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I just want to get a second opionion on these expression and whether they are irregular or regular.

{0^n 1^m | n >= m >=0} REGULAR

{0^n 1^m | n,m >=0}* REGULAR

{0^n 0^n | n>=0} IRREGULAR

can anyone confirm that this is true?

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Seems like you should tag this as homework. – mah Oct 24 '11 at 11:03
oh sorry im new i didnt know there was a hw tag. can u confirm this or are u just here to critisize me for being ignorant to the way the site works? – user1010699 Oct 24 '11 at 11:04
You talk about an M which is never used. – Aurelio De Rosa Oct 24 '11 at 11:04
where is m? :) – Lasse Espeholt Oct 24 '11 at 11:04
I think you need to proofread your questions. – Tom Medley Oct 24 '11 at 11:06

1 Answer 1

up vote 3 down vote accepted

{0^n 1^m | n >= m >=0} Since an FSM cannot keep track of what n was in order to ensure n>=m, an FSM cannot represent the expression.

{0^n 1^m | n,m >=0}* -- an FSM can seem to represent this but there are problems. Unlike the first problem, n and m are unrelated to one another so no FSM creation issues. The problem is that n and m must remain the same for multiple passes through the machine. Again, since there's no memory, this isn't possible.

{0^n 0^n | n>=0} -- this is simple with an FSM as well. It looks much like the 2nd problem's FSM. The RE is (00)*

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I believe you can create a FSM for {0^n 1^m | n,m >=0}* as we can construct a NFA for 0^n and we can construct a NFA for 1^m. Therefore though concatanation we can construct a NFA for 0^n 1^m and thus it is simple to apply a kleene closure to our concatanation. It seems that we can represent this as the RE (0|1)* – Joey Ciechanowicz Oct 24 '11 at 14:46
@Bodyloss - if it were not for the kleene star on the end, you would be correct. The problem is that when you loop from the 2nd FA (1^m) back to the first, the values for n and m must remain the same as they were on the first pass through the machine -- and without a memory, this isn't possible. – mah Oct 24 '11 at 20:57
Oh, by saying n,m >= 0 does that mean also that n = m as we pass though the machine? As if not then surely you can construct A* where A = {0^n 1^m | n,m >= 0} using Thompsons construction? – Joey Ciechanowicz Oct 25 '11 at 8:12
It isn't saying n = m (if that were the case there would only be one variable). It's saying that whatever values they are, they are constant for each pass through the machine's body in a single execution of the machine. Lets say the input string is to be 001001; the machine you suggested can pass that easily. However, the target machine must reject 00101 (and allow 00110011 but reject 001101, for example). – mah Oct 25 '11 at 9:19

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