How do I align two vectors similar to that done in plot?
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Jason Powell
le 11 Juin 2019
Modifié(e) : Guillaume Erny
le 7 Mar 2021
I have two sets of corresponding vectors that I want to compare. The first set of vectors contain pixel intensity values for every frame Int(F), and the second set contain wavelengths of light (wvLngth(F)). From these vectors I want to produce a third vector that is pixel intensity in terms of wavelength Int(wvLngth). The problem is that vectors containing the wavelengths do not start and end at the same wavelength, nor do the wavelengths increase at the same rate.
For example:
int1Data = [1 2 3 4];
int2Data = [5 6 7 8];
wvLngth1Data = [7 9 10 11];
wvLngth2Data = [9 10 11 13];
%I can plot these two together to align them but how can I add them in the way they are plotted?
figure
plot(wvLngth1Data, int1Data);
hold on
plot(wvLngth2Data, int2Data);
%I'd like to produce something like:
intAvg = [1 3.5 4.5 5.5 8]
wvLngthComb = [7 9 10 11 13]
figure
plot(wvLngthComb, intAvg);
I've looked at things to align or interpolate the data, but I don't think I can align my data set just at the start, because the middle or end would be wrong, and I don't need Matlab to interperet what it things the missing points should be either.
Thanks in advance.
2 commentaires
Jan
le 11 Juin 2019
There is no "Int(F)" in the code.
Let my summarize: You have two vectors with data, whose indices are not related to each other. Now you want to find the relation between the indeces. Based on the currently given information it looks, like there is no such relation and in consequence the job cannot be solved.
Do you have additional information about how to align the data?
Réponse acceptée
James Browne
le 12 Juin 2019
Greetings,
I think I understand what you are after. I used your example data and wrote a script that creates a list of unique wavelength values from both wavelength data vectors, determines the average pixel intensity for each wavelength, assembles the averages in a vector which corrosponds to the vector of unique wavelength values and then plots the result. It would take quite some work to rework the code if you have more than two sets of intensity/wavelength data but it is certainly doable.
Here is what I came up with:
int1Data = [1 2 3 4];
int2Data = [5 6 7 8];
wvLngth1Data = [7 9 10 11];
wvLngth2Data = [9 10 11 13];
%Determine length of wave length data vectors
n = length(wvLngth2Data);
%Initialize count of mathces variable for use in recording indexes
%of matching wave length values and creating unique wavelength value vector
count1 = 1;
count2 = 1;
%Find unique wavelength values
waveTot = [wvLngth1Data,wvLngth2Data];
%Determine total number of wavelength values
nT = length(waveTot);
%Intialize variables to indicate duplicate has been found and if current
%value is a duplicate
dupFound = false;
duplicate = false;
%Find unique wavelength values
for i = 1:nT-1
for j = i+1:nT
if (waveTot(i) == waveTot(j) )
repeatIndices(count1) = j;
count1 = count1 +1;
dupFound = true;
end
end
if (dupFound)
for k = 1:count1 - 1
if ( i == repeatIndices(k) )
duplicate = true;
end
end
end
if(~duplicate)
uniqueWaveVals(count2) = waveTot(i);
count2 = count2 + 1;
end
if( (j == nT) )
duplicate = false;
for k = 1:count1 - 1
if ( i == repeatIndices(k) )
duplicate = true;
end
end
if( ~duplicate )
uniqueWaveVals(count2) = waveTot(j);
end
end
duplicate = false;
end
%Determine number of unique wave length values
nUniques = length(uniqueWaveVals);
%Initialize variables to indicate where a unique waveform appears
foundIn1 = false;
foundIn2 = false;
%Initiate variables for recoding the index at which unique wavelengths are
%found
match1 = 0;
match2 = 0;
%Preallocate memory to store average values
avgIntensities = zeros(1,nUniques);
%Calculate average values for each unique wave form value
for i = 1:nUniques
foundIn1 = false;
foundIn2 = false;
for j = 1:n
if (wvLngth1Data(j) == uniqueWaveVals(i) )
foundIn1 = true;
match1 = j;
end
end
for j = 1:n
if (wvLngth2Data(j) == uniqueWaveVals(i) )
foundIn2 = true;
match2 = j;
end
end
if(foundIn1 && ~foundIn2)
avgIntensities(i) = int1Data(match1);
end
if(~foundIn1 && foundIn2)
avgIntensities(i) = int2Data(match2);
end
if(foundIn1 && foundIn2)
avgIntensities(i) = (int2Data(match2)+int1Data(match1))/2;
end
end
plot(uniqueWaveVals,avgIntensities)
title('Average Pixel Intensity VS Light Wavelength')
xlabel('Wavelength (units)')
ylabel('Average Pixel Intensity (units)')
If this is not quite what you are looking for, I hope that it at least gives you a few good ideas!
Plus de réponses (1)
Guillaume Erny
le 7 Mar 2021
Modifié(e) : Guillaume Erny
le 7 Mar 2021
Hi Jason,
I always use this function when I want to compare spectroscopic date with different axes and it work perfectly
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