The article explores the applications of Inverse Reinforcement Learning (IRL) in Next-Generation Networking (NGN). It first provides a comprehensive introduction to the fundamentals of IRL, including its differences from conventional Deep Reinforcement Learning (DRL) and the evolution of IRL algorithms.
The article then discusses the key motivations for applying IRL in NGN, which include reward unavailability, environmental complexity, and the need for efficient policy optimization. It reviews existing literature on IRL-enabled networking solutions, covering applications such as coordination detection in cognitive radar networks, IoT security enhancement, and QoS prediction in dynamic networks.
To demonstrate the process of applying IRL in NGN, the article presents a case study on human-centric prompt engineering in Generative AI-enabled networks. It compares the workflows and effectiveness of both DRL-based and IRL-based approaches, showing that IRL can significantly outperform DRL in aligning with human preferences for AI-generated content.
Finally, the article highlights future directions for IRL in NGN, including the potential of mixture-of-experts, integration of human feedback, and addressing security concerns related to the reliance on expert trajectories.
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arxiv.org
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by Yinqiu Liu,R... ב- arxiv.org 04-03-2024
https://arxiv.org/pdf/2404.01583.pdfשאלות מעמיקות