*automatic structures*in our reading group meeting. I would like to talk about these nice animals in some details. This is the first part in the series of posts giving a flavor of automatic structures and sketching some important proofs. If there are interests, I will also talk about how one might apply automatic structures to program verification (this line of research is still under intense development).

Finite model theory primarily concerns finite structures, and has been successfully applied to database theory, and logical approaches to verification (i.e. model checking). On the other hand, finite structures are often too restrictive. For example, when modeling C programs, the use of infinite structures is often inevitable. For this reason, a lot of effort has been put into extending the framework of finite model theory to infinite structures. Several such approaches include metafinite model theory, embedded finite model theory, and automatic structures. In the sequel, we are primarily interested in automatic structures.

Roughly speaking, automatic structures are structures whose universe, and relations can each be represented by a finite automaton. A simple example of automatic structures is Presburger arithmetic (N,+), where N is the set of natural numbers. Here is how one might represent (N,+) using finite automata. Represent the universe N in binary

*in reverse order*(e.g. 4 = 001, 2 = 01); call such a representation bin(N). So, bin(N) is a language over Σ = {0,1}. It is simple to devise a finite automaton that recognizes precisely bin(N). Now, how do we represent the 3-ary relation

+ = { (bin(i),bin(j),bin(k)) : i + j = k, i,j,k ∈ N }

with an automaton? First, it is possible to represent the relation + as a language L over the alphabet {0,1,#}

^{3}defined in the following way. For i,j,k ∈ bin(N), concatenate i,j,k with the padding symbol # so that the resulting strings i',j',k' are of the same length. For example, if i = 001, j = 01, and k = 00001, then i' = 001##, j' = 01###, and k' = 00001. Now, we may treat the tuple (i',j',k') as a string over the alphabet {0,1,#}

^{3}, e.g., for i',j',k' in the above example, the resulting string is (0,0,0)(0,1,0)(1,#,0)(#,#,0)(#,#,1). Then, if i + j = k, put the string (i',j',k') in L. Having defined L, it is not hard to exhibit an automaton that recognizes precisely L. [This automaton resembles the commonplace algorithm for addition.]

What is so cool about automatic structures? First, it is somewhat immediate that automatic structures have decidable FO theories. Second, there exists a

*universal automatic structure*M

_{univ}, which is a structure in which all other automatic structures can be interpreted with FO translation (or reduction). Furthermore, the set of all relations definable in M

_{univ}captures precisely all regular relations, which gives an easy way to prove properties about regular languages. By the way, automatic structures also give a nice way of proving that model checking some types of infinite transition systems be decidable.

Anyway, this post was merely intended to whet the reader's appetite. I hope this was enticing enough. In the next post, I will give a precise definition of automatic structures and prove the Buchi-Bruyer theorem that the set of relations definable in M

_{univ}coincides with all regular relations.

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