NKS Bibliography
Updates for Sept. 18, 2019

Though we list the papers as new here, they may be months old. NKS-related papers are added as we learn about them. If you know of a paper not listed within the full bibliographic list, please send the information to contact@wolframscience.com.



Acedo, L., E. Lamprianidou, J.-A. Morano, et al. “Firing Patterns in a Random Network Cellular Automata Model of the Brain.” Physica A: Statistical Mechanics and its Applications 435, (2015): 111-119. [ online version ]

Albantakis, L. and G. Tononi. “The Intrinsic Cause-Effect Power of Discrete Dynamical Systems—From Elementary Cellular Automata to Adapting Animats.” Entropy 17, no. 8 (2015): 5472-5502. [ online version ]

Aliu, O. G., M. Mehta, M. A. Imran, et al. “A New Cellular-Automata-Based Fractional Frequency Reuse Scheme.” IEEE Transactions on Vehicular Technology 64, no. 4 (2015): 1535-1547.
online version ]

Calvetti, D. and E. Somersalo. “Life Sciences through Mathematical Models.” Rendiconti Lincei: Scienze Fisiche e Naturali 26 (Suppl 2) (2015): 193-201. [ online version ]

Cassiano, K. K. and V. C. Barbosa. “Information Integration in Elementary Cellular Automata.” Journal of Cellular Automata 10, no. 3-4 (2015): 235-260.

Contreras, J. and M. Suter. “Mechanical Stability Model of Progradational Carbonate Platform Margins under Tectonic Loads: Deformation of Cretaceous Carbonate Platforms in the Sierra Madre Oriental Fold-Thrust Belt (East Central Mexico).” Journal of Geophysical Research: Solid Earth 120, no. 2 (2015): 1288-1308. [ online version ]

D’Alotto, L. “A Classification of One-Dimensional Cellular Automata Using Infinite Computations.” Applied Mathematics and Computation 255 (2015): 15-24. [ online version ]

DeAngelis, D. L. and S. Yurek. “Equation-Free Modeling Unravels the Behavior of Complex Ecological Systems.” Proceedings of the National Academy of Sciences of the United States of America 112, no. 13 (2015): 3856-3857. [ online version ]

Dodig-Crnkovic, G. “Alan Turing’s Legacy: Info-computational Philosophy of Nature.” In Computing Nature. Springer, 2013.

Ettestad, D. and J. Carbonara. “Extending the Sierpinski Property to All Cases in the Cups and Stones Counting Problem by Numbering the Stones.” Journal of Cellular Automata 10, no. 1-2 (2015): 23-51.

Fisher, P. S., J. Baek and H. Fisher. “APPMPS: An Asynchronous Parallel Plastic Multiprocessing System.” IEEE Systems Journal 9, no. 2 (2015): 382-392. [ online version ]

Forbes, A. G. “Interactive Cellular Automata Systems for Creative Projects.” In Cellular Automata in Image Processing and Geometry. Springer, 2014.

Garcia-Morales, V. “Substitution Systems and Nonextensive Statistics.” Physica A: Statistical Mechanics and Its Applications 440 (2015): 110-117. [ online version ]

Hernandez-Espinosa, A. and F. Hernandez-Quiroz. “Does the Principle of Computational Equivalence Overcome the Objections against Computationalism?” In Computing Nature. Springer, 2013.

Joosten, J. J., F. Soler-Toscano, and H. Zenil. “Fractal Dimension versus Process Complexity.” Advances in Mathematical Physics (2016): 1-21. [ online version ]

Kari, J. and S. Taati. “Statistical Mechanics of Surjective Cellular Automata.” Journal of Statistical Physics 160, no. 5 (2015): 1198-1243. [ online version ]

Krawczyk, M. J. “Classes of States of Discrete Systems.” International Journal of Modern Physics C 26, no. 11 (2015): 1550126. [ online version ]

Krawczyk, M. J. “New Aspects of Symmetry of Elementary Cellular Automata.” Chaos, Solitons & Fractals 78 (2015): 86-94. [ online version ]

Lui, L. T., G. Terrazas, H. Zenil, et al. “Complexity Measurement Based on Information Theory and Kolmogorov Complexity.” Artificial Life 21, no. 2 (2015): 205-224. [ online version ]

Mardiris, V. A., G. C. Sirakoulis and I. G. Karafyllidis. “Automated Design Architecture for 1-D Cellular Automata Using Quantum Cellular Automata.” IEEE Transactions on Computers 64, no. 9 (2015): 2476-2489. [ online version ]

Martin del Rey, A. “A Note on the Reversibility of the Elementary Cellular Automaton with Rule Number 90.” Revista de la Union Matematica Argentina 56, no. 1 (2015): 107-125.

Martin del Rey, A. and G. Rodriguez Sanchez. “Reversible Elementary Cellular Automaton with Rule Number 150 and Periodic Boundary Conditions over F-p.” International Journal of Modern Physics C 26, no. 11 (2015): 1550120. [ online version ]

Martins, C. L. M. and P. P. B. de Oliveira.”Merging Cellular Automata Rules to Optimise a Solution to the Modulo-n Problem.” Lecture Notes in Computer Science, Vol. 9099 (2015): 196-209.
online version ]

Mitra, A., A. Kundu, M. Chattopadhyay, et al. “An Analysis of Equal Length Cellular Automata (ELCA) Generating Linear Rules for Applications in Distributed Computing.” Journal of Cellular Automata 10, no. 1-2 (2015): 95-117.

Neary, T. and D. Woods. “Tag Systems and the Complexity of Simple Programs.” Lecture Notes in Computer Science, Vol. 9099 (2015): 11-16. [ online version ]

Oesterheld, C. “Formalizing Preference Utilitarianism in Physical World Models.” Synthese 193, no. 9 (2015): 2747-2759. [ online version ]

Riedel, J. and H. Zenil. “Cross-Boundary Behavioural Reprogrammability Reveals Evidence of Pervasive Turing Universality.” arXiv: cs.FL/1510.01671 (2017) [ online version ]

Rowland, E. and R. Yassawi. “A Characterization of p-Automatic Sequences as Columns of Linear Cellular Automata.” Advances in Applied Mathematics 63 (2015): 68-89. [ online version ]

Ruan, Y., A. Li and J. Huang. “Analytic Function of Local Rules of Elementary Cellular Automata.” Applied Mathematics and Computation 258 (2015): 404-409. [ online version ]

Severino, R., M. J. Soares and M. E. Athayde. “Homogeneous Dynamics for Square Boolean Automata with Null Boundary Conditions.” Computational Science and Its Applications—ICCSA 2014, Pt 1, Vol. 8579 (2014): 30-43.

Whitelaw, M. “Accretor: Generative Materiality in the Work of Driessens and Verstappen.” Artificial Life 21, no. 3 (2015): 307-312. [ online version ]

Zenil, H. “A Behavioural Foundation for Natural Computing and a Programmability Test.” In Computing Nature. Springer, 2015.