References

Amos, M. (2006). Genesis machines. Atlantic Books Ltd.
Anderson, P. (1962). Epilogue. In Analog: Science fact and science fiction (pp. 112–158). Condé Nast.
Angeline, P. J. (1998). A historical perspective on the evolution of executable structures. Fundamenta Informaticae, 35(1-4), 179–195.
Arbib, M. A. (1969). Self-reproducing automata—some implications for theoretical biology. In C. H. Waddington (Ed.), Towards a theoretical biology (Vol. 2, pp. 204–226). Edinburgh University Press.
Arbib, M. A. (1974). The likelihood of the evolution of communicating intelligences on other planets. Interstellar Communication: Scientific Perspectives, 59–78.
Arthur, W. B. (2009). The nature of technology: What it is and how it evolves. Free Press.
Asaro, P. M. (2008). From mechanisms of adaptation to intelligence amplifiers: The philosophy of W. Ross Ashby. In P. Husbands, O. Holland, & M. Wheeler (Eds.), The mechanical mind in history (pp. 149–184). MIT Press.
Ashby, W. R. (1962). The self-reproducing system. In C. A. Muses & W. S. McCulloch (Eds.), Aspects of the theory of artificial intelligence (the proceedings of the first international symposium on biosimulation, locarno, june 29–july 5, 1960) (pp. 9–18). Springer.
Asimov, I., Warrick, P. S., & Greenberg, M. H. (Eds.). (1983). Machines that think: The best science fiction stories about robots and computers. Holt, Rinehart; Winston.
Aspray, W., & Burks, A. (Eds.). (1987). Papers of John von Neumann on computing and computer theory. MIT Press.
Banzhaf, W., & McMullin, B. (2012). Artificial life. In G. Rozenberg, T. Bäck, & J. N. Kok (Eds.), Handbook of natural computing (pp. 1805–1834). Springer.
Banzhaf, W., & Yamamoto, L. (2015b). Artificial chemistries. MIT Press.
Banzhaf, W., & Yamamoto, L. (2015a). Artificial chemistries. MIT Press.
Barricelli, N. A. (1954). Esempi numerici di processi di evoluzione. Methodos, 6, 45–68.
Barricelli, N. A. (1957). Symbiogenetic evolution processes realized by artificial methods. Methodos, 9(35–36), 143–181.
Barricelli, N. A. (1959). Theory testing by numerical evolution experiments. Vanderbilt University.
Barricelli, N. A. (1962). Numerical testing of evolution theories. Part I. Theroetical introduction and basic tests. Acta Biotheoretica, XVI(1/2), 69–98.
Barricelli, N. A. (1963). Numerical testing of evolution theories. Part II. Preliminary tests of performance. Symbiogenesis and terrestrial life. Acta Biotheoretica, XVI(3/4), 99–126.
Barricelli, N. A. (1972). Numerical testing of evolution theories. Journal of Statistical Computation and Simulation, 1, 97–127.
Barricelli, N. A. (1987). Suggestions for the starting of numeric evolution processes to evolve symbioorganisms capable of developing a language and technology of their own. Theoretic Papers, 6(6), 119–146.
Barrow, J. D., & Tipler, F. J. (1986). The anthropic cosmological principle. Oxford University Press.
Bartlett, N. W., Tolley, M. T., Overvelde, J. T., Weaver, J. C., Mosadegh, B., Bertoldi, K., Whitesides, G. M., & Wood, R. J. (2015). A 3D-printed, functionally graded soft robot powered by combustion. Science, 349(6244), 161–165.
Basalla, G. (1988). The evolution of technology. Cambridge University Press.
Baugh, D., & McMullin, B. (2013). Evolution of G-P mapping in a von Neumann self-reproducer within Tierra. Advances in Artificial Life, ECAL 2013: Proceedings of the Twelfth European Conference on the Synthesis and Simulation of Living Systems, 210–217.
Baum, R. (2003). Nanotechnology: Drexler and Smalley make the case for and against “molecular assemblers.” Chemical & Engineering News, 81(48), 37–42.
Beauchamp, G. (1986). Technology in the dystopian novel. Modern Fiction Studies, 32(1), 53–63.
Bernal, J. D. (1951). The physical basis of life. Routledge; Kegan Paul.
Bernal, J. D. (1970). The world, the flesh and the devil: An enquiry into the future of the three enemies of the rational soul (2nd ed.). Jonathan Cape.
Bissette, A. J., & Fletcher, S. P. (2013). Mechanisms of autocatalysis. Angewandte Chemie International Edition, 52(49), 12800–12826.
Bongard, J., Zykov, V., & Lipson, H. (2006). Resilient machines through continuous self-modeling. Science, 314(5802), 1118–1121.
Bostrom, N. (2014). Superintelligence: Paths, dangers, strategies. Oxford University Press.
Bowyer, A. (2011). Self-reproducing machines and manufacturing processes. In Y. Bar-Cohen (Ed.), Biomimetics: Nature-based innovation (pp. 361–376). CRC Press.
Brantlinger, P. (2011). Taming cannibals: Race and the victorians. Cornell University Press.
Bratley, P., & Millo, J. (1972). Computer recreations: Self-reproducing programs. Software—Practice and Experience, 2(4), 397–400.
Breivik, J. (2001). Self-organization of template-replicating polymers and the spontaneous rise of genetic information. Entropy, 3(4), 273–279.
Brenner, S. (2001). My life in science. BioMed Central.
Brilmyer, S. P. (2014). The Natural History of My Inward Self”: Sensing character in George Eliot’s impressions of theophrastus such. PMLA, 129(1), 35–51.
Brodbeck, L., Hauser, S., & Iida, F. (2015). Morphological evolution of physical robots through model-free phenotype development. PloS One, 10(6), e0128444.
Brodbeck, L., & Iida, F. (2015). An extendible reconfigurable robot based on hot melt adhesives. Autonomous Robots, 39(1), 87–100.
Brown, A. (2005). J. D. Bernal: The sage of science. Oxford University Press.
Buckley, W. R. (2012). Computational ontogeny. In A. Rosa, A. Dourado, K. Madani, J. Filipe, & J. Kacprzyk (Eds.), Proceedings of the 4th international joint conference on computational intelligence (IJCCI 2012) (pp. 116–121). SciTePress.
Buckley, W. R. (2008). Computational ontogeny. Biological Theory, 3(1), 3–6.
