Cellular automaton (English Wikipedia)

Analysis of information sources in references of the Wikipedia article "Cellular automaton" in English language version.

refsWebsite

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35doi.org

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alvyray.com

Smith, Alvy Ray. "Cellular Automata Complexity Trade-Offs" (PDF).
Smith, Alvy Ray. "Simple Computation-Universal Cellular Spaces" (PDF).
Smith, Alvy Ray. "Simple Nontrivial Self-Reproducing Machines" (PDF).
Smith, Alvy Ray. "Introduction to and Survey of Cellular Automata or Polyautomata Theory" (PDF).

aps.org

journals.aps.org

Witten, T. A.; Sander, L. M. (9 November 1981). "Diffusion-Limited Aggregation, a Kinetic Critical Phenomenon". Physical Review Letters. 47 (19): 1400–1403. doi:10.1103/PhysRevLett.47.1400.

archive.org

Pickover, Clifford A. (2009). The Math Book: From Pythagoras to the 57th Dimension, 250 Milestones in the History of Mathematics. Sterling Publishing Company, Inc. p. 406. ISBN 978-1402757969.
Wolfram 2002, p. 876 Wolfram, Stephen (2002). A New Kind of Science. Wolfram Media. ISBN 978-1-57955-008-0.
von Neumann 1966 von Neumann, John (1966). Burks, Arthur W. (ed.). Theory of Self-Reproducing Automata. Urbana: University of Illinois Press.
Wolfram 2002, p. 880 Wolfram, Stephen (2002). A New Kind of Science. Wolfram Media. ISBN 978-1-57955-008-0.
Wolfram 2002, p. 881 Wolfram, Stephen (2002). A New Kind of Science. Wolfram Media. ISBN 978-1-57955-008-0.
Wolfram 2002, p. 231 Wolfram, Stephen (2002). A New Kind of Science. Wolfram Media. ISBN 978-1-57955-008-0.
Max Garzon (1995). Models of massive parallelism: analysis of cellular automata and neural networks. Springer. p. 149. ISBN 978-3-540-56149-1.
Wolfram 2002, p. 60 Wolfram, Stephen (2002). A New Kind of Science. Wolfram Media. ISBN 978-1-57955-008-0.

arxiv.org

Zenil, Hector (2010). "Compression-based investigation of the dynamical properties of cellular automata and other systems" (PDF). Complex Systems. 19 (1): 1–28. arXiv:0910.4042. doi:10.25088/ComplexSystems.19.1.1. S2CID 15364755.
Cappelli, Andrea; Zuber, Jean-Bernard (2010). "A-D-E Classification of Conformal Field Theories". Scholarpedia. 5 (4): 10314. arXiv:0911.3242. Bibcode:2010SchpJ...510314C. doi:10.4249/scholarpedia.10314. S2CID 18207779.

books.google.com

Toffoli, Tommaso; Margolus, Norman (1987). Cellular Automata Machines: A New Environment for Modeling. MIT Press. p. 27. ISBN 9780262200608.
Schiff, Joel L. (2011). Cellular Automata: A Discrete View of the World. Wiley & Sons, Inc. p. 40. ISBN 9781118030639.
G. Cattaneo; E. Formenti; L. Margara (1998). "Topological chaos and CA". In M. Delorme; J. Mazoyer (eds.). Cellular automata: a parallel model. Springer. p. 239. ISBN 978-0-7923-5493-2.
Burton H. Voorhees (1996). Computational analysis of one-dimensional cellular automata. World Scientific. p. 8. ISBN 978-981-02-2221-5.
Margenstern, Maurice (2007). Cellular Automata in Hyperbolic Spaces – Tome I, Volume 1. Archives contemporaines. p. 134. ISBN 978-2-84703-033-4.
Ilachinski, Andrew (2001). Cellular automata: a discrete universe. World Scientific. pp. 44–45. ISBN 978-981-238-183-5.

