How can I Position 100 nodes in WSNs which are distributed uniformly at random in a grid of size 400x400 combining the two codes below?
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%Initial Energy
Eo=0.5;
%Eelec=Etx=Erx
ETX=50*0.000000001;
ERX=50*0.000000001;
%Transmit Amplifier types
Efs=10*0.000000000001;
Emp=0.0013*0.000000000001;
%Data Aggregation Energy
EDA=5*0.000000001;
%Values for Hetereogeneity
%Percentage of nodes than are advanced
m=0.1;
%\alpha
a=1;
%variables for finding max distance between cluster nodes
max_d1=0;max_d2=0;max_d3=0;max_d4=0;max_d5=0;max_d6=0;max_d7=0;max_d8=0;max_d9=0;
%%%%%%%%%%%%%%%%%%%%%%%%% END OF PARAMETERS %%%%%%%%%%%%%%%%%%%%%%%%
%Computation of do
do=sqrt(Efs/Emp);
%Creation of the random Sensor Network
figure(1);
for i=1:1:9
area(i)=0;
end
for i=1:1:n
%Getting random initial position of all the nodes
S(i).xd=rand(1,1)*xm;
XR(i)=S(i).xd;
S(i).yd=rand(1,1)*ym;
YR(i)=S(i).yd;
S(i).name=i;
X=S();
[C_id]= cluster_id(X,i);
S(i).id=C_id;
%Find the number of nodes in each of 9 areas
% area(i) defines the number of nodes in all 9 areas
if (C_id==1)
area(1)=area(1)+1;
elseif (C_id==2)
area(2)=area(2)+1;
elseif (C_id==3)
area(3)=area(3)+1;
elseif (C_id==4)
area(4)=area(4)+1;
elseif (C_id==5)
area(5)=area(5)+1;
elseif (C_id==6)
area(6)=area(6)+1;
elseif (C_id==7)
area(7)=area(7)+1;
elseif (C_id==8)
area(8)=area(8)+1;
elseif (C_id==9)
area(9)=area(9)+1;
end
S(i).E=Eo;
S(i).ENERGY=0;
% Plotting all the nodes
if (S(i).id==1)
plot(S(i).xd,S(i).yd,'r o');
hold on;
elseif (S(i).id==2)
plot(S(i).xd,S(i).yd,'g o');
hold on;
elseif (S(i).id==3)
plot(S(i).xd,S(i).yd,'m o');
hold on;
elseif (S(i).id==4)
plot(S(i).xd,S(i).yd,'g o');
hold on;
elseif (S(i).id==5)
plot(S(i).xd,S(i).yd,'m o');
hold on;
elseif (S(i).id==6)
plot(S(i).xd,S(i).yd,'r o');
hold on;
elseif (S(i).id==7)
plot(S(i).xd,S(i).yd,'m o');
hold on;
elseif (S(i).id==8)
plot(S(i).xd,S(i).yd,'r o');
hold on;
elseif (S(i).id==9)
plot(S(i).xd,S(i).yd,'g o');
hold on;
end
end
figure(1);
disp('%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%');
disp('%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%');
% area(i) defines the number of nodes in all 9 areas
disp('nodes in each area');
for i=1:1:9
disp(area(i));
end
disp('%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%');
disp('%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%');
%total number of nodes
disp('total nodes in all area');
area_all=0;
for i=1:1:9
area_all=area_all+area(i);
end
disp(area_all);
%Plotting Sink
S(n+1).xd=sink.x;
S(n+1).yd=sink.y;
plot(S(n+1).xd,S(n+1).yd,'^','linewidth',3);
hold on;
%cluster on;
disp('%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%');
disp('%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%');
disp('Minimum cluster Size');
min_cluster_size=min(area);
disp(min_cluster_size);
disp('Maximum cluster Size');
max_cluster_size=max(area);
disp(max_cluster_size);
figure(1);
disp('%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%');
disp('%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%');
X=S();
[C1,C2,C3,C4,C5,C6,C7,C8,C9]=cluster_maker(X,n);
% disp('nodes for cluster1');
% disp(C1);
% disp('nodes for cluster2');
% disp(C2);
% disp(' nodes for cluster3');
% disp(C3);
% disp('nodes for cluster4');
% disp(C4);
% disp('nodes for cluster5');
% disp(C5);
% disp('nodes for cluster6');
% disp(C6);
% disp('nodes for cluster7');
% disp(C7);
