Publications

You can also view these publications on my Google Scholar profile.

 

2024

  1. Taylor, T. (2024). An Afterword to "Rise of the Self-Replicators": Placing John A. Etzler, 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
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2022

  1. Dorin, A., Taylor, T., & Dyer, A. G. (2022). Goldilocks’ quarter-hectare urban farm: An agent-based model for improved pollination of community gardens and small-holder farms. PLOS Sustainability and Transformation, 1(7), e0000021. https://doi.org/10.1371/journal.pstr.0000021
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2021

  1. Taylor, T. (2021). Evolutionary Innovation Viewed as Novel Physical Phenomena and Hierarchical Systems Building. Presented at the Fourth Workshop on Open-Ended Evolution (OEE4) at the 2021 Conference on Artificial Life (ALIFE 2021). Retrieved from https://arxiv.org/abs/2107.09669
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  2. Dorin, A., Taylor, T., Burd, M., Garcia, J., Shrestha, M., & Dyer, A. G. (2021). Competition and pollen wars: Simulations reveal the dynamics of competition mediated through heterospecific pollen transfer by non-flower constant insects. Theoretical Ecology, 14(2), 207–218. https://doi.org/10.1007/s12080-020-00490-7
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2020

  1. Taylor, T. (2020). The Importance of Open-Endedness (For the Sake of Open-Endedness). In J. Bongard, J. Lovato, L. Hebert-Dufrésne, R. Dasari, & L. Soros (Eds.), ALIFE 2020: Proceedings of the Artificial Life Conference 2020 (pp. 578–580). https://doi.org/10.1162/isal_a_00257
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  2. Taylor, T. (2020). What Am I For? Self-Purpose and Self-Reproduction in Rossum’s Universal Robots (Samoúčelnost a samoreprodukce u Rossumových univerzálních robotů). In J. Čejková (Ed.), ROBOT 100: Sto rozumů (pp. 178–180). Prague: Kosmas.
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  3. Taylor, T., & Dorin, A. (2020). Rise of the Self-Replicators: Early Visions of Machines, AI and Robots That Can Reproduce and Evolve. Cham: Springer.
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2019

  1. 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. https://doi.org/10.1162/artl_a_00290
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  2. Packard, N., Bedau, M., Channon, A., Ikegami, T., Rasmussen, S., Stanley, K., & 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
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  3. Packard, N., Bedau, M., Channon, A., Ikegami, T., Rasmussen, S., Stanley, K., & Taylor, T. (2019). Open-Ended Evolution and Open-Endedness: Editorial Introduction to the Open-Ended Evolution I Special Issue. Artificial Life, 25(1), 1–3. https://doi.org/10.1162/artl_e_00282
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2018

  1. Taylor, T., & Dorin, A. (2018). Past Visions of Artificial Futures: One Hundred and Fifty Years under the Spectre of Evolving Machines. In T. Ikegami, N. Virgo, O. Witkowski, M. Oka, R. Suzuki, & H. Iizuka (Eds.), ALIFE 2018: Proceedings of the Artificial Life Conference 2018 (pp. 91–98). https://doi.org/10.1162/isal_a_00022
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  2. Dorin, A., Dyer, A., Taylor, T., & Bukovac, Z. (2018). Simulation-governed design and tuning of greenhouses for successful bee pollination. In T. Ikegami, N. Virgo, O. Witkowski, M. Oka, R. Suzuki, & H. Iizuka (Eds.), ALIFE 2018: Proceedings of the Artificial Life Conference 2018 (pp. 171–178). https://doi.org/10.1162/isal_a_00038
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  3. Taylor, T. (2018). Routes to Open-Endedness in Evolutionary Systems. Presented at the Third Workshop on Open-Ended Evolution (OEE3) at the 2018 Conference on Artificial Life (ALIFE 2018). Retrieved from https://arxiv.org/abs/1806.01883v3
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2016

  1. Taylor, T., Auerbach, J. E., Bongard, J., Clune, J., Hickinbotham, S., Ofria, C., … 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. https://doi.org/10.1162/artl_a_00211
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  2. Taylor, T., Bedau, M., Channon, A., Ackley, D., Banzhaf, W., Beslon, G., … Wiser, M. (2016). Open-Ended Evolution: Perspectives from the OEE Workshop in York. Artificial Life, 22(3), 408–423. https://doi.org/10.1162/artl_a_00210
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2015

