Bibliography for tag cs/cellular-automaton, most recent first: 72 annotations & 19 links (parent).
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Links
- “A Minimal Scenario for the Origin of Non-Equilibrium Order”, et al 2024
- “Emergence of Large-Scale Mechanical Spiral Waves in Bacterial Living Matter”, et al 2024
- “Classical Sorting Algorithms As a Model of Morphogenesis: Self-Sorting Arrays Reveal Unexpected Competencies in a Minimal Model of Basal Intelligence”, et al 2023
- “The Penrose Tiling Is a Quantum Error-Correcting Code”, 2023
- “Machine Learning Without a Processor: Emergent Learning in a Nonlinear Electronic Metamaterial”, et al 2023
- “Self-Replicating Hierarchical Structures Emerge in a Binary Cellular Automaton”, 2023
- “Flow-Lenia: Towards Open-Ended Evolution in Cellular Automata through Mass Conservation and Parameter Localization”, et al 2022
- “Grokking Phase Transitions in Learning Local Rules With Gradient Descent”, Žunkovič & 2022
- “Living Material Assembly of Bacteriogenic Protocells”, et al 2022b
- “Studying Growth With Neural Cellular Automata”, 2022
- “Variational Neural Cellular Automata”, et al 2022
- “Fundamental Behaviors Emerge from Simulations of a Living Minimal Cell”, et al 2022
- “Collective Intelligence for Deep Learning: A Survey of Recent Developments”, 2021
- “𝜇NCA: Texture Generation With Ultra-Compact Neural Cellular Automata”, 2021
- “Texture Generation With Neural Cellular Automata”, et al 2021
- “Synthetic Living Machines: A New Window on Life”, 2021
- “A Cellular Platform for the Development of Synthetic Living Machines”, et al 2021
- “Cells Form Into ‘Xenobots’ on Their Own: Embryonic Cells Can Self-Assemble into New Living Forms That Don’t Resemble the Bodies They Usually Generate, Challenging Old Ideas of What Defines an Organism”, 2021
- “Growing 3D Artefacts and Functional Machines With Neural Cellular Automata”, et al 2021
- “Nothing in Evolution Makes Sense except in the Light of Parasites”, et al 2021
- “Regenerating Soft Robots through Neural Cellular Automata”, et al 2021
- “An Antiviral Self-Replicating Molecular Heterotroph”, et al 2020
- “Conway’s Gradient of Life: Approximate Atavising With Differentiable Automata”, 2020
- “The Recursive Universe”, 2020
- “Growing Neural Cellular Automata: Differentiable Model of Morphogenesis”, et al 2020
- “Finding Mona Lisa in the Game of Life: Using a SAT Solver to Find Game of Life States That Turn into Pictures”, 2020
- “Intrinsically Motivated Discovery of Diverse Patterns in Self-Organizing Systems”, et al 2019
- “Going Critical”, 2019
- “Lenia—Biology of Artificial Life”, 2018
- “Cellular Automata As Convolutional Neural Networks”, 2018
- “The Simple Algorithm That Ants Use to Build Bridges”
- “Now What?”, 2018
- “Altering the Threshold of an Excitable Signal Transduction Network Changes Cell Migratory Modes”, et al 2017
- Advances in Physarum Machines: Sensing and Computing With Slime Mould, 2016
- “Is Spearman’s Law of Diminishing Returns (SLODR) Meaningful for Artificial Agents?”, Hernandez-2016
- “Life’s Information Hierarchy: The Explanation for the Complex, Multi-Scale Structure of Biological and Social Systems Lies in Their Manipulation of Space and Time to Reduce Uncertainty about the Future”, 2014
- “Mathematical Marbling”, et al 2011
- “The Complexity of Small Universal Turing Machines: a Survey”, 2011
- “Implications of the Turing Completeness of Reaction-Diffusion Models, Informed by GPGPU Simulations on an XBox 360: Cardiac Arrhythmias, Re-Entry and the Halting Problem”, 2009
- “Small Universal Turing Machines”, 2008
- “Complexity of Langton’s Ant”, et al 2003
- “Reliable Cellular Automata With Self-Organization”, 2000
- “Emergence of Self-Replicating Structures in a Cellular Automata Space”, 1997
- “Turing Patterns in CNNs, I: Once over Lightly”, et al 1995
- “Cellular Neural Networks: Theory”, 1988b
- “Cellular Neural Networks: Applications”, 1988
- “Studying Artificial Life With Cellular Automata”, 1986
- “The Determination of the Value of Rado’s Noncomputable Function Σ(𝑘) for Four-State Turing Machines”, 1983
- “The Next Industrial Revolution”, 1977
- “The Checkerboard Model of Social Interaction”, 1971
- “Artificial Living Plants: Proposed Here Is a Design for Self-Reproducing Machines That Would Be Harvested for the Materials from Which They Construct Themselves. They Might Prove More Feasible Than Spaceships and More Profitable”, 1956
- “DLA—Diffusion Limited Aggregation”
- “CSS3 Proven to Be Turing Complete”
- “Building a Working Game of Tetris in Conway’s Game of Life”
- “OTCA Metapixel”, 2024
- “29-Year-Old Conway Conjecture Settled”
- “Self-Classifying MNIST Digits”
- “Adversarial Reprogramming of Neural Cellular Automata”
- “Self-Organising Textures”
- “Computing in Dwarf Fortress”
- “Experimentations With Abstract Machines”
- “Grey-Area/rps-Automata”
- “From Brainfuck to Domino Computers: A Trip into Esoteric Languages, Turing Machines, Cellular Automata and the Nature of Computation”
- “Cirkoban: Sokoban Meets Cellular Automata Written in Scheme”
- “Tables of Soyga: the First Cellular Automaton?”
- “ControlNet Game of Life”
- “Is Bioelectricity the Key to Limb Regeneration?”
- “An Account of Electricity and the Body, Reviewed”
- “The Lasting Lessons of John Conway’s Game of Life”
- “The JPEG XL Image Format Has Demo Potential”
- “‘Amazing Science’: Researchers Find Xenobots Can Give Rise to Offspring Science”
- “Living Robots Made from Frog Cells Can Replicate Themselves in a Dish”
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