Sum of plots in for loop

15 Giu 2020
2 Risposte
Aggiornato 31 Lug 2020
7 Visualizzazioni (30 giorni)

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Hi there,
I generated the attached plots in a for loop.
What I want eventually is to sum these plots to generate the black curve.
How can I go on about that?
Thank you for your help in advance,
Arthur

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KSSV
KSSV il 15 Giu 2020
Modificato: KSSV il 15 Giu 2020
Share your code....Add all curves...is it what you want?
Arthur Moya
Arthur Moya il 15 Giu 2020
Hi @KSSV,
Please see the code below.
%% %Partial Temporal Coherence curve
WL = 0.0195 % Ang^-1
DeltaS = 36 % Ang
g = [0:0.01:3] % Ang^-1
Etr = exp(-0.5*pi^2*DeltaS*WL^2.*g.^4);
plot (g,Etr);
%% %Contrast Transfer Function
D= [150:12.5:200] %Ang
for i=1:length(D)
Cs = -12960 % Ang
Xr = 0.5*pi.*D(i)*WL.*g.^2 + 0.25*pi*Cs*WL^3.*g.^4;
Wv= sin(Xr).*Etr;
hold on
plot (g,Wv)
xlabel('g(Ang^{-1})','Fontsize',20)
ylabel('sin X', 'Fontsize',20)
legend ('E_{t}','20','40','60','80','Location','best','Fontsize',30)
line(xlim, [0,0], 'Color', 'k', 'LineWidth', 1)
end

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Risposte (2)

Rob Robinson
Rob Robinson il 15 Giu 2020

0 voti

I don't think the black curve is the sum of all of these curves as the amplitude would be significantly higher than any of the one lines when they are so close to being in phase? I've given an example below for just two curves of how you could calculate the sum of the curves or alternatively the average or maximum. Hopefully one of those is what you are looking for.
c = 0:0.25:0.25;
x = linspace(1,10,100);
figure()
hold on
ySum = zeros(length(c),length(x));
for cVal = 1:length(c)
legendName = sprintf('y=sin(x+%.2f)',c(cVal));
y = sin(x+c(cVal)) ;
ySum(cVal,:) = y;
plot(x,y,'DisplayName',legendName);
end
plot(x,mean(ySum),'DisplayName' ,'Average')
plot(x,sum(ySum),'DisplayName' ,'Sum')
plot(x,max(ySum),'DisplayName' ,'Max')
legend('location','best')

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Arthur Moya
Arthur Moya il 15 Giu 2020
Hi Rob,
I suspect the curve that most resembles what I am looking for is the max curve. I have seen below some suggestions that I may be looking for the envelope. What would be the difference between the max curve and the envelope?
Thank you and kind regards,
Arthur

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Ameer Hamza
Ameer Hamza il 15 Giu 2020

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This seems like envelope(): https://www.mathworks.com/help/releases/R2020a/signal/ref/envelope.html of these curves. It is from the signal processing toolbox.

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madhan ravi
madhan ravi il 15 Giu 2020
xD was thinking the same !
Arthur Moya
Arthur Moya il 15 Giu 2020
Hi @Ameer Hamza and @madhan ravi,
I have looked at the envelope page. I may be doing something wrong, but it doesn't give me what I am actually looking for.
See attached image.
Ameer Hamza
Ameer Hamza il 15 Giu 2020
Can you share the data?
Arthur Moya
Arthur Moya il 31 Lug 2020
Dear @ Ameer Hamza,
below is the code I used to generate the data.
Thank you and kind regards,
Arthur
%% %Partial Temporal Coherence curve
WL = 0.0195 % Ang^-1
DeltaS = 36 % Ang
g = [0:0.01:3] % Ang^-1
Etr = exp(-0.5*pi^2*DeltaS*WL^2.*g.^4);
plot (g,Etr);
%% %Contrast Transfer Function
D= [150:12.5:200] %Ang
for i=1:length(D)
Cs = -12960 % Ang
Xr = 0.5*pi.*D(i)*WL.*g.^2 + 0.25*pi*Cs*WL^3.*g.^4;
Wv= sin(Xr).*Etr;
hold on
plot (g,Wv)
xlabel('g(Ang^{-1})','Fontsize',20)
ylabel('sin X', 'Fontsize',20)
legend ('E_{t}','20','40','60','80','Location','best','Fontsize',30)
line(xlim, [0,0], 'Color', 'k', 'LineWidth', 1)
end

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Richiesto:

Arthur Moya
Arthur Moya
il 15 Giu 2020

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Arthur Moya
Arthur Moya
il 31 Lug 2020

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