  1. Andrews, P., Caves, L., Doursat, R., Hickinbotham, S., Polack, F., Stepney, S., … Timmis, J. (Eds.). (2015). Proceedings of the European Conference on Artificial Life 2015 (ECAL 2015). Cambridge, MA: MIT Press.
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  2. Taylor, T., Dorin, A., & Korb, K. (2015). Omnigram Explorer: A Simple Interactive Tool for the Initial Exploration of Complex Systems. In P. Andrews, L. Caves, R. Doursat, S. Hickinbotham, F. Polack, S. Stepney, … J. Timmis (Eds.), Proceedings of the European Conference on Artificial Life 2015 (ECAL 2015) (pp. 381–388). https://doi.org/10.7551/978-0-262-33027-5-ch068
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  3. Taylor, T. (2015). Requirements for Open-Ended Evolution in Natural and Artificial Systems. Presented at the EvoEvo Workshop at the European Conference on Artificial Life 2015 (ECAL 2015). Retrieved from https://arxiv.org/abs/1507.07403
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2014

  1. Taylor, T. (2014). Artificial Life and the Web: WebAL Comes of Age. In T. Taylor, J. Auerbach, J. Bongard, J. Clune, S. Hickinbotham, & G. Hornby (Eds.), WebAL-1: Workshop on Artificial Life and the Web 2014 Proceedings. Retrieved from https://arxiv.org/abs/1407.5719
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  2. Taylor, T., Auerbach, J., Bongard, J., Clune, J., Hickinbotham, S., & Hornby, G. (Eds.). (2014). WebAL-1: Workshop on Artificial Life and the Web 2014 Proceedings. Retrieved from https://arxiv.org/abs/1406.2507
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  3. Taylor, T., Dorin, A., & Korb, K. (2014). Digital Genesis: Computers, Evolution and Artificial Life. Presented at the 7th Munich-Sydney-Tilburg Philosophy of Science Conference: Evolutionary Thinking, University of Sydney, 20-22 March 2014. Retrieved from https://arxiv.org/abs/1512.02100
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  4. Taylor, T. (2014). Evolution in virtual worlds. In M. Grimshaw (Ed.), The Oxford Handbook of Virtuality (pp. 526–548). https://doi.org/10.1093/oxfordhb/9780199826162.013.044
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2012

  1. Taylor, T. (2012). Exploring the Concept of Open-Ended Evolution. In C. Adami, D. M. Bryson, C. Ofria, & R. T. Pennock (Eds.), Artificial Life 13: Proceedings of the Thirteenth International Conference on the Simulation and Synthesis of Living Systems (pp. 540–541). MIT Press.
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2010

  1. Carletta, J., Hill, R. L., Nicol, C., Taylor, T., de Ruiter, J. P., & Bard, E. G. (2010). Eyetracking for two-person tasks with manipulation of a virtual world. Behavior Research Methods, 42(1), 254–265. https://doi.org/10.3758/brm.42.1.254
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2009

  1. Taylor, T. (2009). A Creative Dance: Symbols, Action and the Bringing Forth of Meaning. In M. Boden, M. D’Inverno, & J. McCormack (Eds.), Computational Creativity: An Interdisciplinary Approach. Retrieved from http://drops.dagstuhl.de/opus/volltexte/2009/2207
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2007

  1. Taylor, T., Ottery, P., & Hallam, J. (2007). An approach to time- and space-differentiated pattern formation in multi-robot systems. In M. S. Wilson, F. Labrosse, U. Nehmzow, C. Melhuish, & M. Witkowski (Eds.), TAROS 2007: Proceedings of Towards Autonomous Robotic Systems 2007 (pp. 160–167). Department of Computer Science, University of Wales, Aberystwyth.
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  2. Taylor, T., Ottery, P., & Hallam, J. (2007). Pattern formation for multi-robot applications: Robust, self-repairing systems inspired by genetic regulatory networks and cellular self-organisation (Informatics Research Report No. EDI-INF-RR-0971). University of Edinburgh.
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  3. Konidaris, G., Taylor, T., & Hallam, J. (2007). HydroGen: Automatically Generating Self-Assembly Code for Hydron Units. In R. Alami, H. Asama, & R. Chatila (Eds.), Distributed Autonomous Robotic Systems 6 (Proceedings of the Seventh International Symposium on Distributed Autonomous Robotic Systems, DARS04) (pp. 33–42). https://doi.org/10.1007/978-4-431-35873-2_4
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2005

