# how to find mean of columns in nested structure in MATLAB

I've organized some data into a nested structure that includes several subjects, 4-5 trials per subject, then identifying data like height, joint torque over a gait cycle, etc. So, for example:

subject(2).trial(4).torque

gives a matrix of joint torques for the 4th trial of subject 2, where the torque matrix columns represent degrees of freedom (hip, knee, etc.) and the rows represent time increments from 0 through 100% of a stride. What I want to do is take the mean of 5 trials for each degree of freedom and use that to represent the subject (for that degree of freedom). When I try to do it like this for the 1st degree of freedom:

for i = 2:24
numTrialsThisSubject = size(subject(i).trial, 2);
subject(i).torque = mean(subject(i).trial(1:numTrialsThisSubject).torque(:,1), 2);
end

I get this error:

??? Scalar index required for this type of multi-level indexing.

I know I can use a nested for loop to loop through the trials, store them in a temp matrix, then take the mean of the temp columns, but I'd like to avoid creating another variable for the temp matrix if I can. Is this possible?

-
What happens if you give an index to .torque, i.e. subject(i).torque(1)? –  darthbith Aug 8 '13 at 13:23
try using struct2cell you should have more flexibility with multi-level indexing.... –  Shai Aug 8 '13 at 13:40
Nope unfortunately not darthbith - I get the same error if I use your suggestion, but thanks. And Shai - I'm not familiar with struct2cell or why that would help. Can you elaborate? –  dustynrobots Aug 8 '13 at 17:20
@dustynrobots Is your question still relevant? Please consider marking the suggest answer as accepted, or revising it so that it can be answered properly. –  Eitan T Sep 23 '13 at 21:04
@EitanT I answered my own question below based on a comment I made –  dustynrobots Sep 24 '13 at 0:01

You can use a combination of deal() and cell2mat().

Try this (use the built-in debugger to run through the code to see how it works):

for subject_k = 2:24
% create temporary cell array for holding the matrices:
temp_torques = cell(length(subject(subject_k).trial), 1);

% deal the matrices from all the trials (copy to temp_torques):
[temp_torques{:}] = deal(subject(subject_k).trial.torque);

% convert to a matrix and concatenate all matrices over rows:
temp_torques = cell2mat(temp_torques);

% calculate mean of degree of freedom number 1 for all trials:
subject(subject_k).torque = mean(temp_torques(:,1));
end

Notice that I use subject_k for the subject counter variable. Be careful with using i and j in MATLAB as names of variables, as they are already defined as 0 + 1.000i (complex number).

-
Thanks! But I'm not as comfortable with deal and cell2mat, so I ended up just doing it like this: `for i = range numTrialsThisSubject = size(subject(i).trial, 2); for j = 1:numTrialsThisSubject subject(i).temp(:,j) = subject(i).trial(j).torque(:,1); end subject(i).torque = mean(subject(i).temp, 2); end' –  dustynrobots Aug 8 '13 at 20:38
Okay :) your choice. I read your question as being how to achieve it without using an inner loop. There is no magic in my approach :) I suggest reading the docs and run the code line by line using the MATLAB debugger. This is the only sure to get comfortable. –  Ole Thomsen Buus Aug 9 '13 at 0:25
Sorry I guess I should have phrased the question better - but thank you for rising to the challenge! I was trying to avoid a temp variable and another loop just because I thought the way I was trying would work but I had a syntax error I wasn't catching. But it seems like it just doesn't work that way, so adding another loop and temp variable was the next simplest execution. Thanks though! –  dustynrobots Aug 9 '13 at 13:38
Did you try my approach? I am a bit interested in knowing if you got it working. Btw, the deal function is extremely useful if you want to extract data from structs. The syntax error is mainly because of MATLAB's limitations with data-structure lookup. You were trying to extract a single structure-element from multiple structs (the "trial(1:numTrialsThisSubject).torque(:,1)" part). This will be ambiguous to MATLAB and actually creates several returns. The deal-function is a way to get by this problem. –  Ole Thomsen Buus Aug 9 '13 at 16:20

As mentioned above in my comment, adding another loop and temp variable turned out to be the simplest execution.

-