可扩展和通用的路径损耗图预测

arXiv - CS - Information Theory Pub Date : 2023-12-06 DOI:arxiv-2312.03950

Ju-Hyung Lee, Andreas F. Molisch

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引用次数: 0

摘要

大规模信道预测，即根据地理/地貌/建筑物地图估算路径损耗，是无线网络规划的重要组成部分。基于光线跟踪（RT）的方法已被广泛使用多年，但这些方法需要大量的计算工作，而随着网络密度的增加和/或 B5G/6G 系统中更高频率的使用，这些计算工作可能会变得非常困难。在本文中，我们提出了一种数据驱动、无模型的路径损耗图预测（PMP）方法，称为 PMNet。PMNet 采用监督学习方法：在有限的 RT（或信道测量）数据和地图数据上对其进行训练。训练完成后，PMNet 可以在几毫秒内高精度（RMSE 水平为 10^{-2}$）地预测位置上的路径损耗。我们通过采用迁移学习（TL）进一步扩展了 PMNet。迁移学习允许 PMNet 通过从预先训练的模型中迁移知识，快速（训练速度快 x5.6）、高效（使用的数据少 x4.5）地学习新的网络场景，同时保持准确性。我们的研究结果表明，PMNet 是一种可升级、可推广的基于 ML 的 PMP 方法，显示了它在多个网络优化应用中的应用潜力。

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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A Scalable and Generalizable Pathloss Map Prediction

Large-scale channel prediction, i.e., estimation of the pathloss from geographical/morphological/building maps, is an essential component of wireless network planning. Ray tracing (RT)-based methods have been widely used for many years, but they require significant computational effort that may become prohibitive with the increased network densification and/or use of higher frequencies in B5G/6G systems. In this paper, we propose a data-driven, model-free pathloss map prediction (PMP) method, called PMNet. PMNet uses a supervised learning approach: it is trained on a limited amount of RT (or channel measurement) data and map data. Once trained, PMNet can predict pathloss over location with high accuracy (an RMSE level of $10^{-2}$) in a few milliseconds. We further extend PMNet by employing transfer learning (TL). TL allows PMNet to learn a new network scenario quickly (x5.6 faster training) and efficiently (using x4.5 less data) by transferring knowledge from a pre-trained model, while retaining accuracy. Our results demonstrate that PMNet is a scalable and generalizable ML-based PMP method, showing its potential to be used in several network optimization applications.

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arXiv - CS - Information Theory

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