Bullock, S. (2008). Charles Babbage and the emergence of automated reason. In P. Husbands, O. Holland, & M. Wheeler (Eds.), The mechanical mind in history (pp. 19–39). MIT Press.
Bulwer-Lytton, E. (1871). The coming race. William Blackwood; Sons.
Butler, S. (1862). Darwin on the Origin of Species. The Press.
Butler, S. (1863a). A first year in Canterbury Settlement. Longman, Green, Longman, Roberts; Green.
Butler, S. (1863b). Darwin Among the Machines. The Press.
Butler, S. (1865a). Lucubratio Ebria. The Press.
Butler, S. (1865b). The Mechanical Creation. In G. J. Holyoake (Ed.), The reasoner.
Butler, S. (1872). Erewhon. Trübner & Co.
Butler, S. (1912). The note-books of Samuel Butler. A. C. Fifield.
Butler, S. (1934). Further extracts from the note-books of samuel butler. Jonathan Cape.
Butler, S., & Butler, M. (1962). The correspondence of samuel butler with his sister may. University of California Press.
Butler, S., & Savage, E. M. A. (1935). Letters between samuel butler and miss e. M. A. Savage 1871–1885. Jonathan Cape.
Cahill, B. (1958). Geneticist says life-like “thing” could be created in test tube. Montreal Gazette, 23.
Calamy, E. (Ed.). (1838). The works of the rev. John howe, m.a.: Memoirs of his life: Vol. II (pp. 1059–1061). John P. Haven.
Campbell, J. W. (1932). The Last Evolution. Amazing Stories, 414–421.
Campbell, J. W. (1935). The Machine. Astounding Stories, 70–82.
Čapek, K. (1920). R.U.R. Rossum’s Universal Robots; kolektivní drama v vstupní komedii a tech aktech.
Čapek, K. (2008). Two plays by karel čapek: R. U. R. (Rossum’s universal robots) & the robber. Booksplendour Publishing.
Carter, R. B. (1991). Descartes’s bio-physics. In G. J. D. Moyal (Ed.), René Descartes: Critical assessments: Vol. IV (pp. 194–219). Routledge.
Case, J. (1974). Periodicity in generations of automata. Theory of Computing Systems, 8(1), 15–32.
Cave, S., Craig, C., Dihal, K. S., Dillon, S., Montgomery, J., Singler, B., & Taylor, L. (2018). Portrayals and perceptions of AI and why they matter. The Royal Society.
Churchill, W. (1931). Fifty years hence. Strand Magazine.
Ciofalo, M. (2006). Green grass, red blood, blueprint: Reflections on life, self-replication, and evolution. In J. A. Bryant, M. A. Atherton, & M. W. Collins (Eds.), Design and information in biology: From molecules to systems (Vol. 27, pp. 29–96). WIT Press.
Clarke, A. C. (1999). Greetings, carbon-based bipeds! A vision of the 20th century as it happened (collected essays 1934–1998). Voyager.
Cohen, J. (1966). Human robots in myth and science. George Allen & Unwin Ltd.
Collins, K. K. (1978). GHLewes revised: George Eliot and the moral sense. Victorian Studies, 21(4), 463–492.
Conrad, M., & Pattee, H. H. (1970). Evolution experiments with an artificial ecosystem. Journal of Theoretical Biology, 28, 393–409.
Cook, S. (2005). Minds, machines and economic agents: Cambridge receptions of Boole and Babbage. Studies in History and Philosophy of Science, 36, 331–350.
Copeland, J. B., & Proudfoot, D. (1999). Alan Turing’s forgotten ideas in computer science. Scientific American, 99–103.
Corry, B. (2008). Marshall, Alfred. In International encyclopedia of the social sciences. Thomson Gale.
Cottingham, J. (1991). A brute to the brutes? Descartes’s treatment of animals. In G. J. D. Moyal (Ed.), René Descartes: Critical assessments: Vol. IV (pp. 323–331). Routledge.
Črepinšek, M., Liu, S.-H., & Mernik, M. (2013). Exploration and exploitation in evolutionary algorithms: A survey. ACM Computing Surveys (CSUR), 45(3), 35.
Cully, A., Clune, J., Tarapore, D., & Mouret, J.-B. (2015). Robots that can adapt like animals. Nature, 521(7553), 503.
Darwin, C. (1859). On the origin of species by means of natural selection, or the preservation of favored races in the struggle for life. John Murray.
Darwin, E. (1794). Zoonomia: Or the laws of organic life. Joseph Johnson.
Dawkins, R. (1976). The selfish gene. Oxford University Press.
Dawkins, R. (1982). The extended phenotype. Oxford University Press.
Dean, C. (2007). ’55 Origin of Life” Paper is Retracted. New York Times.
Delvaux, M. (2017). Report with recommendations to the commission on civil law rules on robotics. A8-0005/2017. European Parliament Committee on Legal Affairs.
Denning, P. J. (1989). The science of computing: The internet worm. American Scientist, 77(2), 126–128.
Des Chene, D. (2000). Spirits and clocks: Machine and organism in descartes. Cornell University Press.
Dewar, H. (2021). Personal email communication.
Dewdney, A. K. (1984). Computer recreations: In a game called Core War hostile programs engage in a battle of bits. Scientific American, 250, 14–22.
Di Giulio, M. (2005). The origin of the genetic code: Theories and their relationships, a review. Biosystems, 80(2), 175–184.
Dick, P. K. (1953). Second Variety. Space Science Fiction, 102–144.
Dick, P. K. (1955). Autofac. Galaxy Science Fiction, 70–95.
Diderot, D. (1769). Entretien entre M. D’Alembert et M. Diderot (Conversation between d’Alembert and Diderot). In Le rêve d’alembert (d’alembert’s dream).
Disraeli, B. (1844). Coningsby: Or, the new generation. Henry Colburn.
Dneprov, A. (1958). Kraby Idut po Ostrovu. In Znanie sila.
Dneprov, A. (1968). Crabs on the Island. In The molecular cafe: Science-fiction stories. Mir.
Doolittle, T. (1673). The young man’s instructor and the old man’s remembrancer. Thomas Parkhurst.
Dorin, A., Korb, K., & Grimm, V. (2008). Artificial-life ecosystems: What are they and what could they become? In S. Bullock, J. Noble, R. A. Watson, & M. A. Bedau (Eds.), Proceedings of the eleventh international conference on artificial life (pp. 173–180). MIT Press.
