2(c)-u2)*(x2(c)-u2)+z2;
end
LBF2(r+1)=z2/countCHs2;
else LBF2(r+1)=0;
end
STATISTICS.PACKETS_TO_CH2(r+1)=packets_TO_CH2;
STATISTICS.PACKETS_TO_BS2(r+1)=packets_TO_BS2;
end
d1=0.765*xm/2;
K=sqrt(0.5*n*do/pi)*xm/d1^2;
d2=xm/sqrt(2*pi*K);
Er=4000*(2*n*ETX+n*EDA+K*Emp*d1^4+n*Efs*d2^2);
S3(n+1).xd=sink.x;
S3(n+1).yd=sink.y;
S4(n+1).xd=sink.x;
S4(n+1).yd=sink.y;
%3.网络运行模块
%簇头节点数
countCHs3=0;
cluster3=1;%此定义的目的仅仅是给定一个1开始的下标参数,真正的簇头数应该还减去1
flag_first_dead3=0;
flag_teenth_dead3=0;
flag_all_dead3=0;
%死亡节点数
dead3=0;
first_dead3=0;
teenth_dead3=0;
all_dead3=0;
%活动节点数
allive3=n;
%counter for bit transmitted to Bases Station and to Cluster Heads
packets_TO_BS3=0;
packets_TO_CH3=0;
%(1)循环模式设定
for r=0:1:rmax %该 for 循环将下面的所有程序包括在内,直到最后一 end 才结束循环
r
%每过一个轮转周期(本程序为10次)使各节点的S(i).G参数(该参数用于后面的簇选举,在该轮转周期内已当选过簇头的节点不能再当选)恢复为零
if(mod(r, round(1/P) )==0)
for i=1:1:n
S3(i).G=0;
S3(i).cl=0;
end
end
Ea=Et*(1-r/rmax)/n;
%(2)死亡节点检查模块
dead3=0;
for i=1:1:n
%检查有无死亡节点
if (S3(i).E<=0)
dead3=dead3+1;
%(3)第一个死亡节点的产生时间(用轮次表示)
%第一个节点死亡时间
if (dead3==1)
if(flag_first_dead3==0)
first_dead3=r;
flag_first_dead3=1;
end
end
%10%的节点死亡时间
if(dead3==0.1*n)
if(flag_teenth_dead3==0)
teenth_dead3=r;
flag_teenth_dead3=1;
end
end
if(dead3==n)
if(flag_all_dead3==0)
all_dead3=r;
flag_all_dead3=1;
end
end
end
if S3(i).E>0
S3(i).type='N';
end
end
STATISTICS.DEAD3(r+1)=dead3;
STATISTICS.ALLIVE3(r+1)=allive3-dead3;
%(4)簇头选举模块
countCHs3=0;
cluster3=1;
for i=1:1:n
if Ea>0
p(i)=P*n*S3(i).E*E3(i)/(Et*Ea);
if(S3(i).E>0)
temp_rand=rand;
if ( (S3(i).G)<=0)
%簇头的选举,当选的簇头会把各种相关信存入下面程序所给定的变量中
if(temp_rand<= (p(i)/(1-p(i)*mod(r,round(1/p(i))))))
countCHs3=countCHs3+1;
packets_TO_BS3=packets_TO_BS3+1;
PACKETS_TO_BS3(r+1)=packets_TO_BS3;
S3(i).type='C';
S3(i).G=round(1/p(i))-1;
C3(cluster3).xd=S3(i).xd;
C3(cluster3).yd=S3(i).yd;
distance=sqrt( (S3(i).xd-(S3(n+1).xd) )^2 + (S3(i).yd-(S3(n+1).yd) )^2 );
C3(cluster3).distance=distance;
C3(cluster3).id=i;
X3(cluster3)=S3(i).xd;
Y3(cluster3)=S3(i).yd;
cluster3=cluster3+1;
%计算簇头发送4000bit数据到基站的能量消耗(这里应是所有节点包括簇头每一轮发送4000bit数据)
distance;
if (distance>do)
S3(i).E=S3(i).E- ( (ETX+EDA)*(4000) + Emp*4000*( distance*distance*distance*distance ));
end
if (distance<=do)
S3(i).E=S3(i).E- ( (ETX+EDA)*(4000) + Efs*4000*( distance * distance ));
end
end
end
% S3(i).G=S3(i).G-1;
end
end
end
STATISTICS.COUNTCHS3(r+1)=countCHs3;
%(5)簇内成员选择簇头模块(即簇的形成模块)
%簇内成员对簇头的选择(即簇的形成)算法
for c=1:1:cluster3-1
x3(c)=0;
end
y3=0;
z3=0;
for i=1:1:n
if ( S3(i).type=='N' && S3(i).E>0 )
if(cluster3-1>=1)
min_dis=Inf;
min_dis_cluster=0;
for c=1:1:cluster3-1
temp=min(min_dis,sqrt( (S3(i).xd-C3(c).xd)^2 + (S3(i).yd-C3(c).yd)^2 ) );
if ( temp<min_dis )
