Lindgren, K.,Moore, C.,Nordahl, M.
In dynamical systems such as cellular automata and iterated maps, it is often useful to look at a language or set of symbol sequences produced by the system. There are well-established classification schemes, such as the Chomsky hierarchy, with which we can measure the complexity of these sets of sequences, and thus the complexity of the systems which produce them. In this paper, we look at the first few levels of a hierarchy of complexity for two-or-more-di]<-- Enter an X to order article (TGA: 101ED 00004) ISSN: 0022-4715 --------mensional patterns. We show that several definitions of "regular language" or "local rule" that are equivalent in d = 1 lead to distinct classes in d greater than or equal to 2. We explore the closure properties and computational complexity of these classes, including undecidability and L, NL, and NP-completeness results. We apply these classes to cellular automata, in particular to their sets of fixed and periodic points, finite-time images, and limit sets. We show that it is undecidable whether a CA in d greater than or equal to 2 has a periodic point of a given period, and that certain "local lattice languages" are not finite-time images or limit sets of any CA. We also show that the entropy of a d-dimensional CA's finite-time image cannot decrease faster than t(-d) unless it maps every initial condition to a single homogeneous state.