Drexler, K. E. (1986). Engines of creation: The coming era of nanotechnology. Doubleday.
Duchesneau, F. (2014). The organism-mechanism relationship: An issue in the Leibniz-Stahl controversy. In O. Nachtomy & J. E. H. Smith (Eds.), The life sciences in early modern philosophy (pp. 98–114). Oxford University Press.
Dudbroke. (1903). The Prots: A Weird Romance. S. H. Bousfield & Co.
Duim, H., & Otto, S. (2017). Towards open-ended evolution in self-replicating molecular systems. Beilstein Journal of Organic Chemistry, 13(1), 1189–1203.
Dyson, F. (1979). Disturbing the universe. Harper & Row.
Dyson, G. (1997). Darwin among the machines. Addison-Wesley.
Dyson, G. (Vintage Books). Turing’s cathedral: The origins of the digital universe. 2012.
Eden, A. H., Moor, J. H., Søraker, J. H., & Steinhart, E. (Eds.). (2013). Singularity hypotheses: A scientific and philosophical assessment. Springer.
Eibisch, N. (2012). Eine Maschine baut eine Maschine baut eine Maschine …. Kultur & Technik (Das Magazin Aus Dem Deutschen Museum), 1, 48–51.
Eibisch, N. (2016). Selbstreproduzierende maschinen: Konrad zuses montagestraße SRS 72 und ihr kontext. Springer Vieweg.
Eliot, G. (1879). Impressions of theophrastus such: Essays and leaves from a note-book. William Blackwood & Sons.
Eliot, G. (1994). Impressions of theophrastus such. University of Iowa Press.
Ellery, A. (2017). Building physical self-replicating machines. In C. Knibbe, G. Beslon, D. Parsons, D. Misevic, J. Rouzaud-Cornabas, N. Bredèche, S. Hassas, O. Simonin, & H. Soula (Eds.), Proceedings of the 14th european conference on artificial life 2017 (ECAL 2017) (pp. 146–153). MIT Press.
Ellery, A. (2016). Are self-replicating machines feasible? Journal of Spacecraft and Rockets, 53(2), 317–327.
Etzler, J. A. (1833). The paradise within the reach of all men, without labor, by powers of nature and machinery. An address to all intelligent men. Etzler; Reinhold.
Etzler, J. A. (1841). The new world or mechanical system to perform the labours of man and beast by inanimate powers, that cost nothing, for producing and preparing the substances of life. C. F. Stollmeyer.
European Parliament. (2017). Civil law rules on robotics. P8_TA(2017)0051. Texts Adopted (Thursday, 16 February 2017 – Strasbourg). http://www.europarl.europa.eu/sides/getDoc.do?type=TA&reference=P8-TA-2017-0051&language=EN&ring=A8-2017-0005
Evans, A. B., Istvan Csicsery-Ronay Jr, I., Gordon, J., Hollinger, V., Latham, R., & McGuirk, C. (Eds.). (2010). The wesleyan anthology of science fiction. Wesleyan University Press.
Fancher, H., & Green, M. (2017). Blade Runner 2049. http://www.imdb.com/title/tt1856101/.
Farmer, J., & Belin, A. (1991). Artificial life: The coming evolution. In C. Langton, C. Taylor, J. Farmer, & S. Rasmussen (Eds.), Artificial life II: Vol. X. Addison-Wesley.
Festing Jones, H. (1919). Samuel butler, author of erewhon (1835–1902): A memoir (Vol. 1). Macmillan & Co.
Fogel, D. B. (1998). Evolutionary computation: The fossil record. IEEE Press.
Fogel, D. B. (2006). Nils Barricelli–artificial life, coevolution, self-adaptation. IEEE Computational Intelligence Magazine, 1(1), 41–45.
Fontenelle, B. L. B. de. (1752). Oeuvres de Monsieur de Fontenelle, des académies, françoise, des sciences, des belles-lettres, de londres, de nancy, de berlin, & de rome: Vol. I (pp. 321–323). Brunet.
Foresight Institute. (n.d.). Foresight guidelines for responsible nanotechnology development.
Forsdyke, D. R. (2006). Heredity as transmission of information: Butlerian “intelligent design.” Centaurus, 48, 133–148.
Forster, E. M. (1909). The Machine Stops. In The oxford and cambridge review.
Forster, E. M. (1951). A book that influenced me. In Two cheers for democracy. Edward Arnold.
Fouke, D. C. (1989). Mechanical and “organical” models in seventeenth-century explanations of biological reproduction. Science in Context, 3(2), 365–381.
Freitas Jr, R. A., & Gilbreath, W. P. (Eds.). (1982). Advanced automation for space missions: Proceedings of the 1980 NASA/ASEE summer study.
Freitas Jr, R. A., & Merkle, R. C. (2004). Kinematic self-replicating machines. Landes Bioscience.
Galloway, A. R. (2011). Creative evolution. Cabinet Magazine, 42, 45–50.
Galloway, A. R. (2012). The computational image of organization: Nils Aall Barricelli. Grey Room, 46, 26–45.
Gardner, M. (1958). Mathematical games: Concerning the game of nim and its mathematical analysis. Scientific American, 104–111.
Gaukroger, S. (2016). The natural and the human: Science and the shaping of modernity, 1739-1841. Oxford University Press.
Gillot, D. J. (2013). Authority, authorship, and lamarckian self-fashioning in the works of samuel butler [PhD thesis]. Birkbeck, University of London.
Gissis, S. B., & Jablonka, E. (2011). Transformations of Lamarckism: From subtle fluids to molecular biology. MIT Press.
Gray, A. (1860). Darwin on the origin of species. The Atlantic Monthly, 6(33), 109–116.
Gray, A. (1861). Natural selection not inconsistent with natural theology. A free examination of darwin’s treatise on the origin of species, and of its american reviewers. Trübner & Co.
Griesemer, J. (2001). The units of evolutionary transition. Selection, 1(1-3), 67–80.
Griffiths, S., Goldwater, D., & Jacobson, J. M. (2005). Self-replication from random parts. Nature, 437, 636.
Hackett, R. (2014). Meet the father of digital life. Nautilus magazine (web publication).
Haight, G. S. (1968). George Eliot: A biography. Oxford University Press.
