Abstract
To provide users with high throughputs, the fifth generation (5G) and beyond networks are expected to utilize the Massive Multiple-Input Multiple-Output technology (MMIMO), i.e., large antenna arrays. However, additional antennas require the installation of dedicated hardware. As a result the power consumption of a 5G MMIMO network grows. This implies, e.g., higher operator costs. From this angle, the improvement of Energy Efficiency (EE) is identified as one of the key challenges for the 5G and beyond networks. EE can be improved through intelligent antenna switching, i.e., disabling some of the antennas installed at a 5G MMIMO Base Station (BS) when there are few User Equipments (UEs) within the cell area. To improve EE in this scenario we propose to utilize a sub-class of Machine Learning techniques named Reinforcement Learning (RL). Because 5G and beyond networks are expected to come with accurate UE localization, the proposed RL algorithm is based on UE location information stored in an intelligent database named a Radio Environment Map (REM). Two approaches are proposed: first EE is maximized independently for every set of UEs’ positions. After that the process of learning is accelerated by exploiting similarities between data in REM, i.e., REM-Empowered Action Selection Algorithm (REASA) is proposed. The proposed RL algorithms are evaluated with the use of a realistic simulator of the 5G MMIMO network utilizing an accurate 3D-Ray-Tracing radio channel model. The utilization of RL provides about 18.5% EE gains over algorithms based on standard optimization methods. Moreover, when REASA is used the process of learning can be accomplished approximately two times faster.
Highlights
M OBILE network throughput can be significantly increased by the utilization of the Massive MultipleInput Multiple-Output (MMIMO) technology [1]
INTELLIGENT ANTENNA SWITCHING ALGORITHM To obtain the subset of active antennas we propose to extend the MMIMO Base Station (BS) by two additional functional blocks creating together the Intelligent Antenna Switching Algorithm, i.e., Antenna Number Computation Block (AANCB) and Antenna Selection Block (ASB)
SIMULATIONS RESULTS The algorithms aimed at increasing the EE of a MMIMO network by switching off selected antennas, are evaluated in
Summary
M OBILE network throughput can be significantly increased by the utilization of the Massive MultipleInput Multiple-Output (MMIMO) technology [1]. The large number of antenna elements allows the system to, e.g., increase the amount of the wanted signal’s power being received by the User Equipment (UE). It can be achieved through proper weighting of the signal transmitted from each of the BS antennas, i.e., beamforming. The underlying cost of improved network throughput is reduced Energy Efficiency (EE). This phenomenon is mainly related to the increased power consumption caused by additional hardware related to each of the BS antennas [3].
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
