生物与环境信息交流的效率:基于知识出现背后的试错策略的逻辑类型语义层次结构

IF 2.1 3区 社会学 Q1 HISTORY & PHILOSOPHY OF SCIENCE
Mattia Berera
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引用次数: 0

摘要

基于 Kolchinsky 和 Wolpert 在自主代理语义学方面的研究,我建议应用数理逻辑和概率论来模拟认知过程。在这项工作中,我将遵循贝特森对复杂有机体学习层次的见解,并将他应用罗素类型理论的想法形式化。按照韦弗对交流问题提出的三个层次,我将科尔沁斯基-沃尔佩特模型与贝特森的见解联系起来,得出了生命系统中的语义和概念层次,作为一些适应性约束的解释模型。由于科尔琴斯基和沃尔佩特假设的普遍性,我强调了当前人工智能成果与人类语义结构之间的一些根本差距。鉴于我的模型所带来的后果,我在文章的最后提出了一个概率知识的一般定义,推翻了德菲内蒂的概率主观主义定义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Efficiency in Organism-Environment Information Exchanges: A Semantic Hierarchy of Logical Types Based on the Trial-and-Error Strategy Behind the Emergence of Knowledge

Based on Kolchinsky and Wolpert’s work on the semantics of autonomous agents, I propose an application of Mathematical Logic and Probability to model cognitive processes. In this work, I will follow Bateson’s insights on the hierarchy of learning in complex organisms and formalize his idea of applying Russell’s Type Theory. Following Weaver’s three levels for the communication problem, I link the Kolchinsky–Wolpert model to Bateson’s insights, and I reach a semantic and conceptual hierarchy in living systems as an explicative model of some adaptive constraints. Due to the generality of Kolchinsky and Wolpert’s hypotheses, I highlight some fundamental gaps between the results in current Artificial Intelligence and the semantic structures in human beings. In light of the consequences of my model, I conclude the paper by proposing a general definition of knowledge in probabilistic terms, overturning de Finetti’s Subjectivist Definition of Probability.

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来源期刊
Biosemiotics
Biosemiotics HISTORY & PHILOSOPHY OF SCIENCE-
CiteScore
3.40
自引率
37.50%
发文量
42
审稿时长
>12 weeks
期刊介绍: Biosemiotics is dedicated to building a bridge between biology, philosophy, linguistics, and the communication sciences. Biosemiotic research is concerned with the study of signs and meaning in living organisms and systems. Its main challenge is to naturalize biological meaning and information by building on the belief that signs are fundamental, constitutive components of the living world. Biosemiotics has triggered rethinking of fundamental assumptions in both biology and semiotics. In this view, biology should recognize the semiotic nature of life and reshape its theories and methodology accordingly while semiotics and the humanities should acknowledge the existence of signs beyond the human realm. Biosemiotics is at the cutting edge of research on the fundamentals of life. By challenging traditional assumptions on the nature of life and suggesting alternative perspectives, it opens up exciting new research paths.
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