A neurosymbolic cognitive architecture framework for handling novelties in open worlds

IF 5.1 2区计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Artificial Intelligence Pub Date : 2024-03-15 DOI:10.1016/j.artint.2024.104111

Shivam Goel , Panagiotis Lymperopoulos , Ravenna Thielstrom , Evan Krause , Patrick Feeney , Pierrick Lorang , Sarah Schneider , Yichen Wei , Eric Kildebeck , Stephen Goss , Michael C. Hughes , Liping Liu , Jivko Sinapov , Matthias Scheutz

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Abstract

“Open world” environments are those in which novel objects, agents, events, and more can appear and contradict previous understandings of the environment. This runs counter to the “closed world” assumption used in most AI research, where the environment is assumed to be fully understood and unchanging. The types of environments AI agents can be deployed in are limited by the inability to handle the novelties that occur in open world environments. This paper presents a novel cognitive architecture framework to handle open-world novelties. This framework combines symbolic planning, counterfactual reasoning, reinforcement learning, and deep computer vision to detect and accommodate novelties. We introduce general algorithms for exploring open worlds using inference and machine learning methodologies to facilitate novelty accommodation. The ability to detect and accommodate novelties allows agents built on this framework to successfully complete tasks despite a variety of novel changes to the world. Both the framework components and the entire system are evaluated in Minecraft-like simulated environments. Our results indicate that agents are able to efficiently complete tasks while accommodating “concealed novelties” not shared with the architecture development team.

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处理开放世界中新奇事物的神经符号认知架构框架

所谓 "开放世界 "环境，是指可能出现新的物体、代理、事件等，并与先前对环境的理解相矛盾的环境。这与大多数人工智能研究中使用的 "封闭世界 "假设相矛盾，在 "封闭世界 "中，环境被假定为完全理解和不变的。由于无法处理开放世界环境中出现的新情况，人工智能代理可部署的环境类型受到了限制。本文提出了一个新颖的认知架构框架来处理开放世界中的新奇事物。该框架结合了符号规划、反事实推理、强化学习和深度计算机视觉来检测和适应新奇事物。我们介绍了利用推理和机器学习方法探索开放世界的通用算法，以促进对新奇事物的适应。检测和适应新奇事物的能力使建立在这一框架上的代理能够在世界发生各种新变化的情况下成功完成任务。我们在类似 Minecraft 的模拟环境中对框架组件和整个系统进行了评估。我们的结果表明，代理能够高效地完成任务，同时容纳未与架构开发团队共享的 "隐藏新奇事物"。

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来源期刊

Artificial Intelligence 工程技术-计算机：人工智能

CiteScore

11.20

自引率

1.40%

发文量

118

审稿时长

8 months

期刊介绍： The Journal of Artificial Intelligence (AIJ) welcomes papers covering a broad spectrum of AI topics, including cognition, automated reasoning, computer vision, machine learning, and more. Papers should demonstrate advancements in AI and propose innovative approaches to AI problems. Additionally, the journal accepts papers describing AI applications, focusing on how new methods enhance performance rather than reiterating conventional approaches. In addition to regular papers, AIJ also accepts Research Notes, Research Field Reviews, Position Papers, Book Reviews, and summary papers on AI challenges and competitions.

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