%0 Generic
%D 2009
%T The computational complexity of uniformity and semi-uniformity in membrane systems
%A Niall Murphy
%A Damien Woods
%C Sevilla, España
%I Fénix Editora
%P 73-84
%U http://www.gcn.us.es/?q=node/414
%V II
%X We investigate computing models that are presented as families of finite computing devices with a uniformity condition on the entire family. Examples include circuits, membrane systems, DNA computers, cellular automata, tile assembly systems, and so on. However, in this list there are actually two distinct kinds of uniformity condi- tions. The first is the most common and well-understood, where each input length is mapped to a single computing device that computes on the finite set of inputs of that length. The second, called semi-uniformity, is where each input is mapped to a computing device for that input. The former notion is well-known and used in circuit complexity, while the latter notion is frequently found in literature on nature-inspired computing models, from the past 20 years or so. Are these two notions distinct or not? For many models it has been found that these notion are in fact the same, in the sense that the choice of uniformity or semi-uniformity leads to characterisations of the same complexity classes. Here, we buck this trend and show that these notions are actually distinct: we give classes of uniform membrane sys- tems that are strictly weaker than their semi-uniform counterparts. This solves a known open problem in the theory of membrane systems.
%8 02/02/2009
%@ 978-84-613-2839-0