Abstract
Hybrid precoding is a promising technology for massive multiple-input multiple-output (MIMO) systems. It can reduce the number of radio frequency (RF) chains. However, the power consumption is still very high owing to the large-scale antenna array. In this paper, we propose an energy-efficient precoding scheme based on antenna selection technology. The precoding scheme greatly increases the energy efficiency (EE) of the system. In the first step, we derive an exact closed-form expression of EE. Meanwhile, we further study the relationship between the number of transmit antennas and EE on the basis of the exact closed-form expression of EE. We prove that there exists an optimal value. When the number of transmit antennas equals to the value, the EE of the system can reach the maximum by a proper hybrid precoding scheme. Then, we propose an antenna selection algorithm to select antennas from the transmit antennas. And the number of selected antennas equals to the optimal value. Subsequently, we design the analog precoder based on a codebook to maximize the equivalent channel gain. At last, we further improve the EE by baseband digital precoding. The precoding algorithm we proposed offers a compromise between spectral efficiency (SE) and EE in millimeter wave (mmWave) massive MIMO systems. Finally, simulation results validate our theoretical analysis and show that a substantial EE gain can be obtained over the precoding scheme we proposed without large performance loss.
Highlights
Millimeter wave band communication recently acquires more and more attention owing to its great advantages [1,2,3,4]
We first compare the performance of different algorithms in terms of EE with different antenna array sizes
The performance of the spectral efficient hybrid precoding scheme is close to that of the digital precoding scheme, and the performance of the energyefficient algorithm is lower than that of the spectral efficient algorithm in terms of spectral efficiency (SE). This is because the energyefficient algorithm sacrifices part of the spectrum efficiency to improve the energy efficiency of the system
Summary
Millimeter wave band communication recently acquires more and more attention owing to its great advantages [1,2,3,4]. Precoding can eliminate interference between different users and reduce hardware complexity. Precoding is more favored over mmWave MIMO communication systems. Owing to the large amount of antennas deployed in mmWave massive MIMO systems, the costs are very huge and it is impossible to popularize in practice [12]. A hybrid precoding scheme comprising both digital and analog processing is capable of reducing the number of RF chains greatly. The hybrid precoding scheme is widely used in mmWave MIMO systems. In consideration of a single-user scenario, a fully connected architecture-based hybrid precoding scheme is proposed in [13, 14], where each RF chain is connected to all antennas by analog phase shifters (APSs) and RF adders. The number of RF chains is greatly reduced in the fully connected architecture. In the fully connected architecture, the number of APSs is equal to the product of the number
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