# How to identify which cell has the minimum value in Matlab?

I currently have the following cell :

G=cell(4,2)

Each sell has a 2x1 double

Example :

[100;200]   [20;60]
[100;300]   [20;90]
[200;300]   [60;90]
[]  []      []  []

How can I identify which cell has the minimum value, (where the values compared are in the SECOND column) so that the addition is between 20;60 20;90 and 60;90 ?

I started typing out a code but got stuck :

for k=1:(4)
end

(...Find a way to know which cell gave the minimum off `add` using min(add)...)

But then I don't how to identify which cell has the minimum .. The answer I'm looking for should indicate that the minimum value is at Column 2 Row 1 of cell G and hence : 20;60

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you should also specify what you define as a minimum in the array. A vector-minimum? A min per dimension (i.e. each row in each cell entry?). – gevang Mar 2 '13 at 23:44
@gevang The minimum I want is the minimum sum value of both values in each cell in the second column. As in 20;60, cell 5 is the min. – NLed Mar 2 '13 at 23:45

G[{:}] will arrange (column-wise) the cell array to a 2D matrix (lines corresponding to the first and second element of each cell entry

ans =

100   100   200    20    20    60
200   300   300    60    90    90

You can then apply min accordingly to obtain the minimum value and a linear index on the cell, e.g.:

[minVal, minIndex] = min([G{:}], [], 2);

Update: Since the sum of elements is defined as minimum (L1 norm), you can use cellfun to detect empty entries and sum in each, before applying min over the resulting array:

indexEmpty = cellfun(@isempty, G)  % find empty entries of G
sumG = cellfun(@sum, G)            % apply sum on each entry of G
sumG(indexEmpty) = nan;            % set empty entries to NaN (exclude from min)
[minVal, minIndex] = min(sumG(:)); % return min and its location in sumG (and G)

Result: G{minIndex}

ans =

20
60

The linear index minIndex can be translated to array subscripts using ind2sub.

[i,j] = ind2sub(size(G), minIndex);

In this way you can index the array both using G{minIndex} (i.e., 5) and G{i,j} (i.e., 1,2).

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The index shows 4...cell 4 does not contain the minimum ! – NLed Mar 2 '13 at 23:42
@NLed minVal is the minimum (as you define it). You can convert 4 (a linear index) to row and column using a simple formula or ind2sub using the dimensions of the non-empty entry array, i.e. [i,j] = ind2sub([3,2],4). – gevang Mar 2 '13 at 23:47
@NLed see my updated answer that handles your definition of min and the empty cell-array values. – gevang Mar 2 '13 at 23:59
Can you provide an explanation to the code ? Would love to learn this rather than just copy it ... Also, how can I indicate which cell number is the minimum at ? For example, cell [1,2] for 20;60, and cell [1,1] for 100;200 ? – NLed Mar 3 '13 at 5:26
@NLed you can look into cellfun, which is very practical for applying functions at each entry of the array. Also, as I said above, you can convert a linear index using function ind2sub(). For the case here [i,j] = ind2sub(size(G), minIndex) will translate minIndex (5) to i,j(1,2) array coordinates, i.e. 1st row, 2nd column in the array. I included an update on this. – gevang Mar 3 '13 at 6:39