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Olaf Witkowski
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Proceedings Papers
. isal2024, ALIFE 2024: Proceedings of the 2024 Artificial Life Conference60, (July 22–26, 2024) 10.1162/isal_a_00789
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Artificial Life (ALife) as an interdisciplinary field draws inspiration and influence from a variety of perspectives. Scientific progress crucially depends, then, on concerted efforts to invite cross-disciplinary dialogue. The goal of this paper is to revitalize discussions of potential connections between the fields of Computational Creativity (CC) and ALife, focusing specifically on the concept of Open-Endedness (OE); the primary goal of CC is to endow artificial systems with creativity, and ALife has dedicated much research effort into studying and synthesizing OE and artificial innovation. However, despite the close proximity of these concepts, their use so far remains confined to their respective communities, and their relationship is largely unclear. We provide historical context for research in both domains, and review the limited work connecting research on creativity and OE explicitly. We then highlight specific questions to be investigated in future work, with the eventual goals of (i) decreasing conceptual ambiguity by highlighting similarities and differences between the concepts of OE and creativity, (ii) identifying synergy effects of a research agenda that encompasses both concepts, and (iii) establishing a dialogue between ALife and CC research.
Proceedings Papers
. isal2023, ALIFE 2023: Ghost in the Machine: Proceedings of the 2023 Artificial Life Conference28, (July 24–28, 2023) 10.1162/isal_a_00614
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Visit this link to see a video version of this abstract. At this moment in technological history, it seems that AI-powered technology has the potential to evolve into almost anything within the next 20 years. While we expect machines to don various forms of intelligence, we also expect to integrate them into our daily lives in ways we haven’t yet imagined. How will their presence and capabilities affect our everyday human experience? While we’re often (rightfully) thinking about how our day-to-day lives will change, we rarely pause to consider the experience of the machines themselves. But there’s a good reason for this. What a machine “experiences” is difficult to define, much less measure. We also have difficulty understanding the concept of experience in general. We don’t fully understand the experiences of the many other living creatures who’ve shared our world for millennia. So while we cannot yet measure how models like ChatGPT[l] or Stable Diffusion[2] experience a written conversation, we may be able to experiment with different ways of translating a machine “experience” to a human one. How do current algorithms translate their inputs into an output, and what happens along the way? In this art installation, we introduce wearable technology meant to translate aspects of what a trained model allocates attention to into something a human can experience.
Proceedings Papers
. isal2022, ALIFE 2022: The 2022 Conference on Artificial Life48, (July 18–22, 2022) 10.1162/isal_a_00531
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The field of Artificial Life studies the nature of the living state, by modeling and synthesizing living systems. Such systems, under certain conditions, may come to deserve moral consideration similar to that of non-human vertebrates or even human beings. The fact that these systems are non-human and evolve in a potentially radically different substrate should not be seen as an insurmountable obstacle to their potentially having rights equivalent to non-human vertebrates or even human beings, if they are sufficiently sophisticated in other respects. Nor should the fact that they owe their existence to us be seen as reducing their status as targets of moral concern. On the contrary, creators of artificial life may have special obligations to their creations, resembling those of an owner to their pet or a parent to their child. For a field that aims to create artificial lifeforms with increasing levels of sophistication, it is crucial to consider the possible implications of our activities under an ethical perspective, and assess the moral obligations for which we should be prepared. If artificial life is “larger than life”, then the ethics of artificial beings should be “larger than human ethics”.
Proceedings Papers
. isal2021, ALIFE 2021: The 2021 Conference on Artificial Life119, (July 18–22, 2021) 10.1162/isal_a_00478
Proceedings Papers
. isal2021, ALIFE 2021: The 2021 Conference on Artificial Life4, (July 18–22, 2021) 10.1162/isal_a_00465
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Developments in cognitive science, AI, and artificial life force us to consider minds and intelligences that are different from human minds. The dominant contemporary metaphor for any kind of mind is based on an understanding of the human brain and human experience, both of which frequently presuppose a notion of self. In some disciplines, including Buddhism, contemporary philosophy of mind, and cognitive science, much debate has focused on the nature of the self, and one insight from all these domains is that while we are strongly attached to notions of stable selves, it is also possible to conceive of selves as dynamic, interconnected, and illusory. We suggest that an interdisciplinary approach, drawing on fields with well-developed models of self in relation to agency, can offer new insights. We suggest that the view of self as illusory, and awareness of this illusion, in both human and non-human minds, may augment and qualitatively change the agent's affordances, or range of possible actions.
Proceedings Papers
. alife2018, ALIFE 2018: The 2018 Conference on Artificial Life1-4, (July 23–27, 2018) 10.1162/isal_e_00002
Proceedings Papers
. alife2018, ALIFE 2018: The 2018 Conference on Artificial Life47-54, (July 23–27, 2018) 10.1162/isal_a_00015
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Criticality is thought to be crucial for complex systems to adapt, at the boundary between regimes with different dynamics, where the system may transition from one phase to another. Numerous systems, from sandpiles to gene regulatory networks, to swarms and human brains, seem to work towards preserving a precarious balance right at their critical point. Understanding criticality therefore seems strongly related to a broad, fundamental theory for the physics of life as it could be, which still lacks a clear description of how it can arise and maintain itself in complex systems. In order to investigate this crucial question, we combine critical learning with evolutionary simulation for a population of Ising-embodied neural networks, striving to find resources distributed over a 2D environment. The results show compelling dynamics in the combination of critical learning with evolutionary computation, highlighting the exploratory nature of critical systems and the pragmatism of evolutionary algorithms. We also analyze the genotypic exploration strategy, exhibiting a tension between local and global scale adaptation.
Proceedings Papers
. alife2018, ALIFE 2018: The 2018 Conference on Artificial Lifeix-xvii, (July 23–27, 2018) 10.1162/isal_e_00001
Proceedings Papers
. alife2018, ALIFE 2018: The 2018 Conference on Artificial Lifei-672, (July 23–27, 2018) 10.1162/isal_a_00122
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The complete Proceedings of the The 2018 Conference on Artificial Life: A Hybrid of the European Conference on Artificial Life (ECAL) and the International Conference on the Synthesis and Simulation of Living Systems (ALIFE)
Proceedings Papers
. ecal2015, ECAL 2015: the 13th European Conference on Artificial Life357-364, (July 20–24, 2015) 10.1162/978-0-262-33027-5-ch065
Proceedings Papers
. alife2014, ALIFE 14: The Fourteenth International Conference on the Synthesis and Simulation of Living Systems302-309, (July 30–August 2, 2014) 10.1162/978-0-262-32621-6-ch049
Proceedings Papers
. alife2014, ALIFE 14: The Fourteenth International Conference on the Synthesis and Simulation of Living Systems392-397, (July 30–August 2, 2014) 10.1162/978-0-262-32621-6-ch062
Proceedings Papers
. ecal2013, ECAL 2013: The Twelfth European Conference on Artificial Life1218-1219, (September 2–6, 2013) 10.1162/978-0-262-31709-2-ch186
Proceedings Papers
. ecal2011, ECAL 2011: The 11th European Conference on Artificial Life80, (August 8–12, 2011) 10.7551/978-0-262-29714-1-ch080