Minimal physicalism as a scale-free substrate for cognition and consciousness.

IF 3.1 Q1 PSYCHOLOGY, BIOLOGICAL
Neuroscience of Consciousness Pub Date : 2021-08-02 eCollection Date: 2021-01-01 DOI:10.1093/nc/niab013
Chris Fields, James F Glazebrook, Michael Levin
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引用次数: 0

Abstract

Theories of consciousness and cognition that assume a neural substrate automatically regard phylogenetically basal, nonneural systems as nonconscious and noncognitive. Here, we advance a scale-free characterization of consciousness and cognition that regards basal systems, including synthetic constructs, as not only informative about the structure and function of experience in more complex systems but also as offering distinct advantages for experimental manipulation. Our "minimal physicalist" approach makes no assumptions beyond those of quantum information theory, and hence is applicable from the molecular scale upwards. We show that standard concepts including integrated information, state broadcasting via small-world networks, and hierarchical Bayesian inference emerge naturally in this setting, and that common phenomena including stigmergic memory, perceptual coarse-graining, and attention switching follow directly from the thermodynamic requirements of classical computation. We show that the self-representation that lies at the heart of human autonoetic awareness can be traced as far back as, and serves the same basic functions as, the stress response in bacteria and other basal systems.

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最小物理主义作为认知和意识的无尺度基质。
假定以神经为底层的意识和认知理论会自动将系统发育基础上的非神经系统视为非意识和非认知系统。在这里,我们提出了意识和认知的无尺度表征,认为包括合成建构在内的基础系统不仅能提供关于更复杂系统的经验结构和功能的信息,还能为实验操作提供独特的优势。我们的 "最小物理主义 "方法没有超出量子信息论的假设,因此适用于分子尺度以上的系统。我们的研究表明,包括集成信息、通过小世界网络进行状态广播和分层贝叶斯推理在内的标准概念在这一环境中自然出现,而包括stigmergic记忆、感知粗粒化和注意力转换在内的常见现象则直接源于经典计算的热力学要求。我们的研究表明,作为人类自发意识核心的自我表征可以追溯到细菌和其他基础系统的应激反应,其基本功能与细菌和其他基础系统的应激反应相同。
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来源期刊
Neuroscience of Consciousness
Neuroscience of Consciousness Psychology-Clinical Psychology
CiteScore
6.90
自引率
2.40%
发文量
16
审稿时长
19 weeks
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