Hale, M. F., Buchanan, E., Winfield, A. F., Timmis, J., Hart, E., Eiben, A. E., Angus, M., Veenstra, F., Li, W., Woolley, R., De Carlo, M., & Tyrrell, A. M. (2019). The ARE robot fabricator: How to (re)produce robots that can evolve in the real world. In H. Fellermann, J. Bacardit, Á. Goñi-Moreno, & R. M. Füchslin (Eds.), The 2019 conference on artificial life (pp. 95–102). MIT Press. https://doi.org/10.1162/isal\_a\_00147
Hall, A. W. (1891). Direct creation versus spontaneous generation and natural selection. The Microcosm, 8(11), 161–166.
Hamilton, E. (1926). The Metal Giants. Weird Tales, 724–738, 860–863.
Harari, Y. N. (2015). Homo deus: A brief history of tomorrow. Harvill Secker.
Harman, O. (2010). The Price of Altruism: George Price and the search for the origins of kindness. The Bodley Head.
Harris, H. (1973). Lionel Sharples Penrose. 1898–1972. Biographical Memoirs of Fellows of the Royal Society, 19, 521–561.
Hasegawa, T., & McMullin, B. (2013). Exploring the point-mutation space of a von Neumann self-reproducer within the Avida world. Advances in Artificial Life, ECAL 2013: Proceedings of the Twelfth European Conference on the Synthesis and Simulation of Living Systems, 316–323.
Hasse, H. (1936). He Who Shrank. Amazing Stories, 13–56.
Henkin, L. J. (1940). Darwinism in the english novel 1860–1910. Corporate Press Inc.
Hey, T., & Pápay, G. (2014). The computing universe: A journey through the revolution. Cambridge University Press.
Hiller, J., & Lipson, H. (2012). Automatic design and manufacture of soft robots. IEEE Transactions on Robotics, 28(2), 457–466.
Hobbes, T. (1651). Leviathan: Or, the matter, forme and power of a common wealth ecclesiasticall and civil. Andrew Crooke.
Hochberg, M. E., Marquet, P. A., Boyd, R., & Wagner, A. (2017). Innovation: An emerging focus from cells to societies. Philosophical Transactions of the Royal Society of London B: Biological Sciences, 372(1735). https://doi.org/10.1098/rstb.2016.0414
Hodgson, G. M. (1993). The Mecca of Alfred Marshall. The Economic Journal, 103, 406–415.
Hofstadter, D. (1979). Gödel, Escher, Bach: An eternal golden braid. Basic Books.
Holloway, D. (1974). Innovation in science—the case of cybernetics in the Soviet Union. Science Studies, 4(4), 299–337.
Holmes, K. C. (2006). The life of a sage. Nature, 440, 149–150.
Holt, L. E. (1989). Samuel butler (Revised). Twayne Publishers.
Howard, D., Eiben, A. E., Kennedy, D. F., Mouret, J.-B., Valencia, P., & Winkler, D. (2019). Evolving embodied intelligence from materials to machines. Nature Machine Intelligence, 1(1), 12.
Hoyle, F. (1983). The intelligent universe: A new view of creation and evolution. Holt, Rinehart; Winston.
Hugi, M. G. (1941). The Mechanical Mice. Astounding Science Fiction, 54–72.
Ingham, J. L. (2010). Into your tent: The life, work and family background of Eric Frank Russell. Plantech.
Jablonka, E., & Lamb, M. J. (2005). Evolution in four dimensions: Genetic, epigenetic, behavioral, and symbolic variation in the history of life. MIT Press.
Jacobson, H. (1955). Information, reproduction and the origin of life. American Scientist, 43(1), 119–127.
Jacobson, H. (1958). On models of reproduction. American Scientist, 46(3), 255–284.
Jacobson, H. (2007). No time like the present. American Scientist, 95(6), 468.
Jantzen, B. C. (2014). An introduction to design arguments. Cambridge University Press.
Johannesson, O. (1966). Sagan om den Stora Datamaskinen. Albert Bonniers Förlag.
Johnson, R. D., & Holbrow, C. (1977). Space settlements: A design study. NASA.
Johnston, J. (2008). The allure of machinic life: Cybernetics, artificial life, and the new AI. MIT Press.
Kabamba, P. T., Owens, P. D., & Ulsoy, A. G. (2011). The von Neumann threshold of self-reproducing systems: Theory and application. Robotica, 29(1), 123–135.
Kampis, G. (1991). Self-modifying systems in biology and cognitive science: A new framework for dynamics, information and complexity (Vol. 6). Pergamon Press.
Kang, M. (2011). Sublime dreams of living machines: The automaton in the european imagination. Harvard University Press.
Karinthy, F. (1916). Utazás Faremidóba: Gulliver ötödik útja. Athenaeum.
Karinthy, F. (1978). Voyage to Faremido; Capillaria. New English Library.
Kauffman, S. A. (1986). Autocatalytic sets of proteins. Journal of Theoretical Biology, 119(1), 1–24.
Kelleam, J. E. (1939). Rust. Astounding Science Fiction, 133–140.
Kemeny, J. G. (1955). Man viewed as a machine. Scientific American, 192(4), 58–67.
Khoo, Z. X., Teoh, J. E. M., Liu, Y., Chua, C. K., Yang, S., An, J., Leong, K. F., & Yeong, W. Y. (2015). 3D printing of smart materials: A review on recent progresses in 4D printing. Virtual and Physical Prototyping, 10(3), 103–122.
King-Hele, D. (2005). Designing better steering for carriages (and cars); with a glance at other investions. In C. U. M. Smith & R. Arnott (Eds.), The genius of erasmus darwin (pp. 197–216). Ashgate.
Knoepflmacher, U. C. (1965). Religious humanism and the victorian novel: George eliot, walter pater and samuel butler. Princeton University Press.
Kolmogorov, A. N. (1961). Automata and life (abstract of a paper read at the Methodological Seminar of the Faculty of Mechanics and Mathematics of Moscow State University of 5 April 1961). Machine Translation and Applied Linguistics (Mashinnyy Perevod i Prikladnaya Lingvistika), 6, 3–8.
Kolmogorov, A. N. (1962). Automatons and living beings. In Foreign developments in machine translation and information processing (Vol. 95, pp. 1–4). U.S. Department of Commerce, Office of Technical Services, Joint Publications Research Service.
Kolmogorov, A. N. (1964). Life and thinking as special forms of the existence of matter. In G. M. Frank & A. M. Kuzin (Eds.), On the essence of life (pp. 48–57). Science (Nauka).
