Time domain bi-level downlink power control for cross-tier interference mitigation in HetNet

Haining Wang, Z. Ding, M. Cierny, R. Wichman
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引用次数: 5

Abstract

We develop and analyze a time-domain bi-level power control scheme using Almost Blank Subframe (ABS) for downlink cross-tier interference mitigation. Even for only one femto cell and macro cell, the optimization problem given rate constraint is nonconvex. We prove that by relaxing the integer requirement for subframe division, the optimal strategy is using either power control or ABS individually, and a joint scheme is not needed in the optimal solution. Imposing the integer subframe number requirement, this conclusion is no longer true. However, we show that the optimal solution also assumes simple structure by choosing from one of three feasible solutions. Simulation results show that the joint power control and ABS scheme outperforms traditional single-level power control scheme for downlink cross-tier interference mitigation with low computational complexity.
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HetNet中跨层干扰抑制的时域双电平下行功率控制
我们开发和分析了一种使用几乎空白子帧(ABS)的时域双电平功率控制方案,用于下行链路跨层干扰缓解。即使只有一个单元格和一个宏单元格,给定速率约束的优化问题也是非凸的。通过放宽子车架划分的整数要求,证明了最优策略是单独使用动力控制或ABS,最优解不需要联合方案。施加整数子帧数要求,这个结论不再成立。然而,我们证明了最优解也假设结构简单,从三个可行解中选择一个。仿真结果表明,联合功率控制与ABS方案在抑制下行链路跨层干扰方面优于传统的单电平功率控制方案,且计算复杂度低。
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