cmu.edu

web2.qatar.cmu.edu

Burraston, Dave, and Ernest Edmonds. "Cellular automata in generative electronic music and sonic art: a historical and technical review." Digital Creativity 16.3 (2005): 165-185.

complex-systems.com

Zenil, Hector (2010). "Compression-based investigation of the dynamical properties of cellular automata and other systems" (PDF). Complex Systems. 19 (1): 1–28. arXiv:0910.4042. doi:10.25088/ComplexSystems.19.1.1. S2CID 15364755.
Li, Wentian; Packard, Norman (1990). "The structure of the elementary cellular automata rule space" (PDF). Complex Systems. 4: 281–297. Retrieved 25 January 2013.
Nicolis (1974). "Dissipative Structures, Catastrophes, and Pattern Formation: A Bifurcation Analysis" (PDF). PNAS. 71 (7): 2748–2751. Bibcode:1974PNAS...71.2748N. doi:10.1073/pnas.71.7.2748. PMC 388547. PMID 16592170. Retrieved 25 March 2017.
Sutner, Klaus (1991). "De Bruijn Graphs and Linear Cellular Automata" (PDF). Complex Systems. 5: 19–30.

conwaylife.com

Nathaniel Johnston; et al. (21 August 2010). "Maze - LifeWiki". LifeWiki. Retrieved 1 March 2011.

cornell.edu

pages.physics.cornell.edu

Sethna, James P. (2008). Statistical Mechanics: Entropy, Order Parameters, and Complexity. Oxford University Press. ISBN 978-0-198-56677-9. OCLC 845714772.

dmtcs.org

Durand-Lose, Jérôme (2001). "Representing reversible cellular automata with reversible block cellular automata". Discrete Mathematics and Theoretical Computer Science. AA: 145–154. Archived from the original on 15 May 2011.

