Energy Efficient Massive MIMO Array Configurations
Hardy Halbauer, Andreas Weber, Dirk Wiegner, Thorsten Wild

TL;DR
This paper explores how hybrid array architectures can optimize energy efficiency in massive MIMO systems across varying user loads, balancing spectral efficiency and power consumption.
Contribution
It introduces design strategies for hybrid array configurations that improve energy efficiency in massive MIMO deployments under different user scenarios.
Findings
Hybrid architectures reduce power consumption during low user load.
Optimized configurations maintain spectral efficiency and service quality.
Energy efficiency improvements are significant compared to conventional setups.
Abstract
The high spectral efficiency of massive MIMO (Multiple Input Multiple Output) is mainly achieved through the exploitation of spatial multiplexing, i.e. by using a high number of MIMO layers that are applied simultaneously to many users. The power consumption of a massive MIMO base station is determined by the hardware driving a high number of antenna ports and elements. This paper focuses on practical deployment situations with varying user load. During hours with low number of users a certain significant part of hardware power consumption would remain with conventional massive MIMO processing, while the full potential of spectral efficiency cannot be exploited due to the low number of users, resulting in low power efficiency and cost. We investigate the impact of different hybrid array architectures on spectral efficiency, average user throughput and power consumption and show how to…
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