min_dis=temp;
min_dis_cluster=c;
x3(c)=x3(c)+1;
end
end
%簇内节点(发送4000bit数据)能量消耗
min_dis;
if (min_dis>do)
S3(i).E=S3(i).E- ( ETX*(4000) + Emp*4000*( min_dis * min_dis * min_dis * min_dis));
end
if (min_dis<=do)
S3(i).E=S3(i).E- ( ETX*(4000) + Efs*4000*( min_dis * min_dis));
end
%簇头(接受和融合这一簇内节点4000bit数据)的能量消耗
S3(C3(min_dis_cluster).id).E = S3(C3(min_dis_cluster).id).E- ( (ERX + EDA)*4000 );
packets_TO_CH3=packets_TO_CH3+1;
S3(i).min_dis=min_dis;
S3(i).min_dis_cluster=min_dis_cluster;
else
y3=y3+1;
min_dis=sqrt( (S3(i).xd-S3(n+1).xd)^2 + (S3(i).yd-S3(n+1).yd)^2 );
if (min_dis>do)
S3(i).E=S3(i).E- ( ETX*(4000) + Emp*4000*( min_dis * min_dis * min_dis * min_dis));
end
if (min_dis<=do)
S3(i).E=S3(i).E- ( ETX*(4000) + Efs*4000*( min_dis * min_dis));
end
packets_TO_BS3=packets_TO_BS3+1;
end
end
end
if countCHs3~=0
u3=(n-y3)/countCHs3;
for c=1:1:cluster3-1
z3=(x3(c)-u3)*(x3(c)-u3)+z3;
end
LBF3(r+1)=z3/countCHs3;
else LBF3(r+1)=0;
end
STATISTICS.PACKETS_TO_CH3(r+1)=packets_TO_CH3;
STATISTICS.PACKETS_TO_BS3(r+1)=packets_TO_BS3;
end
countCHs4=0;
cluster=1;%此定义的目的仅仅是给定一个1开始的下标参数,真正的簇头数应该还减去1
flag_first_dead4=0;
flag_teenth_dead4=0;
flag_all_dead4=0;
%死亡节点数
dead4=0;
first_dead4=0;
teenth_dead4=0;
all_dead4=0;
%活动节点数
allive4=n;
%counter for bit transmitted to Bases Station and to Cluster Heads
packets_TO_BS4=0;
packets_TO_CH4=0;
%(1)循环模式设定
for r=0:1:rmax %该 for 循环将下面的所有程序包括在内,直到最后一 end 才结束循环
r
%每过一个轮转周期(本程序为10次)使各节点的S(i).G参数(该参数用于后面的簇选举,在该轮转周期内已当选过簇头的节点不能再当选)恢复为零
if(mod(r, round(1/P) )==0)
for i=1:1:n
S4(i).G=0;
S4(i).cl=0;
end
end
Ea=Et*(1-r/rmax)/n;
%(2)死亡节点检查模块
dead4=0;
for i=1:1:n
%检查有无死亡节点
if (S4(i).E<=0)
dead4=dead4+1;
%(3)第一个死亡节点的产生时间(用轮次表示)
%第一个节点死亡时间
if (dead4==1)
if(flag_first_dead4==0)
first_dead4=r;
flag_first_dead4=1;
end
end
%10%的节点死亡时间
if(dead4==0.1*n)
if(flag_teenth_dead4==0)
teenth_dead4=r;
flag_teenth_dead4=1;
end
end
if(dead4==n)
if(flag_all_dead4==0)
all_dead4=r;
flag_all_dead4=1;
end
end
end
if S4(i).E>0
S4(i).type='N';
end
end
STATISTICS.DEAD4(r+1)=dead4;
STATISTICS.ALLIVE4(r+1)=allive4-dead4;
%(4)簇头选举模块
countCHs4=0;
cluster4=1;
for i=1:1:n
if Ea>0
p(i)=P*n*S4(i).E*E4(i)/(Et*Ea);
if(S4(i).E>0)
temp_rand=rand;
if ( (S4(i).G)<=0)
%簇头的选举,当选的簇头会把各种相关信存入下面程序所给定的变量中
if(temp_rand<= (p(i)/(1-p(i)*mod(r,round(1/p(i))))))
countCHs4=countCHs4+1;
packets_TO_BS4=packets_TO_BS4+1;
PACKETS_TO_BS4(r+1)=packets_TO_BS4;
S4(i).type='C';
S4(i).G=round(1/p(i))-1;
C4(cluster4).xd=S4(i).xd;
C4(cluster4).yd=S4(i).yd;
distance=sqrt( (S4(i).xd-(S4(n+1).xd) )^2 + (S4(i).yd-(S4(n+1).yd) )^2 );
C4(cluster4).distance=distance;
C4(cluster4).id=i;
X4(cluster4)=S4(i).xd;
Y4(cluster4)=S4(i).yd;