doi.org

Wolfram, Stephen (1983). "Statistical Mechanics of Cellular Automata". Reviews of Modern Physics. 55 (3): 601–644. Bibcode:1983RvMP...55..601W. doi:10.1103/RevModPhys.55.601. Archived from the original on 21 September 2013. Retrieved 28 February 2011.
Kemeny, John G. (1955). "Man viewed as a machine". Sci. Am. 192 (4): 58–67. Bibcode:1955SciAm.192d..58K. doi:10.1038/scientificamerican0455-58.; Sci. Am. 1955; 192:6 (errata).
Letichevskii, A. A.; Reshodko, L. V. (1974). "N. Wiener's theory of the activity of excitable media". Cybernetics. 8 (5): 856–864. doi:10.1007/bf01068458. S2CID 121306408.
Davidenko, J. M.; Pertsov, A. V.; Salomonsz, R.; Baxter, W.; Jalife, J. (1992). "Stationary and drifting spiral waves of excitation in isolated cardiac muscle". Nature. 355 (6358): 349–351. Bibcode:1992Natur.355..349D. doi:10.1038/355349a0. PMID 1731248. S2CID 4348759.
Hedlund, G. A. (1969). "Endomorphisms and automorphisms of the shift dynamical system". Math. Systems Theory. 3 (4): 320–3751. doi:10.1007/BF01691062. S2CID 21803927.
Gardner, Martin (1970). "Mathematical Games: The fantastic combinations of John Conway's new solitaire game "life"". Scientific American. 223 (4): 120–123. doi:10.1038/scientificamerican1070-120.
Mitchell, Melanie (4 October 2002). "Is the Universe a Universal Computer?". Science. 298 (5591): 65–68. doi:10.1126/science.1075073. S2CID 122484855.
Zenil, Hector (2010). "Compression-based investigation of the dynamical properties of cellular automata and other systems" (PDF). Complex Systems. 19 (1): 1–28. arXiv:0910.4042. doi:10.25088/ComplexSystems.19.1.1. S2CID 15364755.
Nicolis (1974). "Dissipative Structures, Catastrophes, and Pattern Formation: A Bifurcation Analysis" (PDF). PNAS. 71 (7): 2748–2751. Bibcode:1974PNAS...71.2748N. doi:10.1073/pnas.71.7.2748. PMC 388547. PMID 16592170. Retrieved 25 March 2017.
Richardson, D. (1972). "Tessellations with local transformations". J. Comput. Syst. Sci. 6 (5): 373–388. doi:10.1016/S0022-0000(72)80009-6.
Amoroso, Serafino; Patt, Yale N. (1972). "Decision Procedures for Surjectivity and Injectivity of Parallel Maps for Tessellation Structures". J. Comput. Syst. Sci. 6 (5): 448–464. doi:10.1016/s0022-0000(72)80013-8.
Kari, Jarkko (1990). "Reversibility of 2D cellular automata is undecidable". Physica D. 45 (1–3): 379–385. Bibcode:1990PhyD...45..379K. doi:10.1016/0167-2789(90)90195-U.
Kari, Jarkko (1999). "On the circuit depth of structurally reversible cellular automata". Fundamenta Informaticae. 38: 93–107. doi:10.3233/FI-1999-381208.
The phrase "life-like cellular automaton" dates back at least to Barral, Chaté & Manneville (1992), who used it in a broader sense to refer to outer totalistic automata, not necessarily of two dimensions. The more specific meaning given here was used e.g. in several chapters of Adamatzky (2010). See: Barral, Bernard; Chaté, Hugues; Manneville, Paul (1992). "Collective behaviors in a family of high-dimensional cellular automata". Physics Letters A. 163 (4): 279–285. Bibcode:1992PhLA..163..279B. doi:10.1016/0375-9601(92)91013-H. Adamatzky, Andrew, ed. (2010). Game of Life Cellular Automata. Springer. ISBN 978-1-84996-216-2.
Tomita, Kohji; Kurokawa, Haruhisa; Murata, Satoshi (2009). "Graph-Rewriting Automata as a Natural Extension of Cellular Automata". Adaptive Networks. Understanding Complex Systems. pp. 291–309. doi:10.1007/978-3-642-01284-6_14. ISBN 978-3-642-01283-9.
Giles, Jim (2002). "What Kind of Science is This?". Nature. 417 (6886): 216–218. Bibcode:2002Natur.417..216G. doi:10.1038/417216a. PMID 12015565. S2CID 10636328.
Wentian Li; Norman Packard; Chris G Langton (1990). "Transition phenomena in cellular automata rule space". Physica D. 45 (1–3): 77–94. Bibcode:1990PhyD...45...77L. CiteSeerX 10.1.1.15.2786. doi:10.1016/0167-2789(90)90175-O.
Peak, West; Messinger, Mott (2004). "Evidence for complex, collective dynamics and emergent, distributed computation in plants". Proceedings of the National Academy of Sciences. 101 (4): 918–922. Bibcode:2004PNAS..101..918P. doi:10.1073/pnas.0307811100. PMC 327117. PMID 14732685.
