Abstract
As a conventional metric, spectrum efficiency has been investigated widely in communication systems due to the limited bandwidth resources and increasing subscriber density. Beamforming technology is used in TD-LTE-A and 5G downlink to improve the spectrum efficiency and system capacity, and a proper resource allocation algorithm can also be used to improve the spectrum efficiency on the premise of satisfying user equipment (UE) requirements. In recent years, energy efficiency has attracted more and more attention as the power consumption on the communication systems increases rapidly, which lays a heavy burden on the environment. In this paper, we propose a joint resource allocation and power allocation algorithm in multi-user beamforming mode, which aims at maximizing the energy efficiency, and also takes UE requirements and spectrum efficiency into consideration. The proposed algorithm first calculates the user priorities and gives a UE grouping method to allocate resource blocks (RBs) to different UEs under the assumption that the power is equally allocated among UEs on the same RB. After that, on each RB, it calculates the power allocation among different UEs to realize the improvement of energy efficiency. In addition, the satisfaction of UE requirements is added in the algorithm as a constraint. Simulation results demonstrate that the proposed algorithm shows an excellent performance on system capacity, i.e., spectrum efficiency, and also provides higher energy efficiency than existing algorithms. Moreover, the UE requirements can be better satisfied and system fairness can also be improved.
Highlights
A S A KEY technology in Long Term Evolution Advanced (LTE-A) system, multiple input multiple output (MIMO) technology shows excellent performance on peak data rate, spectrum efficiency and latency [1], and will continue playing an important role in 5G networks [2]
We propose an energy efficiency aware joint resource allocation and power allocation algorithm considering such performances based on ZF beamforming technology in multi-user MIMO scenario
The simplex power allocation algorithm focused on the optimization of power allocation, conventional Round Robin (RR) algorithm is used as the resource allocation scheme, which wastes system resource in some unnecessary user equipment (UE) resulting in the decrease of system capacity, and its energy efficiency performance is worse than the proposed algorithm
Summary
A S A KEY technology in Long Term Evolution Advanced (LTE-A) system, multiple input multiple output (MIMO) technology shows excellent performance on peak data rate, spectrum efficiency and latency [1], and will continue playing an important role in 5G networks [2]. The algorithm in [18] considers the energy efficiency and spectrum efficiency with low complexity, the authors do not take the fairness and data rate requirement into consideration. To the best of our knowledge, there is no existing work about resource allocation and power allocation considering the performance metrics including spectrum efficiency, energy efficiency, data rate requirement and fairness comprehensively. To solve this problem, we propose an energy efficiency aware joint resource allocation and power allocation algorithm considering such performances based on ZF beamforming technology in multi-user MIMO scenario.
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