Finding local minimums/maximums for a set of data

21 Jul. 2012
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Aktualisiert 11 Mai 2023
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Hi, I have a set of data which oscillates between minimums and maximum values. The min and max values change slightly over time. I want to see the trend of changing of min and max values over time. In order to do that, it seems that I need to extract the local min and local maximums.
Is there any function to extract the local minimums and maximums of the following graph?
Thanks.

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Martin Elenkov
Martin Elenkov am 10 Mär. 2016
Is this Electrical Impedance Tomography(EIT) data? I have the same problem, where I have to determine the time interval where an dynamic Computed Tomography scan is made during the EIT. I thought I can determine the peak distances and then meet some kind of a decision to determine this time interval.
Here is my signal
Image Analyst
Image Analyst am 10 Mär. 2016
Start your own question and explain more about what's in the red circles that you want. Otherwise just threshold and call diff() and look for +1 values.
binarySignal = signal > 2.56;
leadingEdges = find(diff(binarySignal) >= 1);
You can get the distance between leading edges by doing diff(leadingEdges).
Steev Mathew
Steev Mathew am 4 Mär. 2021
Thanks! This helped me a lot. I was looking for a way to filter out noise from my data.
Anupama V
Anupama V am 6 Nov. 2022
How to find the valley of a ppg signal?(secondary peak of a signal)

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 Akzeptierte Antwort

Star Strider
Star Strider am 22 Jul. 2012
Bearbeitet: Star Strider am 22 Jul. 2012

7 Stimmen

Another option is ‘findpeaks’ in the Signal Processing Toolbox. It will give you the maximum (and indirectly the minimum) values and their index locations. If ‘Data’ is the vector that produced the plot, to find the maxima and minima:
[Maxima,MaxIdx] = findpeaks(Data);
DataInv = 1.01*max(Data) - Data;
[Minima,MinIdx] = findpeaks(DataInv);
The true minima will then be:
Minima = Data(MinIdx);
The index values also allow you to determine the times the maxima and minima occurred.

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krishna kireeti
krishna kireeti am 8 Mär. 2017
For the same signal how to get the position values of those peaks we got? please help me with finding the position of the code as well as in plotting the peaks we got.
Image Analyst
Image Analyst am 8 Mär. 2017
"MaxIdx" is the index number of the peaks ("the position values of those peaks". I'd have called it "indexesOfPeaks" to be more explicit.
I don't know what you mean by "position of the code". How does source code have a position?
krishna kireeti
krishna kireeti am 9 Mär. 2017
I'm having same values in both Maxima and Minima matrices ? can you explain the code once?
Jan
Jan am 18 Apr. 2017
Instead of DataInv = 1.01*max(Data) - Data, would this be sufficient:
[Minima, MinIdx] = findpeaks(-Data)
Image Analyst
Image Analyst am 19 Apr. 2017
I believe you'd also have to do
Minima = -Minima;
so we get the original sign of the valleys.
nuclear physics
nuclear physics am 28 Okt. 2017
Bearbeitet: Image Analyst am 28 Okt. 2017
Why does not work findpeak for me? i found this code and saved in my current folder as m.file. i got this error:Too many output arguments . i run this:
[~, maxes] = findpeaks(proffj);
Image Analyst
Image Analyst am 28 Okt. 2017
That code works fine. I ran it with no errors if I gave it a double 1-D array for proffj. Attach ALL your code and data so we can run it and discover any problem..
Hi, I know that this is an old question, but why is the signal inverted using : DataInv = 1.01*max(Data) - Data; Cheers,
Star Strider
Star Strider am 27 Feb. 2018
For some reason, it was important that the inverted waveform be greater than zero. (That was years ago, so I don’t remember the details.)
That’s likely not necessary for every signal. If you want the minima, just negate the original signal and use the indices findpeaks returns in the second output to get the values of the original signal.
I you have R2017b, the islocalmin function is also an option to get the minima without inverting the signal.

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Weitere Antworten (5)

Steven Lord
Steven Lord am 4 Mär. 2021

2 Stimmen

For more recent releases take a look at the islocalmin, islocalmax, and (perhaps) detrend functions.
Si14
Si14 am 26 Jul. 2012

1 Stimme

Thank you guys for your responses. I am using the following and it works nice:
[Maxima,MaxIdx] = findpeaks(Data);
DataInv = 1.01*max(Data) - Data;
[Minima,MinIdx] = findpeaks(DataInv);
Minima = Data(MinIdx);

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Star Strider
Star Strider am 26 Jul. 2012
Thank you for accepting my answer!
Umesh Gautam
Umesh Gautam am 11 Mai 2023
It is working great.

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Image Analyst
Image Analyst am 22 Jul. 2012
Bearbeitet: Image Analyst am 22 Jul. 2012

0 Stimmen

If you have the Image Processing Toolbox, you can use imregionmax() and imregionalmin(). Do you have that toolbox? If you do that would be the simplest because it's just simply one line of code to find either the maxs or the mins.
You can also do it by seeing where the morphological max or min (performed by imdilate() and imerode() respectively) equals the original array. But again, that requires the Image Processing Toolbox.
Randy82
Randy82 am 13 Aug. 2014

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I have one question: Why do i have to multiply max(Data) with a factor 1.01?
Prithisha K
Prithisha K am 8 Sep. 2021

0 Stimmen

Set the prominence window value to 25. Then increase the min.prominence value untill there are exactly 9 minima found.

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