I am new to automata theory. This question below is for practice:

Let there be a language that is made of words that start and end with different symbols and have the alphabet {0,1}. For example, 001, 10110101010100, 10 and 01 are all accepted. But 101, 1, 0, and 1010001101 are rejected.

How do I:

  • Construct a Deterministic Finite Automata (DFA) diagram?
  • Find the regular expression for the DFA?

    I tried to post an image of the DFA I drew, but I need 10 reputations to post images unfortunately, which I do not yet have.

    • 1
      What do you have so far for the regex? – C.B. Nov 15 '13 at 21:02
    • 1
      This question appears to be off-topic because it is about theoretical computer science, which is more appropriate at cs.stackexchange.com. – templatetypedef Nov 15 '13 at 21:20
    • Christopher -- by regex, I am assuming you mean the regular expression? I did not yet have anything for that as I was trying to work in the order of the question. But apparently as Tharindu has stated below it's easier to get the regex first. – silverlight Nov 16 '13 at 1:07
    • @templeplatetypedef - I did not know about cs.stackexchange.com. Thanks for pointing that out! – silverlight Nov 16 '13 at 1:10

    To answer this question, I think it's easier to identify the regular expression first.

    Regular Expression

    1(1|0)*0 | 0(1|0)*1 

    (* denotes Kleene's star operation)

    Now we convert this regular expression into an equivalent finite automata.

    Constructing a DFA

    You can design the NFA-∧(or NFA-ε in some texts) easily using Thompson constructors[1] for a given language(regex) which is then converted into an NFA without lambda transitions. This NFA can then be mapped to an equivalent DFA using subset construction method. [2]

    If you want, you can further reduce this DFA to obtain a minimal DFA which is unique for a given regular language. (Myhill-Nerode theorem) [3]

    Regex → NFA-∧ → NFA → DFA → DFA(minimal), This is the standard procedure.


    [2] http://www.cs.nuim.ie/~jpower/Courses/Previous/parsing/node9.html


    • This works if ε is not in the set of valid words. OP - can you have the empty string? – C.B. Nov 15 '13 at 21:15
    • @ChristopherHarris, the fact whether we are accepting or rejecting the null string depends on the convention we adopt. According to the language description, ε is not in the language because ε does not start and end with different symbols. – Tharindu Rusira Nov 15 '13 at 21:33
    • @TharinduRusira, thanks for your help. Although I do not know what NFA-^ stands for. – silverlight Nov 16 '13 at 1:10
    • @TharinduRusira, can you break down how you got to that regular expression? For example, I think that 1(1|0)*0 means the expression has to start with 1, it can then be followed by either a 1 or a 0, and it has to end with a 0, which we know can repeat because of the * notation. Same logic would follow for 0(1|0)*1. Am I on the right track? – silverlight Nov 16 '13 at 2:58
    • @silverlight, yes you got it right. Obtaining the regular expression is kind of intuitive. In your case, there can be only two possibilities. (1) Start with 1, any combination of 1 and 0 in the middle and end with 0. (2)Start with 0, any combination of 1 and 0 in the middle and end with 1. Precisely, * notation says zero or more occurrences of a given symbol/string. NFA-∧ is a fancy notation to represent a regular NFA with transitions for the "null" string input. (I assume you know what an NFA is) – Tharindu Rusira Nov 16 '13 at 10:58

    We can get two possibilities here- 1) String starts with 0 and ends with 1 => [0(0|1)*1] 2) Strings staring with 1 and ending with 0 => [1(0|1)*0] Also from rejected strings we know that minimum length would be 2.

    Therefore final expression would be [0(0|1)*1]|[1(0|1)*0] NFA would be something like this

    NFA for given language

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