Ilina, Olga; Gritsenko, Pavlo G.; Syga, Simon; Lippoldt, Jürgen; La Porta, Caterina A. M.; Chepizhko, Oleksandr; Grosser, Steffen; Vullings, Manon; Bakker, Gert-Jan; Starruß, Jörn; Bult, Peter (September 2020). "Cell–cell adhesion and 3D matrix confinement determine jamming transitions in breast cancer invasion". Nature Cell Biology. 22 (9): 1103–1115. doi:10.1038/s41556-020-0552-6. ISSN 1465-7392. PMC 7502685. PMID 32839548.
Reher, David; Klink, Barbara; Deutsch, Andreas; Voss-Böhme, Anja (11 August 2017). "Cell adhesion heterogeneity reinforces tumour cell dissemination: novel insights from a mathematical model". Biology Direct. 12 (1): 18. doi:10.1186/s13062-017-0188-z. ISSN 1745-6150. PMC 5553611. PMID 28800767.
Hatzikirou, H.; Basanta, D.; Simon, M.; Schaller, K.; Deutsch, A. (1 March 2012). "'Go or Grow': the key to the emergence of invasion in tumour progression?". Mathematical Medicine and Biology. 29 (1): 49–65. doi:10.1093/imammb/dqq011. ISSN 1477-8599. PMID 20610469.
Gerhardt, M.; Schuster, H. (1989). "A cellular automaton describing the formation of spatially ordered structures in chemical systems". Physica D. 36 (3): 209–221. Bibcode:1989PhyD...36..209G. doi:10.1016/0167-2789(89)90081-x.
Witten, T. A.; Sander, L. M. (9 November 1981). "Diffusion-Limited Aggregation, a Kinetic Critical Phenomenon". Physical Review Letters. 47 (19): 1400–1403. doi:10.1103/PhysRevLett.47.1400.
Woodruff, D. P. (13 April 2015). "How does your crystal grow? A commentary on Burton, Cabrera and Frank (1951) 'The growth of crystals and the equilibrium structure of their surfaces'". Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences. 373 (2039): 20140230. doi:10.1098/rsta.2014.0230. PMC 4360084. PMID 25750141.
Goranova, D.; Rashkov, R.; Avdeev, G.; Tonchev, V. (1 September 2016). "Electrodeposition of Ni–Cu alloys at high current densities: details of the elements distribution". Journal of Materials Science. 51 (18): 8663–8673. doi:10.1007/s10853-016-0126-y. ISSN 1573-4803.
Cappelli, Andrea; Zuber, Jean-Bernard (2010). "A-D-E Classification of Conformal Field Theories". Scholarpedia. 5 (4): 10314. arXiv:0911.3242. Bibcode:2010SchpJ...510314C. doi:10.4249/scholarpedia.10314. S2CID 18207779.
F. Krzyżewski, M. Załuska-Kotur, A. Krasteva, H. Popova, and V. Tonchev, "Step bunching and macrostep formation in 1D atomistic scale model of unstable vicinal crystal growth," Journal of Crystal Growth 474, 135 (2017). DOI
O. Toktarbaiuly et al., "Step bunching with both directions of the current: Vicinal W(110) surfaces versus atomistic-scale model," Phys. Rev. B 97, 035436 (2018). DOI
F. Krzyżewski, M. Załuska-Kotur, A. Krasteva, H. Popova, and V. Tonchev, "Scaling and Dynamic Stability of Model Vicinal Surfaces," Crystal Growth & Design 19, 821 (2019). DOI
H. Popova, F. Krzyżewski, M. A. Załuska-Kotur, and V. Tonchev, "Quantifying the Effect of Step–Step Exclusion on Dynamically Unstable Vicinal Surfaces: Step Bunching without Macrostep Formation," Crystal Growth & Design 20, 7246 (2020). DOI
M. Załuska-Kotur, H. Popova, and V. Tonchev, "Step bunches, nanowires and other vicinal 'Creatures'—Ehrlich–Schwoebel effect by cellular automata," Crystals 11, 1135 (2021). DOI
A. V. Redkov, "Data science of the in silico crystallization," Acta Materialia 287, 120762 (2025). DOI
Tomassini, M.; Sipper, M.; Perrenoud, M. (2000). "On the generation of high-quality random numbers by two-dimensional cellular automata". IEEE Transactions on Computers. 49 (10): 1146–1151. doi:10.1109/12.888056. S2CID 10139169.
Chowdhury, D. Roy; Basu, S.; Gupta, I. Sen; Chaudhuri, P. Pal (June 1994). "Design of CAECC - cellular automata based error correcting code". IEEE Transactions on Computers. 43 (6): 759–764. doi:10.1109/12.286310.
Ashlock, Daniel; Kreitzer, Matthew (2020). "Evolving Diverse Cellular Automata Based Level Maps". Proceedings of 6th International Conference in Software Engineering for Defence Applications. Advances in Intelligent Systems and Computing. Vol. 925. pp. 10–23. doi:10.1007/978-3-030-14687-0_2. ISBN 978-3-030-14686-3. S2CID 85562837.

