Online Learning for Intelligent Thermal Management of Interference-coupled and Passively Cooled Base Stations
October 11, 2024 Β· Declared Dead Β· π IEEE Transactions on Machine Learning in Communications and Networking
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Authors
Zhanwei Yu, Yi Zhao, Xiaoli Chu, Di Yuan
arXiv ID
2410.08799
Category
cs.NI: Networking & Internet
Cross-listed
eess.SP
Citations
0
Venue
IEEE Transactions on Machine Learning in Communications and Networking
Last Checked
4 months ago
Abstract
Passively cooled base stations (PCBSs) have emerged to deliver better cost and energy efficiency. However, passive cooling necessitates intelligent thermal control via traffic management, i.e., the instantaneous data traffic or throughput of a PCBS directly impacts its thermal performance. This is particularly challenging for outdoor deployment of PCBSs because the heat dissipation efficiency is uncertain and fluctuates over time. What is more, the PCBSs are interference-coupled in multi-cell scenarios. Thus, a higher-throughput PCBS leads to higher interference to the other PCBSs, which, in turn, would require more resource consumption to meet their respective throughput targets. In this paper, we address online decision-making for maximizing the total downlink throughput for a multi-PCBS system subject to constraints related on operating temperature. We demonstrate that a reinforcement learning (RL) approach, specifically soft actor-critic (SAC), can successfully perform throughput maximization while keeping the PCBSs cool, by adapting the throughput to time-varying heat dissipation conditions. Furthermore, we design a denial and reward mechanism that effectively mitigates the risk of overheating during the exploration phase of RL. Simulation results show that our approach achieves up to 88.6% of the global optimum. This is very promising, as our approach operates without prior knowledge of future heat dissipation efficiency, which is required by the global optimum.
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