In MATLAB, how could I **combine two matrices of data measured at different frequencies** such that the **result is indexed at the higher frequency**? Since the data measured at the lower frequency will have many unknown values in the result, I would like to replace them with the **last known value in the matrix**. There is a lot of data so a **vectorized solution** would be preferred. I've added some sample data below.

**Given:**

```
index1 data1 index2 data2
1 2.1 2 30.5
2 3.3 6 32.0
3 3.5 9 35.0
4 3.9 13 35.5
5 4.5 17 34.5
6 5.0 20 37.0
7 5.2 ... ...
8 5.7
9 6.8
10 7.9
... ...
```

**Result:**

```
index1 data1 data2
1 2.1 NaN
2 3.3 30.5
3 3.5 30.5
4 3.9 30.5
5 4.5 30.5
6 5.0 32.0
7 5.2 32.0
8 5.7 32.0
9 6.8 35.0
10 7.9 35.0
... ... ...
```

**EDIT:**
I think the following post is close to what I need, but I'm not sure how to transform the solution to fit my problem.
http://www.mathworks.com/matlabcentral/newsreader/view_thread/260139

**EDIT (Several Months Later):**
I've recently come across this excellent little function that I think may be of use to anyone who lands on this post:

```
function yi = interpLast(x,y,xi)
%INTERPLAST Interpolates the input data to the last known value.
% Note the index data should be input in ASCENDING order.
inds = arrayfun(@findinds, xi);
yi = y(inds);
function ind = findinds(val)
ind = find(x<=val,1,'last');
if isempty(ind)
ind = 1;
end
end
end
```

Credit goes here: http://www.mathworks.com/support/solutions/en/data/1-48KETY/index.html?product=SL&solution=1-48KETY