free-online.co.uk

igblan.free-online.co.uk

Paul Chapman. Life universal computer. http://www.igblan.free-online.co.uk/igblan/ca/ Archived 6 September 2009 at the Wayback Machine November 2002

harvard.edu

ui.adsabs.harvard.edu

Wolfram, Stephen (1983). "Statistical Mechanics of Cellular Automata". Reviews of Modern Physics. 55 (3): 601–644. Bibcode:1983RvMP...55..601W. doi:10.1103/RevModPhys.55.601. Archived from the original on 21 September 2013. Retrieved 28 February 2011.
Kemeny, John G. (1955). "Man viewed as a machine". Sci. Am. 192 (4): 58–67. Bibcode:1955SciAm.192d..58K. doi:10.1038/scientificamerican0455-58.; Sci. Am. 1955; 192:6 (errata).
Davidenko, J. M.; Pertsov, A. V.; Salomonsz, R.; Baxter, W.; Jalife, J. (1992). "Stationary and drifting spiral waves of excitation in isolated cardiac muscle". Nature. 355 (6358): 349–351. Bibcode:1992Natur.355..349D. doi:10.1038/355349a0. PMID 1731248. S2CID 4348759.
Nicolis (1974). "Dissipative Structures, Catastrophes, and Pattern Formation: A Bifurcation Analysis" (PDF). PNAS. 71 (7): 2748–2751. Bibcode:1974PNAS...71.2748N. doi:10.1073/pnas.71.7.2748. PMC 388547. PMID 16592170. Retrieved 25 March 2017.
Kari, Jarkko (1990). "Reversibility of 2D cellular automata is undecidable". Physica D. 45 (1–3): 379–385. Bibcode:1990PhyD...45..379K. doi:10.1016/0167-2789(90)90195-U.
The phrase "life-like cellular automaton" dates back at least to Barral, Chaté & Manneville (1992), who used it in a broader sense to refer to outer totalistic automata, not necessarily of two dimensions. The more specific meaning given here was used e.g. in several chapters of Adamatzky (2010). See: Barral, Bernard; Chaté, Hugues; Manneville, Paul (1992). "Collective behaviors in a family of high-dimensional cellular automata". Physics Letters A. 163 (4): 279–285. Bibcode:1992PhLA..163..279B. doi:10.1016/0375-9601(92)91013-H. Adamatzky, Andrew, ed. (2010). Game of Life Cellular Automata. Springer. ISBN 978-1-84996-216-2.
Giles, Jim (2002). "What Kind of Science is This?". Nature. 417 (6886): 216–218. Bibcode:2002Natur.417..216G. doi:10.1038/417216a. PMID 12015565. S2CID 10636328.
Wentian Li; Norman Packard; Chris G Langton (1990). "Transition phenomena in cellular automata rule space". Physica D. 45 (1–3): 77–94. Bibcode:1990PhyD...45...77L. CiteSeerX 10.1.1.15.2786. doi:10.1016/0167-2789(90)90175-O.
Peak, West; Messinger, Mott (2004). "Evidence for complex, collective dynamics and emergent, distributed computation in plants". Proceedings of the National Academy of Sciences. 101 (4): 918–922. Bibcode:2004PNAS..101..918P. doi:10.1073/pnas.0307811100. PMC 327117. PMID 14732685.
Gerhardt, M.; Schuster, H. (1989). "A cellular automaton describing the formation of spatially ordered structures in chemical systems". Physica D. 36 (3): 209–221. Bibcode:1989PhyD...36..209G. doi:10.1016/0167-2789(89)90081-x.
Cappelli, Andrea; Zuber, Jean-Bernard (2010). "A-D-E Classification of Conformal Field Theories". Scholarpedia. 5 (4): 10314. arXiv:0911.3242. Bibcode:2010SchpJ...510314C. doi:10.4249/scholarpedia.10314. S2CID 18207779.

