I have 3 vectors: `npdf,`

`tn(:,1)`

and `tn(:,2)`

and am finding the values of `npdf`

in `tn(:,2)`

line by line:

```
[npdf(1:20,1), tn(1:20,:)]
ans =
8.0000 3.0000 1.0000
11.0000 2.9167 1.0000
1.0000 3.3000 1.0000
11.0000 1.2167 1.0000
5.0000 2.8167 1.0000
1.0000 2.4000 1.0000
2.0000 2.4500 1.0000
4.0000 0.2500 1.0000
15.0000 3.7500 1.0000
15.0000 4.9167 1.0000
1.0000 2.8167 2.0000
17.0000 0.2500 2.0000
15.0000 1.0000 3.0000
4.0000 3.0000 3.0000
8.0000 0.5833 3.0000
1.0000 0.5833 3.0000
3.0000 5.0000 5.0000
11.0000 3.7500 6.0000
8.0000 3.0000 7.0000
15.0000 2.8000 7.0000
for i=1:length(npdf)
[LOCA,~]=ismember(tn(:,2),npdf(i,1,1));
dummy=find(LOCA~=0);
tpdf(i,1)=tn(randi(length(dummy),1,1),1);
end
```

each time it finds the value of `npdf`

in `tn(:,2)`

it chooses a value from `tn(:,1)`

.

Here's the problem: if it can't locate the value from npdf in tn(:,2) then I need to choose the nearest value (in magnitude) in tn(:,2) and proceed. Either that or some sort of interpolation between nearest values.. How would you do this most efficiently?

At your discretion to change the code, it doesn't look very efficient to me.

`tn(:,1)`

. It all looks random to me from this line:`tpdf(i,1)=tn(randi(length(dummy),1,1),1);`

. So if you find 5 identical values (i.e. length(dummy)=5), you will choose from first 5 elements of tn(:,1), right? – Parag S. Chandakkar Apr 6 '13 at 21:16`tn(:,2)`

which is closer to the first element of`npdf`

i.e. 8. So ideally it should give you`dummy`

-> all zeros except last two elements which will be one (since the closest from`tn(:,2)`

is 7). Lets say the element indices are 19 and 20. Therefore, you will choose a random number from`1:20`

-> lets say you choose 16. Then you will choose the 16th element from`tn(:,1)`

. Does this sound right to you? – Parag S. Chandakkar Apr 6 '13 at 22:10`isempty(dummy)=1`

at this point. How do I do that? What comes after I have a handle on. – HCAI Apr 6 '13 at 22:19