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  1. Strengthening Weak Emergence.Nora Berenstain - 2020 - Erkenntnis 87 (5):2457-2474.
    Bedau's influential (1997) account analyzes weak emergence in terms of the non-derivability of a system’s macrostates from its microstates except by simulation. I offer an improved version of Bedau’s account of weak emergence in light of insights from information theory. Non-derivability alone does not guarantee that a system’s macrostates are weakly emergent. Rather, it is non-derivability plus the algorithmic compressibility of the system’s macrostates that makes them weakly emergent. I argue that the resulting information-theoretic picture provides a metaphysical account of (...)
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  • Interdisciplinary Interconnections in Synthetic Biology.Ulrich Krohs & Mark A. Bedau - 2013 - Biological Theory 8 (4):313-317.
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  • BrisSynBio Art-Science Dossier.Maria Fannin, Katy Connor, David Roden & Darian Meacham - 2020 - NanoEthics 14 (1):27-41.
    Finding avenues for collaboration and engagement between the arts and the sciences (natural and social) was a central theme of investigation for the Responsible Research and Innovation (RRI) and Public Engagement programme at BrisSynBio, a BBSRC/EPSRC Synthetic Biology Research Centre that is now part of the Bristol BioDesign Institute at University of Bristol (UK). The reflections and experiments that appear in this dossier are a sample of these investigations and are contributed by Maria Fannin, Katy Connor and David Roden. Darian (...)
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  • Policy‐Making and Systemic Complexity.Mark A. Bedau - 2014 - Hastings Center Report 44 (S5):29-30.
    Synthetic biology has spawned a debate about how society and the international community should go about policy‐making, especially given the potential for both transformative benefits and existential threats. One of the significant contributions of “The Ethics of Synthetic Biology: Next Steps and Prior Questions,” by Kaebnick, Gusmano, and Murray, is its exploration of the difficulties of devel­oping policy that appropriately addresses the risks and benefits of synthetic biology. In this comment I want to develop this point further and emphasize how (...)
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  • (2 other versions)From Silico to Vitro: Computational Models of Complex Biological Systems Reveal Real-World Emergent Phenomena.Orly Stettiner - 2016 - In Vincent C. Müller (ed.), Computing and philosophy: Selected papers from IACAP 2014. Cham: Springer. pp. 133-147.
    Computer simulations constitute a significant scientific tool for promoting scientific understanding of natural phenomena and dynamic processes. Substantial leaps in computational force and software engineering methodologies now allow the design and development of large-scale biological models, which – when combined with advanced graphics tools – may produce realistic biological scenarios, that reveal new scientific explanations and knowledge about real life phenomena. A state-of-the-art simulation system termed Reactive Animation (RA) will serve as a study case to examine the contemporary philosophical debate (...)
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