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I have 19 cells (19x1) with temperature data for an entire year where the first 18 cells represent 20 days (each) and the last cell represents 5 days, hence (18*20)+5 = 365days.

In each cell there should be 7200 measurements (apart from cell 19) where each measurement is taken every 4 minutes thus 360 measurements per day (360*20 = 7200).

The time vector for the measurements is only expressed as day number i.e. 1,2,3...and so on (thus no decimal day), which is therefore displayed as 360 x 1's... and so on.

As the sensor failed during some days, some of the cells contain less than 7200 measurements, where one in particular only contains 858 rows, which looks similar to the following example:


Where column 1 = day, column 2 and 3 are the data.

By knowing that each day number should be repeated 360 times is there a method for including an additional amount of every value from 1:20 in order to make up the 360. For example, the first column requires 79 x 1's, 46 x 2's, 360 x 3's... and so on; where the final array should therefore have 7200 values in order from 1 to 20.

If this is possible, in the rows where these values have been added, the second and third column should changed to nan.

I realise that this is an unusual question, and that it is difficult to understand what is asked, but I hope I have been clear in expressing what i'm attempting to acheive. Any advice would be much appreciated.

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I am writing from a computer with no Matlab, so I can't post any code-containing answer, but I suggest you try to create a vector of the indices you have, [find(a(:,1)==1); find(a(:,1)==2);...;find(a(:,1)==20)], and a vector of indices you need, [1*ones(360,1); 2*ones(360,1);...], and then interpolate using the values you have and the values you need. – Itamar Katz Jan 18 '12 at 22:17
What if a(281:327,1)=1; so the temperature repeats on two days, but less than 360, so you don't know on which day? – cyborg Jan 18 '12 at 23:30
@cyborg: If a(281:327,1)=1 then a(1:327,1)=1 so only an additional 33 ones would be needed. – Emma Jan 19 '12 at 8:59
up vote 1 down vote accepted

Here's one way to do it for a given element of the cell matrix:


for i = 1:20              % for each day
    starti = (i-1)*360;   % find corresponding 360 indices into full array
    full( starti + (1:360), 1 ) = i;  % assign the day
    idx = find(a(:,1)==i);            % find any matching data in a for that day
    full( starti + (1:length(idx)), 2:3 ) = a(idx,2:3); % copy matching data over

You could probably use arrayfun to make this slicker, and maybe (??) faster.

You could make this into a function and use cellfun to apply it to your cell.

PS - if you ask your question at the Matlab help forums you'll most definitely get a slicker & more efficient answer than this. Probably involving bsxfun or arrayfun or accumarray or something like that.

Update - to do this for each element in the cell array the only change is that instead of searching for i as the day number you calculate it based on how far allong the cell array you are. You'd do something like (untested):

for k = 1:length(cellarray)
    for i = 1:length(cellarray{k})
        starti = (i-1)*360;                % ... as before
        day = (k-1)*20 + i;                % first cell is days 1-20, second is 21-40,...
        full( starti + (1:360),1 ) = day;  % <-- replace i with day
        idx = find(a(:,1)==day);           % <-- replace i with day
        full( starti + (1:length(idx)), 2:3 ) = a(idx,2:3);  % same as before
share|improve this answer
This works great, many thanks. – Emma Jan 19 '12 at 9:08
How would I alter this to work for another time frame i.e. from day 121 to 140? because the start and end day is going to vary within each cell. – Emma Jan 19 '12 at 9:38
Good point, I'll update my answer -- basically instead of using i to determine the day you'd calculate it depending on whereabouts you were in the cell. – mathematical.coffee Jan 19 '12 at 23:47

I am not sure I understood correctly what you want to do but this below works out how many measurements you are missing for each day and add at the bottom of your 'a' matrix additional lines so you do get the full 7200x3 matrix.

nbMissing = 7200-size(a,1);
a1 = nan(nbmissing,3)

for i = 1:20
  nbMissing_i = 360-sum(a(:,1)=i);
  l = l+nb_Missing_i;

a_filled = [a;a1];
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