无强化学习能力在认知进化中的组织因素选择

S. Arnold, Reiji Suzuki, Takaya Arita
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引用次数: 4

摘要

本研究探讨了环境结构与神经认知结构之间的关系。我们假设,有效学习能力的选择压力(特别是在有限或没有奖励信息的环境中)转化为神经认知和环境结构之间对应关系的选择压力,因为这种对应关系允许简单的环境变化通过神经认知结构的简单学习更新来处理。我们提出了一个模型,其中一种简单形式的无强化学习是利用神经调节在神经网络中进化出来的,并分析了这种学习能力的选择对虚拟物种神经组织的影响。我们发现在没有学习能力的情况下进化而来的控制种群具有更高的组织程度,并讨论了观察到的神经结构与环境结构之间的关系。我们在环境复杂性论文、鲍德温效应和适应过程之间的其他相互作用的背景下讨论了我们的发现。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Selection for Reinforcement-Free Learning Ability as an Organizing Factor in the Evolution of Cognition
This research explores the relation between environmental structure and neurocognitive structure. We hypothesize that selection pressure on abilities for efficient learning (especially in settings with limited or no reward information) translates into selection pressure on correspondence relations between neurocognitive and environmental structure, since such correspondence allows for simple changes in the environment to be handled with simple learning updates in neurocognitive structure. We present a model in which a simple formof reinforcement-free learning is evolved in neural networks using neuromodulation and analyze the effect this selection for learning ability has on the virtual species' neural organization. We find a higher degree of organization than in a control population evolved without learning ability and discuss the relation between the observed neural structure and the environmental structure. We discuss our findings in the context of the environmental complexity thesis, the Baldwin effect, and other interactions between adaptation processes.
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