how does cdfplot works?
4 views (last 30 days)
Show older comments
arian hoseini
on 10 Dec 2022
Commented: the cyclist
on 10 Dec 2022
can someone tell me how cdfplot works....? i know the matlab help about this function but i dont understand it...the answer in my code is upside down but it should be like this picture...
clc;
clear;
C=[250;200;150;150;100];
q=[0.15;0.15;0.1;0.1;0];
y=[660;660;770;880];
f=[10;15;20;25;30;50];
Aeq=ones(1,6);
LB=zeros(6,1);
prob=[0.25;0.25;0.25;0.25];
%% Monte Carlo
iteration=3000;% Number of iterations
deterministic_index=zeros(iteration,1);
margin=zeros(iteration,1);
for t=1:iteration
%generation program
for i=1:length(C)
if rand<=q(i)
outage_capacity(i)=C(i);
UB1(i)=0;
else
UB1(i)=C(i);
outage_capacity(i)=0;
end
end
%% Load random samples
sum_prob(1)=prob(1);
for i=2:length(prob)
sum_prob(i)=sum_prob(i-1)+prob(i);
end
flag=find(rand<=sum_prob);
load=y(min(flag));
%% Margin random variable
margin(t) = sum(C) - sum(outage_capacity) - load;
if margin(t)<0
deterministic_index(t)=1;
end
beq=load;
UB=[UB1,beq] ;
[X,faval,exitflag]=linprog(f,[],[],Aeq,beq,LB,UB);
X1(:,t)=X;
end
C1 = X1(1,:);
C2 = X1(2,:);
C3 = X1(3,:);
C4 = X1(4,:);
C5 = X1(5,:);
Plsh = X1(6,:);
% Plsh=Plsh(end:-1:1);
ExpectationC1 = mean(C1);
ExpectationC2 = mean(C2);
ExpectationC3 = mean(C3);
ExpectationC4 = mean(C4);
ExpectationC5 = mean(C5);
ExpectationPlsh = mean(Plsh);
standard_deviationC1 = std(C1);
standard_deviationC2 = std(C2);
standard_deviationC3 = std(C3);
standard_deviationC4 = std(C4);
standard_deviationC5 = std(C5);
standard_deviationPlsh = std(Plsh);
LOLP = mean(deterministic_index);
LOLE = 8760*LOLP;
EENS = mean(mean(margin .* deterministic_index));
disp(['LOLP=',num2str(LOLP)]);
disp(['LOLE=',num2str(LOLE)]);
disp(['EENS=',num2str(EENS)]);
disp(['ExpectationC1=',num2str(ExpectationC1)]);
disp(['ExpectationC2=',num2str(ExpectationC2)]);
disp(['ExpectationC3=',num2str(ExpectationC3)]);
disp(['ExpectationC4=',num2str(ExpectationC4)]);
disp(['ExpectationC5=',num2str(ExpectationC5)]);
disp(['ExpectationPlsh=',num2str(ExpectationPlsh)]);
disp(['standard_deviationC1=',num2str(standard_deviationC1)]);
disp(['standard_deviationC2=',num2str(standard_deviationC2)]);
disp(['standard_deviationC3=',num2str(standard_deviationC3)]);
disp(['standard_deviationC4=',num2str(standard_deviationC4)]);
disp(['standard_deviationC5=',num2str(standard_deviationC5)]);
disp(['standard_deviationPlsh=',num2str(standard_deviationPlsh)]);
disp(['Exitflag=',num2str(exitflag)]);
%% Probability Density Function
figure(1);
subplot(3,2,1); hist(C1); title('Probability Density Function(Unit1)');
subplot(3,2,2); hist(C2); title('Probability Density Function(Unit2)');
subplot(3,2,3); hist(C3); title('Probability Density Function(Unit3)');
subplot(3,2,4); hist(C4); title('Probability Density Function(Unit4)');
subplot(3,2,5); hist(C5); title('Probability Density Function(Unit5)');
figure(2);
hist(Plsh); title('Probability Density Function(Plsh)');
%%Cumulative distribution function
figure(3);
subplot(5,1,1); cdfplot(C1); title('Cumulative distribution function(Unit1)');
subplot(5,1,2); cdfplot(C2); title('Cumulative distribution function(Unit2)');
subplot(5,1,3); cdfplot(C3); title('Cumulative distribution function(Unit3)');
subplot(5,1,4); cdfplot(C4); title('Cumulative distribution function(Unit4)');
subplot(5,1,5); cdfplot(C5); title('Cumulative distribution function(Unit5)');
figure(4);
cdfplot(Plsh);
7 Comments
Torsten
on 10 Dec 2022
Edited: Torsten
on 10 Dec 2022
As you see from my answer, you get access to the x and y plot data by
h = cdfplot(x)
x = h.XData
y = h.YData
Now you can rearrange the data according to your needs.
I mention this because I'm still not sure whether the suggested rearrangement is correct in your case. You will have to check it carefully.
Accepted Answer
the cyclist
on 10 Dec 2022
What you are plotting is known as a "survival" curve, and I think it is possible that you want to use the ecdf function instead of cdfplot. That function allows you to specify that you are using a survival function.
More Answers (0)
See Also
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!