How to do subplot using cwt()

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Shengjie Gao
Shengjie Gao el 7 de Mzo. de 2021
Editada: Jeremy Scholze el 29 de Jul. de 2022
Hey, I would like to plot a 3*3 subplots containing 9 figures from cwt(). However, I found it impossible to do that by simply doing
subplot(3,3,1)
cwt(data1)
subplot(3,3,2)
cwt(data2)
My guess is that we have to manually extract the cwt features and plot by ourselves under the subplot(). If yes, could anyone share a sample code for this part? If not, what should I do to draw such a subplot?
Thank you very much!
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Shengjie Gao
Shengjie Gao el 7 de Mzo. de 2021
Hey Walter,
Thank you for your quick reply. The code works but it did not show a 2 by 1 layout with each scalogram created by using cwt(). It only shows the last one, here in your case it will only deliver data2's result. I would like to show both data1 and data2's cwt result in one figure (2-by-1 layout) here. Could you tell me how to do that?
Walter Roberson
Walter Roberson el 7 de Mzo. de 2021
Ah, I see what you mean. The code specifically clears the current figure before plotting.
In some cases, the code creates two axes, but I have not figured out yet which cases that corresponds to.
The code is taking the wavelet transform information (what would normally be the first output) and abs() it, and effectively does an imagesc() of that.

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Monisha Nalluru
Monisha Nalluru el 11 de Mzo. de 2021
Hi Shengjie,
cwt() would support subplots only with complex valued input signals that will plot the analytic and anti-analytic parts into seperate subplot.
In all other case, the output of cwt can be used with surface,pcolor or image to produce similar plot
As an example
load mtlb
figure
subplot(211)
[wt1,f1] = cwt(mtlb,'bump',Fs);
pcolor(1:numel(mtlb),log2(f1),abs(wt1));
shading interp;
subplot(212)
[wt2,f2] = cwt(mtlb,Fs);
pcolor(1:numel(mtlb),log2(f2),abs(wt2));
shading interp
Example cwt supporting subplots for complex valued iput ,
load npg2006;
plot(npg2006.cx); hold on; grid on;
xlabel('Eastward Displacement (km)');
ylabel('Northward Displacement (km)');
plot(npg2006.cx(1),'^','markersize',11,'color','r',...
'markerfacecolor',[1 0 0 ]);
figure;
cwt(npg2006.cx,npg2006.dt);
Hope this helps!
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Shengjie Gao
Shengjie Gao el 11 de Mzo. de 2021
Great! That works! Thank you very much!
Shengjie Gao
Shengjie Gao el 11 de Mzo. de 2021
Hey Monisha,
Just a quick follow-up. Could you tell me how to modify both the xy-axis to the time-frequency range and also add the colorbar based on the magnitude?
Really appreciate your help!

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Más respuestas (1)

Jeremy Scholze
Jeremy Scholze el 27 de Jul. de 2022
Editada: Jeremy Scholze el 29 de Jul. de 2022
Option 1: My Solution
Use
[cfs, frq] = cwt(data,Fs);
tms = (0:numel(data)-1)/Fs;
to calculate the wavelet transform and then do
imagesc(tms,frq,abs(C)); c = colorbar; c.Label.String = 'Magnitude';
axis tight; shading flat;
xlabel('Time (s)')
ylabel('Frequency (Hz)')
set(gca,'yscale','log')
to generate the plot. Your axes will be screwed up and you won't have the frequency bounds area greyed out but it'll work.
Option 2: MATLAB's Solution (less efficient)
openExample('wavelet/PlotCWTScalogramInSubplotExample')
They address this issue. Just run this in your command window ^
Edit: My method is apparently WAY more efficient than using the surface command in MATLAB's solution. Would recommend imagesc before surface. surface crashed my computer. The axis controls in MATLAB's solution will still work with imagesc.

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