Kolmogorov, A. N. (1968). Automata and life. In A. I. Berg, E. Kolman, & V. D. Pekelis (Eds.), Cybernetics expected and cybernetics unexpected (kibernetika ozhidaemaya i kibernetika neozhidannaya) (pp. 12–31). Science (Nauka).
Kolmogorov, A. N. (1972). Life and thinking as special forms of the existence of matter. In B. P. Konstantinov & V. D. Pekelis (Eds.), Inhabited space (naselennyy kosmos) (pp. 27–32). Science (Nauka).
Kolmogorov, A. N. (1975). Life and thinking as special forms of the existence of matter. In Inhabited space (part one) (pp. 31–36). NASA Technical Translation.
Koonin, E. V., & Novozhilov, A. S. (2009). Origin and evolution of the genetic code: The universal enigma. IUBMB Life, 61(2), 99–111.
Korb, K. B., & Dorin, A. (2011). Evolution unbound: Releasing the arrow of complexity. Biology & Philosophy, 26(3), 317–338. https://doi.org/10.1007/s10539-011-9254-6
Kozo-Polyanski, B. M. (1924). Novyi printzip biologii. Ocherk teorii simbiogeneza. Puchina.
Kozo-Polyanski, B. M., Fet, V., & Margulis, L. (2010). Symbiogenesis: A new principle of evolution. Harvard University Press.
Kraus, J. (1980). Selbstreproduzierende programme [Master’s thesis]. University of Dortmund.
Kurzweil, R. (2005). The singularity is near: When humans transcend biology. Penguin.
Kushner, D. (2013). The real story of Stuxnet. IEEE Spectrum, 50(3), 48–53.
La Mettrie, J. O. de. (1747). L’homme machine.
Laing, R. (1989). Artificial organisms: History, problems, directions. In C. G. Langton (Ed.), Artificial life: The proceedings of an interdisciplinary workshop on the synthesis and simulation of living systems (september 1987): Vol. VI (pp. 49–61). Addison-Wesley.
Laing, R. (1975). Some alternative reproductive strategies in artificial molecular machines. Journal of Theoretical Biology, 54(1), 63–84.
Laing, R. (1977). Automaton models of reproduction by self-inspection. Journal of Theoretical Biology, 66(3), 437–456.
Laing, R. A. (1977). Automaton self-reference [PhD thesis]. State University of New York at Binghamton.
Laland, K. N., Uller, T., Feldman, M. W., Sterelny, K., Müller, G. B., Moczek, A., Jablonka, E., & Odling-Smee, J. (2015). The extended evolutionary synthesis: Its structure, assumptions and predictions. Proceedings of the Royal Society of London B: Biological Sciences, 282(1813). https://doi.org/10.1098/rspb.2015.1019
Landon, B. (2008). Computers in science fiction. In J. Gunn, M. S. Barr, & M. Candelaria (Eds.), Reading science fiction. Palgrave Macmillan.
Langford, W., Ghassaei, A., Jenett, B., & Gershenfeld, N. (2017). Hierarchical assembly of a self-replicating spacecraft. 2017 IEEE Aerospace Conference, 1–10.
Langton, C. G. (1989a). Artificial life. In C. G. Langton (Ed.), Artificial life: The proceedings of an interdisciplinary workshop on the synthesis and simulation of living systems (pp. 1–47). Addison-Wesley.
Langton, C. G. (Ed.). (1989b). Artificial life: Proceedings of an interdisciplinary workshop on the synthesis and simulation of living systems. Addison-Wesley Longman Publishing Co.
Lee, J.-Y., An, J., & Chua, C. K. (2017). Fundamentals and applications of 3D printing for novel materials. Applied Materials Today, 7, 120–133.
Lem, S. (1973). The Invincible. Seabury Press, Inc.
Levin, S. R., Scott, T. W., Cooper, H. S., & West, S. A. (2019). Darwin’s aliens. International Journal of Astrobiology, 18(1), 1–9. https://doi.org/10.1017/S1473550417000362
Levy, S. (1992). Artificial life: The quest for a new creation. Pantheon Books.
Lewes, G. H. (1877). The physical basis of mind (Vol. 2). Trübner & Co.
Lipson, H., & Pollack, J. B. (2000). Automatic design and manufacture of robotic lifeforms. Nature, 406(6799), 974–978.
Loudon, C.-M., Nicholson, N., Finster, K., Leys, N., Byloos, B., Van Houdt, R., Rettberg, P., Moeller, R., Fuchs, F. M., Demets, R., Krause, J., Vukich, M., Mariani, A., & Cockell, C. (2018). BioRock: New experiments and hardware to investigate microbe–mineral interactions in space. International Journal of Astrobiology, 17(4), 303–313. https://doi.org/10.1017/S1473550417000234
Lough, J. (Ed.). (1953). Diderot: Selected philosophical writings. Cambridge University Press.
Lucas, G., & Hales, J. (2002). Star Wars: Episode II Attack of the Clones. http://www.imdb.com/title/tt0121765/quotes/qt0414984.
MacCurdy, R., Katzschmann, R., Kim, Y., & Rus, D. (2016). Printable hydraulics: A method for fabricating robots by 3D co-printing solids and liquids. Robotics and Automation (ICRA), 2016 IEEE International Conference on, 3878–3885.
Macmurray, J. (1956). The self as agent: Being the Gifford Lectures delivered in the University of Glasgow in 1953. Faber; Faber.
Mange, D., Sipper, M., Stauffer, A., & Tempesti, G. (2000). Towards robust integrated circuits: The embryonics approach. Proceedings of the IEEE, 88(4), 516–543.
Manning, L. (1933). The Call of the Mech-Men. Wonder Stories, 366–385.
Marshall, A. (1961). The principles of economics (9th (Variorum)). Macmillan.
Maturana, H. R., & Varela, F. J. (1972). Autopoiesis and cognition: The realization of the living. D. Reidel.
Maynard Smith, J., & Szathmáry, E. (1995). The major transitions in evolution. W.H. Freeman.
Mayor, A. (2018). Gods and robots: Myths, machines, and ancient dreams of technology. Princeton University Press.
Mazlish, B. (1993). The fourth discontinuity: The co-evolution of humans and machines. Yale University Press.
