For matrix `H`

and threshold `T`

you can use:

```
M = nanmean(H+0./(H>T),2);
```

in your case:

```
Media_b = nanmean(W_tot_migl+0./(W_tot_migl>LimiteInferiore),2);
```

OR calculate it yourself:

```
M = sum(H.*(H>T),2)./sum(H>T,2);
```

For your case:

```
Media_b = sum(W_tot_migl.*(W_tot_migl>LimiteInferiore),2)./sum(W_tot_migl>LimiteInferiore,2);
```

Note that both methods return `NaN`

if there are no values greater than the threshold in a row.

However, in general you can use `accumarray`

to accomplish this:

```
H2 = H>T;
[I,~] = find(H2);
M = accumarray(I, H(H2), [size(H,1) 1], @mean);
```

This method returns zero if there are no elements larger than the threshold in a row.

`>= x`

, rather than`> x`

. Make sure to decide what you want and include this in your final result. – Dennis Jaheruddin Sep 24 '13 at 8:11