ibiblio.org

Gardner, Martin (1970). "Mathematical Games: The fantastic combinations of John Conway's new solitaire game "life"". Scientific American. 223 (4): 120–123. doi:10.1038/scientificamerican1070-120.

newscientist.com

Jacob Aron. "First gliders navigate ever-changing Penrose universe". New Scientist.

nih.gov

pubmed.ncbi.nlm.nih.gov

Wiener, N.; Rosenblueth, A. (1946). "The mathematical formulation of the problem of conduction of impulses in a network of connected excitable elements, specifically in cardiac muscle". Arch. Inst. Cardiol. México. 16 (3): 205–65. PMID 20245817.
Davidenko, J. M.; Pertsov, A. V.; Salomonsz, R.; Baxter, W.; Jalife, J. (1992). "Stationary and drifting spiral waves of excitation in isolated cardiac muscle". Nature. 355 (6358): 349–351. Bibcode:1992Natur.355..349D. doi:10.1038/355349a0. PMID 1731248. S2CID 4348759.
Nicolis (1974). "Dissipative Structures, Catastrophes, and Pattern Formation: A Bifurcation Analysis" (PDF). PNAS. 71 (7): 2748–2751. Bibcode:1974PNAS...71.2748N. doi:10.1073/pnas.71.7.2748. PMC 388547. PMID 16592170. Retrieved 25 March 2017.
Giles, Jim (2002). "What Kind of Science is This?". Nature. 417 (6886): 216–218. Bibcode:2002Natur.417..216G. doi:10.1038/417216a. PMID 12015565. S2CID 10636328.
Peak, West; Messinger, Mott (2004). "Evidence for complex, collective dynamics and emergent, distributed computation in plants". Proceedings of the National Academy of Sciences. 101 (4): 918–922. Bibcode:2004PNAS..101..918P. doi:10.1073/pnas.0307811100. PMC 327117. PMID 14732685.
Ilina, Olga; Gritsenko, Pavlo G.; Syga, Simon; Lippoldt, Jürgen; La Porta, Caterina A. M.; Chepizhko, Oleksandr; Grosser, Steffen; Vullings, Manon; Bakker, Gert-Jan; Starruß, Jörn; Bult, Peter (September 2020). "Cell–cell adhesion and 3D matrix confinement determine jamming transitions in breast cancer invasion". Nature Cell Biology. 22 (9): 1103–1115. doi:10.1038/s41556-020-0552-6. ISSN 1465-7392. PMC 7502685. PMID 32839548.
Reher, David; Klink, Barbara; Deutsch, Andreas; Voss-Böhme, Anja (11 August 2017). "Cell adhesion heterogeneity reinforces tumour cell dissemination: novel insights from a mathematical model". Biology Direct. 12 (1): 18. doi:10.1186/s13062-017-0188-z. ISSN 1745-6150. PMC 5553611. PMID 28800767.
Hatzikirou, H.; Basanta, D.; Simon, M.; Schaller, K.; Deutsch, A. (1 March 2012). "'Go or Grow': the key to the emergence of invasion in tumour progression?". Mathematical Medicine and Biology. 29 (1): 49–65. doi:10.1093/imammb/dqq011. ISSN 1477-8599. PMID 20610469.
Woodruff, D. P. (13 April 2015). "How does your crystal grow? A commentary on Burton, Cabrera and Frank (1951) 'The growth of crystals and the equilibrium structure of their surfaces'". Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences. 373 (2039): 20140230. doi:10.1098/rsta.2014.0230. PMC 4360084. PMID 25750141.

