Optimized time-shifted pilots for maritime massive MIMO communication systems

Te Wei, W. Feng, N. Ge, Jianhua Lu
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引用次数: 13

Abstract

With the growing demand for mobile multimedia services in marine activities, maritime communication systems are impelled to provide higher data rates with limited radio resources. Massive multiple-input multiple-output (MIMO) is thus recognized as a promising technology in this case. However, pilot contamination leads to strong inter-cell interference and greatly degrades system performance. In this paper, we focus on the joint position-power optimization of time-shifted pilots in a maritime massive MIMO system. Based on large-scale channel fading information, we first propose an efficient user scheduling algorithm, and then optimize the pilot power under the average power constraint. Further, we optimize the positions and power of the pilots iteratively. Simulation results show that our proposed scheme achieves a considerable coordination gain in system performance in terms of spectral efficiency.
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海上大规模MIMO通信系统时移导频优化
随着海上活动对流动多媒体服务的需求日益增长,海上通信系统必须在有限的无线电资源下提供更高的数据速率。因此,在这种情况下,大规模多输入多输出(MIMO)被认为是一种有前途的技术。然而,导频污染会导致较强的小区间干扰,大大降低系统性能。本文研究了海上大规模MIMO系统中时移导航员的联合位置功率优化问题。基于大规模信道衰落信息,提出了一种高效的用户调度算法,并在平均功率约束下对导频功率进行了优化。此外,我们迭代优化了飞行员的位置和力量。仿真结果表明,从频谱效率的角度来看,我们提出的方案在系统性能方面取得了相当大的协调增益。
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