% disp('nodes for cluster8');
% disp(C8);
% disp('nodes for cluster9');
% disp(C9);
disp('%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%');
disp('%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%');
dead_all=0;
dead=0;
min_round=3;
for r=1:min_round:rmax
disp('round=');
disp(r);
if(r>25)
break;
end
disp ('Nodes after Sorting');
disp('%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%');
X=S();
[M1,M2,M3,M4,M5,M6,M7,M8,M9,S,count, r_pack]=Max_Energy_Nodes(X,n);
data_time=data_time+1;
Routing_pack=Routing_pack + r_pack;
disp('sorted nodes for cluster1'); disp(M1);
for p=1:1:count(1)
disp(S(M1(p)).E);
end
% disp('sorted nodes for cluster2'); disp(M2);
% disp('sorted nodes for cluster3'); disp(M3);
% disp('sorted nodes for cluster4'); disp(M4);
% disp('sorted nodes for cluster5'); disp(M5);
% disp('sorted nodes for cluster6'); disp(M6);
% disp('sorted nodes for cluster7'); disp(M7);
% disp('sorted nodes for cluster8'); disp(M8);
% disp('sorted nodes for cluster9'); disp(M9);
figure(1);
% Selection of 50% nodes after Sorting
disp('%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%');
y1=0; y2=0; y3=0; y4=0; y5=0; y6=0; y7=0; y8=0; y9=0;
for i=1:1:9
t(i) = ceil (count(i) /2); % select the upper roundoff value for running the loops
if t(i)==0
t(i)=1;
end
end
max_round=max(t);
disp('max round');
disp (max_round);
min_round=min(t);
disp('min round');
disp (min_round);
for f1=1:1:min_round
r=r+1;
disp('round=');
disp(r);
if(r>25)
break;
disp('break');
end
%%%%%%%%%%%%%%%%%%% Routing_pack=Routing_pack+1; %%%%%%%%%%%%%
figure(1);
X=S();
if count(1)>0
active(1)=M1(f1); %making a node Active Node active(1)
disp('In Grid 1 Active Node is:');disp(active(1));
plot(S(active(1)).xd,S(active(1)).yd,'o','markerfacecolor','k');
hold on;
figure(1);
end
figure(1);
X=S();
if count(2)>0
active(2)=M2(f1); %making a node Active Node active(2)
% disp('In Grid 2 Active Node is:');disp(active(2));
plot(S(active(2)).xd,S(active(2)).yd,'o','markerfacecolor','k');
hold on;
figure(1);
end
figure(1);
X=S();
if count(3)>0
active(3)=M3(f1); %making a node Active Node active(3)
% disp('In Grid 3 Active Node is:');disp(active(3));
plot(S(active(3)).xd,S(active(3)).yd,'o','markerfacecolor','k');
hold on;
figure(1);
end
figure(1);
X=S();
if count(4)>0
active(4)=M4(f1); %making a node Active Node active(4)
% disp('In Grid 4 Active Node is:');disp(active(4));
plot(S(active(4)).xd,S(active(4)).yd,'o','markerfacecolor','k');
hold on;
figure(1);
end
figure(1);
X=S();
if count(5)>0
active(5)=M5(f1); %making a node Active Node active(5)
% disp('In Grid 5 Active Node is:');disp(active(5));
plot(S(active(5)).xd,S(active(5)).yd,'o','markerfacecolor','k');
hold on;
figure(1);
end
figure(1);
X=S();
if count(6)>0
active(6)=M6(f1); %making a node Active Node active(6)
% disp('In Grid 6 Active Node is:');disp(active(6));
plot(S(active(6)).xd,S(active(6)).yd,'o','markerfacecolor','k');
hold on;
figure(1);
end
figure(1);
X=S();
if count(7)>0
active(7)=M7(f1); %making a node Active Node active(7)
% disp('In Grid 7 Active Node is:');disp(active(7));
plot(S(active(7)).xd,S(active(7)).yd,'o','markerfacecolor','k');
hold on;
figure(1);
end
figure(1);
X=S();
if count(8)>0
active(8)=M8(f1); %making a node Active Node active(8)
% disp('In Grid 8 Active Node is:');disp(active(8));
plot(S(active(8)).xd,S(active(8)).yd,'o','markerfacecolor','k');
hold on;
figure(1);
end
figure(1);