ncbi.nlm.nih.gov

Nicolis (1974). "Dissipative Structures, Catastrophes, and Pattern Formation: A Bifurcation Analysis" (PDF). PNAS. 71 (7): 2748–2751. Bibcode:1974PNAS...71.2748N. doi:10.1073/pnas.71.7.2748. PMC 388547. PMID 16592170. Retrieved 25 March 2017.
Peak, West; Messinger, Mott (2004). "Evidence for complex, collective dynamics and emergent, distributed computation in plants". Proceedings of the National Academy of Sciences. 101 (4): 918–922. Bibcode:2004PNAS..101..918P. doi:10.1073/pnas.0307811100. PMC 327117. PMID 14732685.
Ilina, Olga; Gritsenko, Pavlo G.; Syga, Simon; Lippoldt, Jürgen; La Porta, Caterina A. M.; Chepizhko, Oleksandr; Grosser, Steffen; Vullings, Manon; Bakker, Gert-Jan; Starruß, Jörn; Bult, Peter (September 2020). "Cell–cell adhesion and 3D matrix confinement determine jamming transitions in breast cancer invasion". Nature Cell Biology. 22 (9): 1103–1115. doi:10.1038/s41556-020-0552-6. ISSN 1465-7392. PMC 7502685. PMID 32839548.
Reher, David; Klink, Barbara; Deutsch, Andreas; Voss-Böhme, Anja (11 August 2017). "Cell adhesion heterogeneity reinforces tumour cell dissemination: novel insights from a mathematical model". Biology Direct. 12 (1): 18. doi:10.1186/s13062-017-0188-z. ISSN 1745-6150. PMC 5553611. PMID 28800767.
Woodruff, D. P. (13 April 2015). "How does your crystal grow? A commentary on Burton, Cabrera and Frank (1951) 'The growth of crystals and the equilibrium structure of their surfaces'". Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences. 373 (2039): 20140230. doi:10.1098/rsta.2014.0230. PMC 4360084. PMID 25750141.

nott.ac.uk

maths.nott.ac.uk

Coombs, Stephen (15 February 2009), The Geometry and Pigmentation of Seashells (PDF), pp. 3–4, archived from the original (PDF) on 7 January 2013, retrieved 2 September 2012

nybooks.com

Weinberg, Steven (24 October 2002). "Is the Universe a Computer?". The New York Review of Books. 49 (16). Retrieved 12 October 2012.

oup.com

academic.oup.com

Hatzikirou, H.; Basanta, D.; Simon, M.; Schaller, K.; Deutsch, A. (1 March 2012). "'Go or Grow': the key to the emergence of invasion in tumour progression?". Mathematical Medicine and Biology. 29 (1): 49–65. doi:10.1093/imammb/dqq011. ISSN 1477-8599. PMID 20610469.

psu.edu

citeseerx.ist.psu.edu

Wentian Li; Norman Packard; Chris G Langton (1990). "Transition phenomena in cellular automata rule space". Physica D. 45 (1–3): 77–94. Bibcode:1990PhyD...45...77L. CiteSeerX 10.1.1.15.2786. doi:10.1016/0167-2789(90)90175-O.

royalsocietypublishing.org

Woodruff, D. P. (13 April 2015). "How does your crystal grow? A commentary on Burton, Cabrera and Frank (1951) 'The growth of crystals and the equilibrium structure of their surfaces'". Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences. 373 (2039): 20140230. doi:10.1098/rsta.2014.0230. PMC 4360084. PMID 25750141.

semanticscholar.org

api.semanticscholar.org

Letichevskii, A. A.; Reshodko, L. V. (1974). "N. Wiener's theory of the activity of excitable media". Cybernetics. 8 (5): 856–864. doi:10.1007/bf01068458. S2CID 121306408.
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