So for Markov chains, I assume you're only interested in the state transitions. You could group all state transitions into a single Nx2 matrix and then count the number of times a row appears.

For this example I'm using three observations of length 4, 3, and 3. I can use cellfun to group all the state transitions together in a single matrix in the following way:

```
obs = cell(1, 3);
obs(1) = {[1 2 3 4]};
obs(2) = {[4 5 6]};
obs(3) = {[3 4 5]};
transitions = cellfun(@(x)([x(1:length(x)-1); x(2:length(x))]), obs, 'UniformOutput', false);
alltransitions = cell2mat(transitions)';
```

Which gives me my observed transitions `(1->2, 2->3, 3->4 ...)`

:

```
alltransitions =
1 2
2 3
3 4
4 5
5 6
3 4
4 5
```

To set up the transition matrix, you could take the advice listed here, and count the rows of all of your transitions:

http://www.mathworks.it/matlabcentral/answers/75009-i-ve-a-matrix-of-6x4-and-i-want-to-count-the-rows-how-many-times-it-occur-in-a-matrix

```
[uniqueTransitions, ~, i]=unique(alltransitions,'rows','stable');
v=arrayfun(@(x) sum(i==x),1:size(uniqueTransitions,1))';
p = v/sum(v);
```

My vector p contains my transition probability, so I can then go ahead and construct a sparse matrix

```
transitionMatrix = sparse(uniqueTransitions(:,1), uniqueTransitions(:,2), p, 6,6)
```

which results in:

```
transitionMatrix =
(1,2) 0.1429
(2,3) 0.1429
(3,4) 0.2857
(4,5) 0.2857
(5,6) 0.1429
```