X=S();
if count(9)>0
active(9)=M9(f1); %making a node Active Node active(9)
% disp('In Grid 9 Active Node is:');disp(active(9));
plot(S(active(9)).xd,S(active(9)).yd,'o','markerfacecolor','k');
hold on;
figure(1);
end
X=S();
for k1=1:1:9
for k2=1:1:9
sender=active(k1);
receiver=active(k2);
if ((S(sender).xd < S(receiver).xd) && (S(sender).yd < S(receiver).yd))
[d]=distance(S,sender,receiver);
if(max_d1<d)
max_d1=d;
end
disp('d is');disp(max_d1);
[bal_energy_receiver,bal_energy_sender,time,data_bytes]=data_send(sender,receiver,X,max_d1); %communication between Normal node and CH
bytes=bytes+data_bytes;
S(sender).E = bal_energy_sender;
S(receiver).E = bal_energy_receiver;
end
end
end
data_time=data_time+1;
plot(S(active(1)).xd,S(active(1)).yd,'o','markerfacecolor','white');
hold on;
plot(S(active(2)).xd,S(active(2)).yd,'o','markerfacecolor','white');
hold on;
plot(S(active(3)).xd,S(active(3)).yd,'o','markerfacecolor','white');
hold on;
plot(S(active(4)).xd,S(active(4)).yd,'o','markerfacecolor','white');
hold on;
plot(S(active(5)).xd,S(active(5)).yd,'o','markerfacecolor','white');
hold on;
plot(S(active(6)).xd,S(active(6)).yd,'o','markerfacecolor','white');
hold on;
plot(S(active(7)).xd,S(active(7)).yd,'o','markerfacecolor','white');
hold on;
plot(S(active(8)).xd,S(active(8)).yd,'o','markerfacecolor','white');
hold on;
plot(S(active(9)).xd,S(active(9)).yd,'o','markerfacecolor','white');
hold on;
%pause(2);
end
r=r+min_round;
%data_time=data_time+1;
end %loop r=1:1:rmax
disp('Balance Energy of all the nodes:');
for E2=1:1:n
disp(S(E2).E);
end
X=S();
[dead]=dead_count(X,n);
disp('dead nodes'); disp(dead); %number of dead nodes into dead nodes
total_bal_E=0;
for i=1:1:n
if(S(i).E>0)
total_bal_E = total_bal_E + S(i).E;
end
end
avg_bal_E = total_bal_E/n;
disp('Average Bal Energy');
disp(avg_bal_E);
tput=0;
tput=bytes/data_time;
disp('bytes is:');
disp(bytes);
disp('time is:');
disp(data_time);
disp('throughput is:');
disp(tput);
%
% %disp(S(n+1).xd);
% %disp(S(n+1).yd);
% %disp(S(1));
% %disp(S(2));
% %disp(S(3));
% %a=S(2).xd;
% %b=S(2).yd;
% %display_val(a,b);
r_overhead=0;
r_overhead = Routing_pack/bytes;
disp('r_overhead');
disp(r_overhead);
Code for Node Deployment
%% Aditya Pathak, adityapathak1515@gmail.com
%function sensor_network = system_model(x) %uncomment to create a function
%Simple Example of generating the nodes in MATLAB.
%Here is example to create node manually in MATLAB.
clc;
clear all;
close all;
BeconX=400;
BeconY=400;
%axis on;
%gcf;
hold on;
hbecon=plot(BeconX,BeconY,'s');
set(hbecon,'color','red','LineWidth',19);
%Basic part of code is to randomly place the sensor nodes in the given
%space then connecting each two nodes if the distance between them less than or equal to the communication radius.
% clear;
noOfNodes = 100;
%rand('state', 6);
figure(1);
clf;
hold on;
L = 400;
R = 50; % maximum range in meters;
netXloc = rand(1,noOfNodes)*L;
netYloc = rand(1,noOfNodes)*L;
for i = 1:noOfNodes
plot(netXloc(i), netYloc(i), '.');
text(netXloc(i), netYloc(i), num2str(i));
for j = 1:noOfNodes
distance = sqrt((netXloc(i) - netXloc(j))^2 + (netYloc(i) - netYloc(j))^2);
if distance <= R
matrix(i, j) = 1; % there is a link;
line([netXloc(i) netXloc(j)], [netYloc(i) netYloc(j)], 'LineStyle', '-');
nbr(i,j) = 1; %neighbour link;
% disp(nbr(i,j));
else
matrix(i, j) = inf;
end
end
end
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