Artificial enactive inference in three-dimensional world

IF 2.1 3区心理学 Q3 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

Cognitive Systems Research Pub Date : 2024-04-05 DOI:10.1016/j.cogsys.2024.101234

Olivier L. Georgeon , David Lurie , Paul Robertson

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引用次数: 0

Abstract

The theory of Enactive Inference was proposed by Karl Friston and his colleagues to explain how the brain infers knowledge about the world through the subject’s interactive experiences. Sensorimotor states induce perturbations in neural activity, and the brain infers hypothetical causes in the world that may explain these perturbations. This article aims to reconcile this neuroscience theory with computer science and artificial-intelligence theories wherein artificial agents receive input data derived from the environment’s state and infer internal data structures used to guide decisions. Two critical challenges arise in both the agent’s active role and the inference algorithm’s scalability as the environment’s complexity increases. To address these challenges, we formalize artificial enactive inference through a new Spatial Enactive Markov Decision Process (SEMDP) model. This model rests on low-level control loops enacted in a three-dimensional Euclidean space containing objects. Based on the SEMDP, we present a proof-of-concept cognitive architecture and an experiment to demonstrate the transcription of the theory of enactive inference into the domain of artificial intelligence and robotics.

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三维世界中的人工主动推理

主动推理理论是由卡尔-弗里斯顿和他的同事提出的，用以解释大脑如何通过主体的互动体验推断出有关世界的知识。感官运动状态会引起神经活动的扰动，而大脑会推断出世界中可能解释这些扰动的假设原因。本文旨在将这一神经科学理论与计算机科学和人工智能理论相调和，其中人工代理接收来自环境状态的输入数据，并推断出用于指导决策的内部数据结构。随着环境复杂性的增加，代理的主动作用和推理算法的可扩展性都面临着两大挑战。为了应对这些挑战，我们通过一个新的空间主动马尔可夫决策过程（SEMDP）模型，将人工主动推理正规化。该模型基于在包含物体的三维欧几里得空间中执行的低级控制循环。在 SEMDP 的基础上，我们提出了一个概念验证认知架构和一个实验，以证明主动推理理论在人工智能和机器人领域的应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Cognitive Systems Research 工程技术-计算机：人工智能

CiteScore

9.40

自引率

5.10%

发文量

审稿时长

>12 weeks

期刊介绍： Cognitive Systems Research is dedicated to the study of human-level cognition. As such, it welcomes papers which advance the understanding, design and applications of cognitive and intelligent systems, both natural and artificial. The journal brings together a broad community studying cognition in its many facets in vivo and in silico, across the developmental spectrum, focusing on individual capacities or on entire architectures. It aims to foster debate and integrate ideas, concepts, constructs, theories, models and techniques from across different disciplines and different perspectives on human-level cognition. The scope of interest includes the study of cognitive capacities and architectures - both brain-inspired and non-brain-inspired - and the application of cognitive systems to real-world problems as far as it offers insights relevant for the understanding of cognition. Cognitive Systems Research therefore welcomes mature and cutting-edge research approaching cognition from a systems-oriented perspective, both theoretical and empirically-informed, in the form of original manuscripts, short communications, opinion articles, systematic reviews, and topical survey articles from the fields of Cognitive Science (including Philosophy of Cognitive Science), Artificial Intelligence/Computer Science, Cognitive Robotics, Developmental Science, Psychology, and Neuroscience and Neuromorphic Engineering. Empirical studies will be considered if they are supplemented by theoretical analyses and contributions to theory development and/or computational modelling studies.