McIntyre, J. E. (2021). “Contrivances for superseding all human labour”: The work-abolitionist experiments of John Adolphus Etzler and their significance for contemporary post-work politics [PhD thesis]. Loughborough University.
McMullin, B. (2000). John von Neumann and the evolutionary growth of complexity: Looking backward, looking forward…. Artificial Life, 6(4), 347–361.
Menabrea, L. F. (1843). Sketch of the analytical engine invented by charles babbage (with notes by the translator). Richard; John E. Taylor.
Mesoudi, A. (2017). Pursuing Darwin’s curious parallel: Prospects for a science of cultural evolution. PNAS, 114(30), 7853–7860.
Metzger, P. T., Muscatello, A., Mueller, R. P., & Mantovani, J. (2013). Affordable, rapid bootstrapping of the space industry and solar system civilization. Journal of Aerospace Engineering, 26(1), 18–29.
Mitchell, M. (1996). An introduction to genetic algorithms. MIT Press.
Moore, C. L., & Kuttner, H. (1955). Two-Handed Engine. Magazine of Fantasy and Science Fiction.
Moore, E. F. (1956). Artificial living plants. Scientific American, 118–126.
Moravec, H. (1988). Mind children: The future of robot and human intelligence. Harvard University Press.
Moravia, S. (1978). From homme machine to homme sensible: Changing eighteenth-century models of man’s image. Journal of the History of Ideas, 39(1), 45–60.
Morowitz, H. J. (1959). A model of reproduction. American Scientist, 47(2), 261–263.
Moses, M. S., & Chirikjian, G. S. (2020). Robotic self-replication. Annual Review of Control, Robotics, and Autonomous Systems, 3, 5.1–5.24.
Musk, E. (2016). Address at Tesla Annual Shareholder Meeting.
Nachtomy, O., & Smith, J. E. H. (2014). Introduction. In O. Nachtomy & J. E. H. Smith (Eds.), The life sciences in early modern philosophy (pp. 1–28). Oxford University Press.
National Science and Technology Council Committee on Technology. (2016). Preparing for the future of artificial intelligence. Executive Office of the President, United States of America.
Needham, J., & Hughes, A. (1959). The history of embryology (2nd ed.). Cambridge University Press.
Nevejans, N. (2016). European civil law rules in robotics. PE 571.379. European Parliament Policy Department C: Citizens’ Rights and Constitutional Affairs.
Nieuwentyt, B. (1718). The religious philosopher: Or, the right use of contemplating the works of the creator. J. Senex; W. Taylor.
O’Neill, G. K. (1977). The high frontier: Human colonies in space. Jonathan Cape.
Odling-Smee, F. J., Laland, K. N., & Feldman, M. W. (2003). Niche construction: The neglected process in evolution. Princeton University Press.
Ofria, C., & Wilke, C. O. (2004). Avida: A Software Platform for Research in Computational Evolutionary Biology. Artificial Life, 10(2), 191–229. https://doi.org/10.1162/106454604773563612
Olson, S. J. (2015). Homogeneous cosmology with aggressively expanding civilizations. Classical and Quantum Gravity, 32(21), 215025.
Ortega y Gasset, J. (1941). Toward a philosophy of history. W. W. Norton & Co.
Ortega y Gasset, J. (1946). Obras completas: Vol. II (pp. 607–624). Revista de Occidente.
Ostwald, W. (1910). Machines and living creatures: Lifeless and living transformers of energy. Scientific American Supplement, 70(1803supp), 55. https://doi.org/10.1038/scientificamerican07231910-55supp
Packard, N., Bedau, M. A., Channon, A., Ikegami, T., Rasmussen, S., Stanley, K. O., & Taylor, T. (2019). An overview of open-ended evolution: Editorial introduction to the open-ended evolution II special issue. Artificial Life, 25(2), 93–103. https://doi.org/10.1162/artl\_a\_00291
Page, M. R. (2012). The literary imagination from erasmus darwin to h. G. Wells: Science, evolution, and ecology. Ashgate Publishing Ltd.
Paley, W. (1802). Natural theology: Or evidences of the existence and attributes of the deity, collected from the appearances of nature. R. Faulder.
Pask, G. (1961). An approach to cybernetics. Hutchinson.
Pattee, H. H. (1995a). Artificial life needs a real epistemology. In F. Morán, A. Moreno, J. J. Merelo, & P. Chacón (Eds.), Advances in artificial life: Third european conference on artificial life (pp. 23–38). Springer.
Pattee, H. H. (1995b). Evolving self-reference: Matter, symbols, and semantic closure. Communication and Cognition—Artificial Intelligence, 12(1–2), 9–28.
Pearl, R. (1922). The biology of death. J. B. Lippincott Co.
Penrose, L. S. (1958). Mechanics of self-reproduction. Annals of Human Genetics, 23(1), 59–72.
Penrose, L. S. (1959). Self-reproducing machines. Scientific American, 105–114.
Penrose, L. S. (1960). A theory of DNA replication. Annals of Human Genetics, 24, 359–366.
Penrose, L. S. (1962). On living matter and self-replication. In I. J. Good (Ed.), The scientist speculates: An anthology of partly-baked ideas (pp. 258–271). Heinemann.
Penrose, L. S., & Penrose, R. (1957). A self-reproducing analogue. Nature, 4571, 1183.
Pesavento, U. (1995). An implementation of von Neumann’s self-reproducing machine. Artificial Life, 2(4), 337–354.
Poundstone, W. (1985). The recursive universe: Cosmic complexity and the limits of scientific knowledge. William Morrow.
Price, G. R. (1957). The Maker of Machines. Computers and Automation.
Raffaelli, T. (1994a). The early philosophical writings of Alfred Marshall. Part I: Marshall’s analysis of the human mind. Research in the History of Economic Thought and Methodology, Archival Supplement 4, 55–93.
Raffaelli, T. (1994b). The early philosophical writings of Alfred Marshall. Part II: Marshall’s papers. Research in the History of Economic Thought and Methodology, Archival Supplement 4, 95–159.
Rasmussen, S., Bedau, M. A., Chen, L., Deamer, D., Krakauer, D. C., Packard, N. H., & Stadler, P. F. (Eds.). (2008). Protocells: Bridging nonliving and living matter. MIT Press.
Rasmussen, S., Knudsen, C., Feldberg, R., & Hindsholm, M. (1990). The Coreworld: Emergence and evolution of cooperative structures in a computational chemistry. Physica D: Nonlinear Phenomena, 42(1-3), 111–134.