  1. Damoulas, T., Cos-Aguilera, I., Hayes, G. M., & Taylor, T. (2005). Valency for Adaptive Homeostatic Agents: Relating Evolution and Learning. In M. S. Capcarrère, A. A. Freitas, P. J. Bentley, C. G. Johnson, & J. Timmis (Eds.), Advances in Artificial Life — 8th European Conference, ECAL 2005 (pp. 936–945). https://doi.org/10.1007/11553090_94
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  2. Stewart, F., Taylor, T., & Konidaris, G. (2005). METAMorph: Experimenting with Genetic Regulatory Networks for Artificial Development. In M. S. Capcarrère, A. A. Freitas, P. J. Bentley, C. G. Johnson, & J. Timmis (Eds.), Advances in Artificial Life — 8th European Conference, ECAL 2005 (pp. 108–117). https://doi.org/10.1007/11553090_12
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  3. Østergaard, E. H., Christensen, D. J., Eggenberger, P., Taylor, T., Ottery, P., & Lund, H. H. (2005). HYDRA: From Cellular Biology to Shape-Changing Artefacts. In W. Duch, J. Kacprzyk, E. Oja, & S. Zadrożny (Eds.), Artificial Neural Networks: Biological Inspirations – ICANN 2005 (pp. 275–281). https://doi.org/10.1007/11550822_44
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2004

  1. Taylor, T. (2004). Niche Construction and the Evolution of Complexity. In J. Pollack, M. A. Bedau, P. Husbands, R. A. Watson, & T. Ikegami (Eds.), Artificial Life IX: Proceedings of the Ninth International Conference on the Simulation and Synthesis of Living Systems (pp. 375–380). https://doi.org/10.7551/mitpress/1429.003.0063
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  2. Taylor, T. (2004). Redrawing the Boundary between Organism and Environment. In J. Pollack, M. A. Bedau, P. Husbands, R. A. Watson, & T. Ikegami (Eds.), Artificial Life IX: Proceedings of the Ninth International Conference on the Simulation and Synthesis of Living Systems (pp. 268–273). https://doi.org/10.7551/mitpress/1429.003.0045
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  3. Taylor, T. (2004). A Genetic Regulatory Network-Inspired Real-Time Controller for a Group of Underwater Robots. In F. Groen, N. Amato, A. Bonarini, E. Yoshida, & B. Kröse (Eds.), Intelligent Autonomous Systems 8 (Proceedings of IAS-8) (pp. 403–412). Amsterdam: IOS Press.
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2003

  1. Taylor, T. (2003). Evolving Interaction in Artificial Systems: An historical overview and future directions. In P. McOwan, K. Dautenhahn, & C. L. Nehaniv (Eds.), Abstracts from the Evolvability and Interaction Symposium, held at Queen Mary, University of London, UK, in October 2003. University of Hertfordshire Computer Science Technical Report No. 393.
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  2. Taylor, T. (2003). Sensor Evolution in Artificial Systems: Towards a more appropriate model of the relationship between organism and environment. In J. F. Miller, D. Polani, & C. L. Nehaniv (Eds.), Abstracts from the Evolvability and Sensor Evolution Symposium, held at University of Birmingham, UK, in April 2003. University of Hertfordshire Computer Science Technical Report No. 384.
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2002

  1. Taylor, T. (2002). An Alternative Approach to the Synthesis of Life. Poster presented at the 8th International Conference on the Simulation and Synthesis of Living Systems (ALIFE 8), Sydney, Australia.
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  2. Pachepsky, E., Taylor, T., & Jones, S. (2002). Mutualism Promotes Diversity and Stability in a Simple Artificial Ecosystem. Artificial Life, 8(1), 5–24. https://doi.org/10.1162/106454602753694747
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  3. Taylor, T. (2002). The Control of Dynamical Systems by Evolved Constraints: A New Perspective on Modelling Life (Informatics Research Report No. EDI-INF-RR-0148). University of Edinburgh.
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  4. Norman, M., & Taylor, T. (2002). Application of Physics Engines in Virtual Worlds. In R. F. Erbacher, P. C. Chen, M. Gröhn, J. C. Roberts, & C. M. Wittenbrink (Eds.), Visualization and Data Analysis 2002 (pp. 91–98). Society of Photo-optical Instrumentation Engineers.
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2001

  1. Pachepsky, E., & Taylor, T. (2001). Diversity through Interaction. Poster presented at the International Conference on Mathematical and Theoretical Biology, University of Hawaii.
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  2. Taylor, T. (2001). Creativity in Evolution: Individuals, Interactions and Environments. In P. J. Bentley & D. W. Corne (Eds.), Creative Evolutionary Systems (pp. 79–108). https://doi.org/10.1016/b978-155860673-9/50037-9
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  3. Taylor, T. (2001). Christoph Adami, Introduction to Artificial Life. Artificial Intelligence, 130(1), 119–121. https://doi.org/10.1016/s0004-3702(01)00091-1
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  4. Monsell, S., Taylor, T. J., & Murphy, K. (2001). Naming the color of a word: Is it responses or task sets that compete? Memory & Cognition, 29(1), 137–151. https://doi.org/10.3758/bf03195748
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  5. Taylor, T., & Massey, C. (2001). Recent Developments in the Evolution of Morphologies and Controllers for Physically Simulated Creatures. Artificial Life, 7(1), 77–87. https://doi.org/10.1162/106454601300328034
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  6. McMullin, B., Taylor, T., & von Kamp, A. (2001). Who Needs Genomes? Proceedings of the Atlantic Symposium on Computational Biology and Genome Information Systems and Technology, CBGIST 2001, 250–254. Duke University, USA.
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2000

