I think you're looking for something like this:

```
T = rand(100,1); %Your temperature variable
c = (T > 0.2) & (T < 0.8); %Your threshholds, in your case switch the 0.2 for 550 and the 0.8 for 600
sum(diff([0; c]) == 1)
```

What's happening here is this:
`c = (T > 0.2) & (T < 0.8)`

creates a mask where points that are between your threshholds are `1`

and points that are outside are `0`

. Now `diff`

finds the difference between each adjacent point so for example `diff([1 0 0 1 1 1 0])`

will return `-1 0 1 0 0 -1`

but we only want to count each time our `c`

vector goes from `0`

to `1`

(or we could count it going from `1`

to `0`

, so long as we don't count both) hence the `== 1`

. Finally we don't want to miss a gorup of ones starting at the beginning hence we add a `0`

to the beginning.

**EDIT:**

Based on your comment and assuming you have a time vector called `x`

and a temperature vector called `y`

:

```
dx = x(2)-x(1) %I'm assuming this remains constant throughout x, i.e. x(n) - x(n-1) is constant
mask = (y >= 550) & (y <= 600)
totalTime = sum(mask)*dx
```

If the time differences in `x`

are not constant then do this:

```
mask = (y >= 550) & (y <= 600)
dx = x(end) - x(end-1);
d = -diff([0;mask;0]).*[x; x(end)+dx];
totalTime = sum(d)
```