Ray, L. del. (1944). Though Dreamers Die. Astounding Science Fiction, 34–51.
Ray, T. S. (1991). An approach to the synthesis of life. In C. G. Langton, C. Taylor, J. D. Farmer, & S. Rasmussen (Eds.), Artificial life II: Vol. X (pp. 371–408). Addison-Wesley.
Redfield, M. (1996). Phantom formations: Aesthetic ideology and the bildungsroman. Cornell University Press.
Reed, J., Toombs, R., & Barricelli, N. A. (1967). Simulation of biological evolution and machine learning: I. Selection of self-reproducing numeric patterns by data processing machines, effects of hereditary control, mutation type and crossing. Journal of Theoretical Biology, 17(3), 319–342.
Reggia, J. A., Chou, H.-H., & Lohn, J. D. (1998). Cellular automata models of self-replicating systems. In Advances in computers (Vol. 47, pp. 141–183). Elsevier.
Reggia, J. A., Lohn, J. D., & Chou, H.-H. (1998). Self-replicating structures: Evolution, emergence, and computation. Artificial Life, 4(3), 283–302.
Rieffel, J., Knox, D., Smith, S., & Trimmer, B. (2014). Growing and evolving soft robots. Artificial Life, 20(1), 143–162.
Risak, V. (1972). Selbstreproduzierende automaten mit minimaler informationsübertragung. E Und M: Elektrotechnik Und Maschinenbau, 450–457.
Riskin, J. (2016). The restless clock: A history of the centuries-long argument over what makes living things tick. University of Chicago Press.
Roberts, S. (2018). From Homer to HAL: 3,000 years of AI narratives. Research Horizons, 35, 28–29.
Robinson, R. (n.d.). Butler, Samuel. In Dictionary of new zealand biography. Te ara – the encyclopedia of new zealand.
Roe, S. A. (1981). Matter, life, and generation: Eighteenth-century embryology and the Haller-Wolff debate. Cambridge University Press.
Rothschild, L. J., Maurer, C., Paulino Lima, I. G., Senesky, D., Wipat, A., & Head III, J. (2019). Myco-architecture off planet: Growing surface structures at destination (HQ-E-DAA-TN66707). NASA.
Russell, S., Dewey, D., & Tegmark, M. (2015). Research priorities for robust and beneficial artificial intelligence. AI Magazine, 36(4), 105–114.
Saberhagen, F. (1967b). Berserker. Ballantine Books.
Saberhagen, F. (1967a). Berserker. Ballantine Books.
Sagan, C. (1963). Direct contact among galactic civilizations by relativistic interstellar spaceflight. Planetary And Space Science, 11(5), 485–498.
Science and Technology Committee. (2016). Robotics and artificial intelligence. HC 145. Published on 12 October 2016 by authority of the House of Commons.
Shanahan, M. (2015). The technological singularity. MIT Press.
Sheckley, R. (1955). The Necessary Thing. Galaxy Science Fiction, 55–66.
Shelley, M. (1818). Frankenstein; or, the modern prometheus. Lackington, Hughes, Harding, Mavor; Jones.
Shulman, C., & Bostrom, N. (2012). How hard is artificial intelligence? Evolutionary arguments and selection effects. Journal of Consciousness Studies, 19(7-8), 103–130.
Sipper, M. (1998). Fifty years of research on self-replication: An overview. Artificial Life, 4(3), 237–257.
Sipper, M., & Reggia, J. A. (2001). Go forth and replicate. Scientific American, 35–43.
Sladek, J. (1968). The reproductive system. Victor Gollancz.
Smith, J. J., Johnson, W. R., Lark, A. M., Mead, L. S., Wiser, M. J., & Pennock, R. T. (2016). An Avida-ED digital evolution curriculum for undergraduate biology. Evolution: Education and Outreach, 9(1), 9.
Snyder, L. J. (2011). The philosophical breakfast club: Four remarkable friends who transformed science and changed the world. Broadway Books.
Solla Price, D. J. de. (1964). Automata and the origins of mechanism and mechanistic philosophy. Technology and Culture, 5(1), 9–23.
Spafford, E. H. (1994). Computer viruses as artificial life. Artificial Life, 1(3), 249–265.
Stahl, F. G. (2013). 1960 — The First Artificial Universe: Complex Artificial Life in a Darwinian World. The Computer History Museum.
Stahl, F. G. (2020). Personal email communication.
Stahl, W. R. (1965). Self-reproducing automata. Perspectives in Biology and Medicine, 8(3), 373–393.
Stahl, W. R. (1967). A computer model of cellular self-reproduction. Journal of Theoretical Biology, 14(2), 187–205.
Stanley, K. O., Lehman, J., & Soros, L. (2017). Open-endedness: The last grand challenge you’ve never heard of. O’Reilly Radar blog.
Stapledon, O. (1937). Star maker. Methuen & Co.
Stapledon, O. (1999a). First and last men (SF Masterworks). Millennium.
Stapledon, O. (1999b). Star maker (SF Masterworks). Millennium.
Stoll, S. (2008). The great delusion: A mad inventor, death in the tropics, and the utopian origins of economic growth. Hill; Wang.
Suthakorn, J., Cushing, A. B., & Chirikjian, G. S. (2003). An autonomous self-replicating robotic system. Advanced Intelligent Mechatronics, 2003. AIM 2003. Proceedings. 2003 IEEE/ASME International Conference on, 1, 137–142.
Swift, J. (1914). Gulliver Utazásai. Révai.
Szollosy, M. (2017). Freud, Frankenstein and our fear of robots: Projection in our cultural perception of technology. AI & Society, 32(3), 433–439.
Szor, P. (2005). The art of computer virus research and defense. Addison-Wesley.
Tabori, P. (1978). Voyage to Faremido; Capillaria. New English Library.
Taine, J. (1929). The Greatest Adventure. E. P. Dutton & Company, Inc.
Taylor, T. (2004). Redrawing the boundary between organism and environment. In J. Pollack, M. Bedau, P. Husbands, T. Ikehami, & R. Watson (Eds.), Artificial life IX: Proceedings of the ninth international conference on the simulation and synthesis of living systems (pp. 268–273). MIT Press.
Taylor, T. (2001). Creativity in evolution: Individuals, interactions and environments. In P. J. Bentley & D. W. Corne (Eds.), Creative evolutionary systems (pp. 79–108). Morgan Kaufmann.
