A (one dimensional) cellular automaton is a function1 F : Σ → Σ with the property that there is a K > 0 such that F (x)i depends only on the 2K + 1 coordinates xi−K , xi−K+1, . . . , xi−1, xi, xi+1, . . . , xi+K . A periodic point of σ is any x such that σ^p (x) = x for some p ∈ N, and a periodic point of F is any x such that F^q (x) = x for some q ∈ N. Given a cellular automaton F, a point x ∈ Σ is jointly periodic if there are p, q ∈ N such that σ^p (x) = F^q (x) = x, that is, it is a periodic point under both functions.
This project aims to explore the nature of one-dimensional Cellular Automata, in the hope of finding the structure of cellular automata through its periodic points.
License: MIT
ubuntu2004
Name | Size | Last Modified |
|---|---|---|
| 2023-10-28-archive-1.zip | 1.2 MB | 10/28/2023, 9:41:35 PM |
| 76 dfa const.png | 59.3 KB | 4/13/2023, 9:16:29 PM |
| ElementaryCA30Rules_750.svg | 13.8 KB | 2/28/2023, 3:22:50 PM |
| FINAL PAPER.pdf | 661.8 KB | 11/9/2023, 5:43:10 PM |
| FINAL PAPER.tex | 49.2 KB | 10/28/2023, 9:49:51 PM |
| rule116 contruction algo.png | 57.7 KB | 5/14/2023, 9:01:13 PM |
| rule76.1.png | 56.4 KB | 4/13/2023, 9:16:21 PM |
| rule76.2.png | 25.5 KB | 4/13/2023, 9:16:34 PM |
| rule76.3.png | 20.5 KB | 4/13/2023, 9:16:37 PM |
| rule_30_nfa.png | 28.3 KB | 4/13/2023, 11:05:01 PM |
| strongly connected components.png | 246.5 KB | 5/14/2023, 9:35:57 PM |
| surjca100.png | 23.4 KB | 5/14/2023, 10:01:58 PM |
| surjca20.png | 23.9 KB | 5/14/2023, 10:01:44 PM |
| surjca40.png | 23.9 KB | 5/14/2023, 10:01:48 PM |
| surjca60.png | 24.1 KB | 5/14/2023, 10:01:51 PM |
| surjca80.png | 24.3 KB | 5/14/2023, 10:01:55 PM |
| svg-inkscape/ | 1 item | 5/14/2023, 8:25:32 PM |
