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{ "pk": 27616, "title": "Is Neurocomputational Self-Organization a Core Mechanism of AGI Systems?", "subtitle": null, "abstract": "Artificial General Intelligence (AGI) is a term that describes a variant of a Strong AI revival in the mind sciences.Irrespective of its definition limits, and leaving aside the non-scientific metaphysical or philosophical aspirations, AGI studiesthe feasibility and implementation aspects of artificial systems that would have the capacity of domain non-specific (domain-general) human-level intelligence.The importance of self-organization in natural neural systems as well as in neuromimetic computational systems, especiallythe class of Self-Organizing Map (SOM) neural networks, has been extensively demonstrated and supported in the literature.Neurocomputational self-organization exhibits unique characteristics, including non-deterministic epigenetic (post-genetic) be-havior, which enable direct functional and structural comparisons with the neocortex more than most existing relevant compu-tational mechanisms. If the problem of artificial general intelligence is approached from a biologically relevant computationalstandpoint then SOM mechanisms are currently a very strong candidate as a core component of a computational AGI system.", "language": "eng", "license": { "name": "", "short_name": "", "text": null, "url": "" }, "keywords": [], "section": "Posters: Member Abstracts", "is_remote": true, "remote_url": "https://escholarship.org/uc/item/7p3254v1", "frozenauthors": [ { "first_name": "Spyridon", "middle_name": "", "last_name": "Revithis", "name_suffix": "", "institution": "University of New South Wales", "department": "" } ], "date_submitted": null, "date_accepted": null, "date_published": "2017-01-01T18:00:00Z", "render_galley": null, "galleys": [ { "label": "PDF", "type": "pdf", "path": "https://journalpub.escholarship.org/cognitivesciencesociety/article/27616/galley/17252/download/" } ] }