Title :
Topological Entropy and Complexity of One Class of Cellular Automata Rules
Author :
Chen, FangFang ; Chen, Fangyue ; Jin, Weifeng ; Chen, Lin
Author_Institution :
Dept. of Math., Zhejiang Normal Univ., Jinhua
Abstract :
In this paper, some complex dynamics of one equivalence class of elementary cellular automata are characterized via symbolic dynamics on the space of bi-infinite symbolic sequences. By establishing a topologically conjugate relationship with a 2-order subshift of finite type of symbolic dynamical systems, it is rigorously proved that the four rules N=119, 63, 17, and 3 are topologically mixing on their global attractors. Meanwhile, it is shown that they are chaotic both in the sense of Li-Yorke and Devaney on their global attractors. Furthermore, the topological entropies of these rules on Sigma2 are computed.
Keywords :
cellular automata; computational complexity; entropy; bi-infinite symbolic sequences; cellular automata rules; symbolic dynamical systems; topological entropy; Boundary conditions; Chaos; Computer simulation; Entropy; Mathematics; Bernoulli shift; Cellular automata; attractor; symbolic dynamics; topological entropy;
Conference_Titel :
Young Computer Scientists, 2008. ICYCS 2008. The 9th International Conference for
Conference_Location :
Hunan
Print_ISBN :
978-0-7695-3398-8
Electronic_ISBN :
978-0-7695-3398-8
DOI :
10.1109/ICYCS.2008.193
