## Method #1

The straighforward approach is to do it with a `for`

loop:

```
C = [];
for i = 1:numel(A);
C(i).averageB = sum(B{i}) / length(B{i});
C(i).averageA = sum(A{i}) / length(A{i});
C(i).tapWithSign = (C(i).averageB - C(i).averageA) ./ ...
(C(i).averageB + C(i).averageA / 2) * 100;
C(i).tapAB = abs(tapWithSign{i});
end
```

I wasn't sure how you want the results to be stored, so I have stored them in `C`

, which is an array of structs, with the calculation results as fields.

## Method #2

Alternatively, you can use `cellfun`

like so:

```
averageA = cellfun(@(x)(sum(x)/length(x)), A, 'Un', 0);
averageB = cellfun(@(x)(sum(x)/length(x)), B, 'Un', 0);
tapWithSign = cellfun(@(x, y)deal((y - x) ./ (y + x / 2) * 100), ...
averageA, averageB, 'Un', 0);
tapAB = cellfun(@abs, tapWithSign, 'Un', 0);
```

Note that this yields the calculation results as cell arrays. If you want to store them in a struct, like in the first example:

```
C = struct('averageA', averageA, 'averageB', averageB, ...
'tapWithSign', tapWithSign, 'tapAB', tapAB);
```

`cellfun`

? – Ben A. Aug 2 '12 at 15:28