  1. Taylor, T. (2000). Artificial Life Techniques for Generating Controllers for Physically Modelled Characters. In Q. Mehdi & N. Gough (Eds.), Proceedings of the First International Conference on Intelligent Games and Simulation (GAME-ON 2000). The Society for Computer Simulation International.
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  2. Taylor, T. (2000). Some Representational and Ecological Aspects of Evolvability. In C. L. Nehaniv (Ed.), Proceedings of the Evolvability Workshop at the the Seventh International Conference on the Simulation and Synthesis of Living Systems (Artificial Life 7) (pp. 41–44). Retrieved from http://homepages.herts.ac.uk/ comqcln/al7ev/cnts.html
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1999

  1. Taylor, T. (1999). On Self-Reproduction and Evolvability. In D. Floreano, J.-D. Nicoud, & F. Mondada (Eds.), Advances in Artificial Life. ECAL 1999 (pp. 94–103). https://doi.org/10.1007/3-540-48304-7_15
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  2. Taylor, T. (1999). Creativity in Evolution: Individuals, Interactions and Environments. In P. J. Bentley & D. W. Corne (Eds.), Proceedings of the AISB’99 Symposium on Creative Evolutionary Systems (pp. 8–17). The Society for the Study of Artificial Intelligence and Simulation of Behaviour.
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  3. Taylor, T. J. (1999). From Artificial Evolution to Artificial Life (PhD thesis). School of Informatics, College of Science and Engineering, University of Edinburgh.
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1998

  1. Taylor, T., & Hallam, J. (1998). Replaying the Tape: An Investigation into the Role of Contingency in Evolution. In C. Adami, R. K. Belew, H. Kitano, & C. E. Taylor (Eds.), Artificial Life VI: Proceedings of the Sixth International Conference on Artificial Life (pp. 256–265). Cambridge, MA: MIT Press.
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  2. Taylor, T. (1998). Using Bottom-Up Models to Investigate the Evolution of Life: Steps Towards an Improved Methodology. In C. L. Nehaniv & G. Wagner (Eds.), The Right Stuff: Appropriate Mathematics for Evolutionary and Developmental Biology. University of Hertfordshire Computer Science Technical Report No. 315.
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  3. Taylor, T. (1998). Nidus Design Document (Departmental Working Paper No. 269). Department of Artificial Intelligence, University of Edinburgh.
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1997

  1. Taylor, T., & Hallam, J. (1997). Studying Evolution with Self-Replicating Computer Programs. In P. Husbands & I. Harvey (Eds.), Fourth European Conference on Artificial Life (pp. 550–559). Cambridge, MA: MIT Press.
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  2. Taylor, T. (1997). The COSMOS Artificial Life System (Departmental Working Paper No. 263). Department of Artificial Intelligence, University of Edinburgh.
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1996

  1. Taylor, T. (1996). PhD Proposal: A Study of Evolution in Self-Replicating Parallel Computer Programs (Departmental Discussion Paper No. 169). Department of Artificial Intelligence, University of Edinburgh.
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  2. Taylor, T. (1996). The COSMOS Environment and REPLiCa Programming Language (Departmental Working Paper No. 259). Department of Artificial Intelligence, University of Edinburgh.
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  3. Taylor, T. (1996). On the Incorporation of a Developmental Process in a System of Self-Replicating Programs (Departmental Working Paper No. 258). Department of Artificial Intelligence, University of Edinburgh.
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1993

  1. Taylor, T. (1993). Learning to Coordinate Behaviours on a Four-Legged Robot (Master's thesis). Department of Artificial Intelligence, University of Edinburgh.
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1992

  1. Taylor, T. (1992). The Effect of Lexicality and Word Frequency on Stroop Interference. Undergraduate Project Report, Department of Experimental Psychology, University of Cambridge.
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  2. Taylor, T. (1992). Twin Studies of Homosexuality. Undergraduate Dissertation, Department of Experimental Psychology, University of Cambridge.
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