Reasoning AI Performance Degradation in 6G Networks with Large Language Models

Liming Huang, Yulei Wu, Dimitra Simeonidou
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Abstract

The integration of Artificial Intelligence (AI) within 6G networks is poised to revolutionize connectivity, reliability, and intelligent decision-making. However, the performance of AI models in these networks is crucial, as any decline can significantly impact network efficiency and the services it supports. Understanding the root causes of performance degradation is essential for maintaining optimal network functionality. In this paper, we propose a novel approach to reason about AI model performance degradation in 6G networks using the Large Language Models (LLMs) empowered Chain-of-Thought (CoT) method. Our approach employs an LLM as a ''teacher'' model through zero-shot prompting to generate teaching CoT rationales, followed by a CoT ''student'' model that is fine-tuned by the generated teaching data for learning to reason about performance declines. The efficacy of this model is evaluated in a real-world scenario involving a real-time 3D rendering task with multi-Access Technologies (mATs) including WiFi, 5G, and LiFi for data transmission. Experimental results show that our approach achieves over 97% reasoning accuracy on the built test questions, confirming the validity of our collected dataset and the effectiveness of the LLM-CoT method. Our findings highlight the potential of LLMs in enhancing the reliability and efficiency of 6G networks, representing a significant advancement in the evolution of AI-native network infrastructures.
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利用大型语言模型推理 6G 网络中的人工智能性能下降问题
人工智能(AI)在 6G 网络中的集成有望彻底改变网络的连接性、可靠性和智能决策。然而,人工智能模型在这些网络中的性能至关重要,因为任何性能下降都会严重影响网络效率及其支持的服务。了解性能下降的根本原因对于保持最佳网络功能至关重要。我们的方法采用大型语言模型(LLM)作为 "教师 "模型,通过零点提示生成教学 CoT 原理,然后由 CoT "学生 "模型根据生成的教学数据进行微调,以学习推理性能下降。该模型的功效在一个真实世界场景中进行了评估,该场景涉及使用多种接入技术(mAT)(包括用于数据传输的 WiFi、5G 和 LiFi)的实时 3D 渲染任务。实验结果表明,我们的方法在构建的测试问题上达到了 97% 以上的推理准确率,证实了我们收集的数据集的有效性和 LLM-CoT 方法的有效性。我们的研究结果凸显了 LLM 在提高 6G 网络可靠性和效率方面的潜力,是人工智能原生网络基础设施演进过程中的一大进步。
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