# How to differentiate between a double peak and a single peak array in MATLAB?

How to differentiate between a double peak and a single peak array?

Also if the array represents a double peak, how to find the minimum point between two peaks? The minimum points outside of the peaks (left of left peak and right of right peak) should not be considered in finding the minimum point.

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## migrated from dsp.stackexchange.comApr 24 '12 at 18:35

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@Nzbuu: This has to do with signal processing. Not everything signal is an image. –  Jonas Jan 6 '12 at 19:01

I found PEAKDET function to be quite reliable and fast although it's loop based. It does not require pre-smoothing of noisy data, but finds local max and min extrema with difference larger than parameter `delta`.

Since PEAKDET runs from left to right it sometime misses peaks on the right site. To avoid it I prefer to run it twice:

``````%# some data
n = 100;
x = linspace(0,3*pi,n);
y = sin(x) + rand(1,n)/5;

%# run peakdet twice left-to-right and right-to-left
delta = 0.5;
[ymaxtab, ymintab] = peakdet(y, delta, x);
[ymaxtab2, ymintab2] = peakdet(y(end:-1:1), delta, x(end:-1:1));
ymaxtab = unique([ymaxtab; ymaxtab2],'rows');
ymintab = unique([ymintab; ymintab2],'rows');

%# plot the curve and show extreme points based on number of peaks
plot(x,y)
hold on
if size(ymaxtab,1) == 2 && size(ymintab,1) == 1 %# if double peak
plot(ymintab(:,1),ymintab(:,2),'r.','markersize',30)
elseif size(ymaxtab,1) == 1 && size(ymintab,1) == 0 %# if single peak
plot(ymaxtab(:,1),ymaxtab(:,2),'r.','markersize',30)
else %# if more (or less)
plot(ymintab(:,1),ymintab(:,2),'r.','markersize',30)
plot(ymaxtab(:,1),ymaxtab(:,2),'r.','markersize',30)
end
hold off
``````

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Thank you, the PEAKDET is a good approach. One disadvantage - it start searches from convex extremum. –  23W Mar 26 '13 at 9:34

Here is one algorithm that might work depending on how noisy your signal is. Here I define a peak as the set of connected points greater than a given threshold value.

Assuming your original data is in the array A. First, find a threshold:

``````t = (max(A)+min(A))/2;
``````

Next, find all the points greater than this threshold t:

``````P = A>t;
``````

Count number of connected entries points that are greater than t using bwlabel

``````L = bwlabel(P);
numberOfPeaks = max(L);
``````

Now numberOfPeaks should tell you how many peaks (connected points greater than the threshold value) you have in your data

Now to find the minimum point between the two peak we need to identify those points that seperate the two peaks using the label matrix L.

``````firstPoint = find(L==1,1,'last')+1;
lastPoint  = find(L==2,1,'first')-1;
``````

So the valley between the first two peaks is the points with index between firsPoint and lastPoint. The minimum would then be

``````minValue = min(A(firstPoint:lastPoint));
``````

Solution that does not depend on the Image Processing Toolbox

As @Nzbuu notes the aboth relies on the image processing toolbox function bwlabel. So, here is away to avoid that. First, I Assume that the the array P correctly identifies points belonging to peak (P(i)=1) and those belonging to valleys (P(i)=-1). If this is the case the boundary between peaks and valleys can be identified when `dP = P(i+1)-P(i) = 1` or `-1`.

``````dP = diff(P);
``````

To calculate the number of peaks simply sum the number of 1's in `dP`:

``````numberOfPeaks = sum(dP==1);
``````

And the points identifying the first valley are between

``````firstPoint = find(dP==-1,1,'first')+1 %# the -1 represents the last point of the peak so add 1
lastPoint = find(dP==1,2,'first'); #% Find the start of the second peak
lastPoint = lastPoint(end); #% Keep the last value
``````
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I think a solution that doesn't use the image processing toolbox will be more useful. –  Nzbuu Jan 6 '12 at 0:17
@Nzbuu I agreed and added a second method. –  Azim Jan 6 '12 at 17:27

You can find the local min/max as follows:

``````x = 0:.1:4*pi;
y = sin(x);

plot(x,y)

diffy = diff(y);
localMin = find(diffy(1:end-1)<=0 & diffy(2:end) > 0)+1;
localMax = find(diffy(1:end-1)>=0 & diffy(2:end) < 0)+1;

hold on
plot(x(localMin),y(localMin),'dg')
plot(x(localMax),y(localMax),'*r')
``````

Resulting in:

Basically you are finding where the delta between the y values change signs. If your data is noisy this will cause lots of local min/max values and you may need to filter your data.

To find the minimum value between two peaks you can do something like this:

``````if numel(localMax) == 1
fprintf('The max value is: %f',y(localMax));
elseif numel(localMax > 1)
betweenPeaksIndex = localMin(localMin > localMax(1) & localMin <localMax(2));
fprintf('The min between the first 2 peaks is: %f',y(betweenPeaksIndex));
else
fprintf('The was no local Max ..???');
end
``````
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In general, I'd go for something like this, but you may need to smooth your data before you use it if you want to avoid noise affecting the result. –  Nzbuu Jan 6 '12 at 0:16
@Nzbuu Agree, that is why I have the caveat regarding noise. The solution will be dependent on the characteristics of your data set. I.e if it is noisy you will most likely have to apply a filter first and the signal/noise characteristics will determine what kind of filter is necessary. –  Aero Engy Jan 6 '12 at 0:43
@Aero Engy, I guess I missed that :/ Still, serves to highlight the point. –  Nzbuu Jan 6 '12 at 22:53