Taylor, T. (2013). Evolution in virtual worlds. In M. Grimshaw (Ed.), The oxford handbook of virtuality. Oxford University Press.
Taylor, T. (2019). Evolutionary innovations and where to find them: Routes to open-ended evolution in natural and artificial systems. Artificial Life, 25(2), 207–224.
Taylor, T. (2024). An afterword to Rise of the Self-Replicators”: Placing John AEtzler, Frigyes Karinthy, Fred Stahl, and others in the early history of thought about self-reproducing machines. Artificial Life, 30(1), 91–105. https://doi.org/10.1162/artl_a_00424
Taylor, T. J. (1999). From artificial evolution to artificial life [PhD thesis]. University of Edinburgh, College of Science; Engineering, School of Informatics.
Taylor, T., Auerbach, J. E., Bongard, J., Clune, J., Hickinbotham, S., Ofria, C., Oka, M., Risi, S., Stanley, K. O., & Yosinski, J. (2016). WebAL comes of age: A review of the first 21 years of artificial life on the web. Artificial Life, 22(3), 364–407.
Taylor, T., Bedau, M., Channon, A., Ackley, D., Banzhaf, W., Beslon, G., Dolson, E., Froese, T., Hickinbotham, S., Ikegami, T., et al. (2016). Open-ended evolution: Perspectives from the OEE workshop in York. Artificial Life, 22(3), 408–423.
Taylor, T., & Dorin, A. (2018). Past visions of artificial futures: One hundred and fifty years under the spectre of evolving machines. Proceedings of the Artificial Life Conference 2018, 91–98.
Tegmark, M. (2017). Life 3.0: Being human in the age of artificial intelligence. Alfred A. Knopf.
The Staff, Electronic Computer Project. (1954). Report on Contract No. N-7-ONR-388, Task Order I. The Institute for Advanced Study, Electronic Computer Project, Princeton.
Thomas, B. (1991). Alfred Marshall on economic biology. Review of Political Economy, 3(1), 1–14.
Tingley, K. (1910). Evolution of machines. Century Path, 13(42), 2.
Tipler, F. J. (1980). Extraterrestrial intelligent beings do not exist. Quarterly Journal of the Royal Astronomical Society, 21, 267–281.
Tipler, F. J. (1981a). A brief history of the extraterrestrial intelligence concept. Quarterly Journal of the Royal Astronomical Society, 22, 133–145.
Tipler, F. J. (1981b). Additional remarks on extraterrestrial intelligence. Quarterly Journal of the Royal Astronomical Society, 22, 279–292.
Tipler, F. J. (1981c). Extraterrestrial intelligent beings do not exist. Physics Today, 34, 9, 70–71.
Turing, A. M. (1937). On computable numbers, with an application to the Entscheidungsproblem. Proceedings of the London Mathematical Society (Series 2), 42, 230–265.
Turing, A. M. (1948). Intelligent machinery. National Physical Laboratory.
Turing, A. M. (1950). Computing machinery and intelligence. Mind, 49, 433–460.
Turing, A. M. (1951). Intelligent machinery, a heretical theory.
Ulam, S. M. (1958). John von Neumann 1903–1957. Bulletin of the American Mathematical Society, 64, 1–49.
Ulam, S. M. (1976). Adventures of a mathematician. Scribner.
Uspensky, V. A. (1998). Andrei Nikolaevich Kolmogorov — the great Russian scientist. In D. A. Pospelov & Ya. I. Fet (Eds.), Essays on the history of computer science in russia (pp. 484–505). Scientific Publishing Center of the Siberian Division of RAS (the Russian Academy of Sciences).
Vargas, P. A., Di Paolo, E. A., Harvey, I., & Husbands, P. (2014). The horizons of evolutionary robotics. MIT Press.
Virgo, N., Fernando, C., Bigge, B., & Husbands, P. (2012). Evolvable physical self-replicators. Artificial Life, 18(2), 129–142.
Vogt, A. E. van. (1943). M 33 in Andromeda. Astounding Science Fiction, 129–142.
von Neumann, J. (1951). The general and logical theory of automata. In L. A. Jeffress (Ed.), Cerebral mechanisms in behavior. The Hixon symposium (pp. 1–31). John Wiley & Sons.
von Neumann, J. (1966). The theory of self-reproducing automata. University of Illinois Press.
Vyssotsky, V. A. (1972). Computer recreations: Darwin. Software—Practice and Experience, 2(1), 93–96.
Wagner, A. (2011). The origins of evolutionary innovations: A theory of transformative change in living systems. Oxford University Press.
Wagner, G. P. (2015). Evolutionary innovations and novelties: Let us get down to business! Zoologischer Anzeiger, 256, 75–81.
Warrick, P. S. (1980). The cybernetic imagination in science fiction. MIT Press.
Weber, A., & Varela, F. J. (2002). Life after Kant: Natural purposes and the autopoietic foundations of biological individuality. Phenomenology and the Cognitive Sciences, 1(2), 97–125.
Wells, H. G. (1898). The war of the worlds. William Heinemann.
Whyte, L. L. (1927). Archimedes, or the future of physics. Kegan Paul, Trench, Trübner & Co.
Whyte, L. L. (2017). The next development of mankind. Routledge.
Wiener, N. (1961). Cybernetics or control and communication in the animal and the machine (2nd ed.). MIT Press.
Williams, R. M. (1938). Robots Return. Astounding Science Fiction, 140–147.
Wright, S. F. (1929). Automata. Weird Tales, 337–344.
Zhang, F., Nangreave, J., Liu, Y., & Yan, H. (2014). Structural DNA nanotechnology: State of the art and future perspective. Journal of the American Chemical Society, 136(32), 11198–11211.
Zuse, K. (1941). Sich selbst reproduzierende Systeme. Konrad Zuse Internet Archive (http://zuse.zib.de).
Zuse, K. (1957). Gedanken zur Automation und zum Problem der technischen Keimzelle. Unternehmensforschung, 1, 160–165.
Zuse, K. (1967). Über sich selbst reproduzierende Systeme. Elektronische Rechenanlagen, 9(2), 57–64.
Zuse, K. (1993). The computer — my life. Springer-Verlag.
Zykov, V., Mytilinaios, E., Adams, B., & Lipson, H. (2005). Robotics: Self-reproducing machines. Nature, 435(7039), 163–164.