If you are simply trying to remove *adjacent* values within that tolerance from a vector, I would start with something like this:

```
roc = ...
tolerance = 0.1;
idx = [logical(1) diff(roc)>tolerance)];
rocReduced = roc(idx);
```

'rocReduced' is now a vector with all values that didn't have an adjacent values within a tolerance in the original vector.

This approach has two distinct limitations:

- The original 'roc' vector must be monotonic.
- No more than two items in a row may be within the tolerance, otherwise the entire swath will be removed.

I suspect the above would not be sufficient. That said, I can't think of any simple operations that overcome those (and other) limitations while still using vectorized matrix operations.

If performance is not a huge issue, you maybe the following iterative algorithm would suit your application:

```
roc = ...
tolerance = 0.1;
mask = true(size(roc)); % Start with all points
last = 1; % Always taking first point
for i=2:length(roc) % for all remaining points,
if(abs(roc(i)-roc(last))<tolerance) % If this point is within the tolerance of the last accepted point, remove it from the mask;
mask(i) = false;
else % Otherwise, keep it and mark the last kept
last = i;
end
end
rocReduced = roc(mask);
```

This handles multiple consecutive sub-tolerance intervals without necessarily throwing all away. It also handles non-monotonic sequences.

MATLAB users sometimes shy away from iterative solutions (vs. vectorized matrix operations), but sometimes it's not worth the trouble of finding a more elegant solution when brute force performance meets your needs.