cluster4=cluster4+1;
%计算簇头发送4000bit数据到基站的能量消耗(这里应是所有节点包括簇头每一轮发送4000bit数据)
distance;
if (distance>do)
S4(i).E=S4(i).E- ( (ETX+EDA)*(4000) + Emp*4000*( distance*distance*distance*distance ));
end
if (distance<=do)
S4(i).E=S4(i).E- ( (ETX+EDA)*(4000) + Efs*4000*( distance * distance ));
end
end
end
% S4(i).G=S4(i).G-1;
end
end
end
STATISTICS.COUNTCHS4(r+1)=countCHs4;
%(5)簇内成员选择簇头模块(即簇的形成模块)
%簇内成员对簇头的选择(即簇的形成)算法
for c=1:1:cluster4-1
x4(c)=0;
end
y4=0;
z4=0;
for i=1:1:n
if ( S4(i).type=='N' && S4(i).E>0 )
if(cluster4-1>=1)
min_dis=sqrt( (S4(i).xd-S4(n+1).xd)^2 + (S4(i).yd-S4(n+1).yd)^2 );
min_dis_cluster=0;
for c=1:1:cluster4-1
temp=min(min_dis,sqrt( (S4(i).xd-C4(c).xd)^2 + (S4(i).yd-C4(c).yd)^2 ) );
if ( temp<min_dis )
min_dis=temp;
min_dis_cluster=c;
x4(c)=x4(c)+1;
end
end
%簇内节点(发送4000bit数据)能量消耗
if(min_dis_cluster~=0)
min_dis;
if (min_dis>do)
S4(i).E=S4(i).E- ( ETX*(4000) + Emp*4000*( min_dis * min_dis * min_dis * min_dis));
end
if (min_dis<=do)
S4(i).E=S4(i).E- ( ETX*(4000) + Efs*4000*( min_dis * min_dis));
end
%簇头(接受和融合这一簇内节点4000bit数据)的能量消耗
S4(C4(min_dis_cluster).id).E = S4(C4(min_dis_cluster).id).E- ( (ERX + EDA)*4000 );
packets_TO_CH4=packets_TO_CH4+1;
else
min_dis;
if (min_dis>do)
S4(i).E=S4(i).E- ( ETX*(4000) + Emp*4000*( min_dis * min_dis * min_dis * min_dis));
end
if (min_dis<=do)
S4(i).E=S4(i).E- ( ETX*(4000) + Efs*4000*( min_dis * min_dis));
end
packets_TO_BS4=packets_TO_BS4+1;
end
S4(i).min_dis=min_dis;
S4(i).min_dis_cluster=min_dis_cluster;
else
y4=y4+1;
min_dis=sqrt( (S4(i).xd-S4(n+1).xd)^2 + (S4(i).yd-S4(n+1).yd)^2 );
if (min_dis>do)
S4(i).E=S4(i).E- ( ETX*(4000) + Emp*4000*( min_dis * min_dis * min_dis * min_dis));
end
if (min_dis<=do)
S4(i).E=S4(i).E- ( ETX*(4000) + Efs*4000*( min_dis * min_dis));
end
packets_TO_BS4=packets_TO_BS4+1;
end
end
end
if countCHs4~=0
u4=(n-y4)/countCHs4;
for c=1:1:cluster4-1
z4=(x4(c)-u4)*(x4(c)-u4)+z4;
end
LBF4(r+1)=z4/countCHs4;
else LBF4(r+1)=0;
end
STATISTICS.PACKETS_TO_CH4(r+1)=packets_TO_CH4;
STATISTICS.PACKETS_TO_BS4(r+1)=packets_TO_BS4;
end
r=0:5000;
subplot(2,1,1);
plot(r,STATISTICS.DEAD1,':k',r,STATISTICS.DEAD2,'-r',r,STATISTICS.DEAD3,'--b',r,STATISTICS.DEAD4,'-.m');
legend('leachm1','leachm2','DEEC1','DEEC2');
xlabel('x(time)');
ylabel('y(dead)');
title('\bf leach(1,2)和DEEC(1,2)的生命周期对比');
subplot(2,1,2);
plot(r,STATISTICS.PACKETS_TO_BS1,':k',r,STATISTICS.PACKETS_TO_BS2,'-r',r,STATISTICS.PACKETS_TO_BS3,'--b',r,STATISTICS.PACKETS_TO_BS4,'-.m');
legend('leachm1','leachm2','DEEC1','DEEC2');
xlabel('x(time)');
ylabel('y(data)');
title('\bf leach(1,2)和DEEC(1,2)的数据传输对比');⌨️ 快捷键说明
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