Suppression of negative tweets using reinforcement learning systems

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

Cognitive Systems Research Pub Date : 2023-12-29 DOI:10.1016/j.cogsys.2023.101207

Kazuteru Miyazaki , Hitomi Miyazaki

引用次数: 0

Abstract

In recent years, damage caused by negative tweets has become a social problem. In this paper, we consider a method of suppressing negative tweets by using reinforcement learning. In particular, we consider the case where tweet writing is modeled as a multi-agent environment. Numerical experiments verify the effects of suppression using various reinforcement learning methods. We will also verify robustness to environmental changes. We compared the results of Profit Sharing (PS) and Q-learning (QL) as reinforcement learning methods to confirm the effectiveness of PS, and confirmed the behavior of the rationality theorem in a multi-agent environment. Furthermore, in experiments regarding the ability to follow environmental changes, it was confirmed that PS is more robust than QL. If machines can appropriately intervene and interact with posts made by humans, we can expect that negative tweets and even blow-ups can be suppressed automatically without the need for costly human eye monitoring.

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利用强化学习系统抑制负面推文

近年来，负面推文造成的损害已成为一个社会问题。在本文中，我们考虑了一种利用强化学习抑制负面推文的方法。我们特别考虑了将推文写作模拟为多代理环境的情况。数值实验验证了使用各种强化学习方法抑制负面推文的效果。我们还将验证对环境变化的鲁棒性。我们比较了利润分享（PS）和 Q-learning（QL）作为强化学习方法的结果，确认了利润分享的有效性，并证实了理性定理在多代理环境中的行为。此外，在有关跟随环境变化能力的实验中，证实了 PS 比 QL 更稳健。如果机器能对人类发布的帖子进行适当的干预和互动，那么我们就可以预期，负面推文甚至是爆炸性事件都能被自动抑制，而无需昂贵的人眼监控。

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.