1,393 research outputs found
Controlled Fuzzy Parallel Rewriting
We study a Lindenmayer-like parallel rewriting system to model the growth of filaments (arrays of cells) in which developmental errors may occur. In essence this model is the fuzzy analogue of the derivation-controlled iteration grammar. Under minor assumptions on the family of control languages and on the family of fuzzy languages in the underlying iteration grammar, we show (i) regular control does not provide additional generating power to the model, (ii) the number of fuzzy substitutions in the underlying iteration grammar can be reduced to two, and (iii) the resulting family of fuzzy languages possesses strong closure properties, viz. it is a full hyper-AFFL, i.e., a hyper-algebraically closed full Abstract Family of Fuzzy Languages
A Characterization of ET0L and EDT0L Languages
There exists a PT0L language such that the following holds. A language is an ET0L language if and only if there exists a mapping induced by an a-NGSM (nondeterministic generalized sequential machine with accepting states) such that . There exists an infinite collection of EPDT0L languages () such that the family EDT0L is characterized in the following way. A language is an EDT0L language if and only if there exists , a homomorphism and a regular language such that .\u
Investigating self-similar groups using their finite -presentation
Self-similar groups provide a rich source of groups with interesting
properties; e.g., infinite torsion groups (Burnside groups) and groups with an
intermediate word growth. Various self-similar groups can be described by a
recursive (possibly infinite) presentation, a so-called finite
-presentation. Finite -presentations allow numerous algorithms for
finitely presented groups to be generalized to this special class of recursive
presentations. We give an overview of the algorithms for finitely -presented
groups. As applications, we demonstrate how their implementation in a computer
algebra system allows us to study explicit examples of self-similar groups
including the Fabrykowski-Gupta groups. Our experiments yield detailed insight
into the structure of these groups
Extended macro grammars and stack controlled machines
K-extended basic macro grammars are introduced, where K is any class of languages. The class B(K) of languages generated by such grammars is investigated, together with the class LB(K) of languages generated by the corresponding linear basic grammars. For any full semi-AFL K, B(K) is a full AFL closed under iterated LB(K)-substitution, but not necessarily under substitution. For any machine type D, the stack controlled machine type corresponding to D is introduced, denoted S(D), and the checking-stack controlled machine type CS(D). The data structure of this machine is a stack which controls a pushdown of data structures from D. If D accepts K, then S(D) accepts B(K) and CS(D) accepts LB(K). Thus the classes B(K) are characterized by stack controlled machines and the classes LB(K), i.e., the full hyper-AFLs, by checking-stack controlled machines. A full basic-AFL is a full AFL K such that B(K)C K. Every full basic-AFL is a full hyper-AFL, but not vice versa. The class of OI macro languages (i.e., indexed languages, i.e., nested stack automaton languages) is a full basic-AFL, properly containing the smallest full basic-AFL. The latter is generated by the ultrabasic macro grammars and accepted by the nested stack automata with bounded depth of nesting (and properly contains the stack languages, the ETOL languages, i.e., the smallest full hyper-AFL, and the basic macro languages). The full basic-AFLs are characterized by bounded nested stack controlled machines
- …