提出了一种长期演进项目的后续演进(long term evolution-advanced,LTE-A)中的信漏噪比联合校准多用户多流波束赋形方案。基于信漏噪比准则进行波束赋形消除多用户间干扰,实现LTE-A下的多用户多流波束赋形传输;建立信道校准机制,补偿实...提出了一种长期演进项目的后续演进(long term evolution-advanced,LTE-A)中的信漏噪比联合校准多用户多流波束赋形方案。基于信漏噪比准则进行波束赋形消除多用户间干扰,实现LTE-A下的多用户多流波束赋形传输;建立信道校准机制,补偿实际通信系统中的射频增益影响,恢复信道互易性,提升实际通信系统中的误码率性能。在适用于LTE-A的空间信道扩展模型(spatial channel model extension,SCME)信道环境下进行了仿真,仿真结果表明,该方法相比常用的基于信干噪比准则的块对角化方案误码率性能有明显提升,且能在存在射频增益影响的非理想环境中恢复信道互易性,提升系统传输性能。展开更多
不同基站和用户间由于距离变化等使传播时延不同而造成小区间的迟延干扰,严重恶化了系统性能。为此,探讨了如何利用SLNR(Signal to Leakage Noise Ratio)预编码抑制小区间的迟延干扰,给出了小区协作的系统模型及小区间迟延干扰分析。针...不同基站和用户间由于距离变化等使传播时延不同而造成小区间的迟延干扰,严重恶化了系统性能。为此,探讨了如何利用SLNR(Signal to Leakage Noise Ratio)预编码抑制小区间的迟延干扰,给出了小区协作的系统模型及小区间迟延干扰分析。针对存在迟延的LTE(Long Term Evolution)系统设计了一种基于SLNR准则的迟延SLNR预编码,以抑制小区间的迟延干扰,降低接收终端的复杂度。同时,对迟延SLNR预编码在LTE系统多基站协作环境下的性能进行了仿真。仿真结果表明,该方法对小区间的迟延干扰有较好的抑制作用,对不同天线配置性能均较理想,与接收端处理方案比较性能有所改进。虽然信道估计误差对性能有一定影响,但在可接受范围。展开更多
针对多小区下行多进单出(multiple-input single-output,MISO)干扰信道,在控制每个用户信漏噪比(signal to leakage plus noise ratio,SLNR)低于门限值的概率小于中断概率的约束条件下,以最小化系统总加权发射功率为优化目标设计线性预...针对多小区下行多进单出(multiple-input single-output,MISO)干扰信道,在控制每个用户信漏噪比(signal to leakage plus noise ratio,SLNR)低于门限值的概率小于中断概率的约束条件下,以最小化系统总加权发射功率为优化目标设计线性预编码。利用半定松弛和Bernstein-type不等式,将非凸的具有随机性的原始优化问题转换为确定性凸优化问题。仿真结果表明,所提出的预编码设计比worst-case等比较方案耗费的总加权发射功率更少。展开更多
The performance of downlink multiple-input multiple-output (MIMO) cellular networks is limited by co-channel interference (CCI). In this paper, we propose a linear precoding scheme based on signal-to-leakage-and-noise...The performance of downlink multiple-input multiple-output (MIMO) cellular networks is limited by co-channel interference (CCI). In this paper, we propose a linear precoding scheme based on signal-to-leakage-and-noise ratio (SLNR) criteria which can reduce the CCI significantly. Since each user’s SLNR value is corresponding to the largest eigenvalue of the generalized matrix which indicates the channel quality that we propose a scheme to do a dynamic power allocation as an auxiliary way to improve SLNR precoding scheme. We use the perturbation theory to update each user’s SLNR value each time step in time-varying channels rather than directly decompose the channel matrix so as to reduce the amount of calculation. The simulation results show that the proposed scheme offers about 0.3 bps/Hz additional capacity gain and 0.5 dB BER gain over conventional SLNR precoding method with lower computational complexity. And it also obtains about 0.5 bps/Hz additional capacity gain and 1 dB BER gain compared to the scheme only update the preceding vectors.展开更多
文摘提出了一种长期演进项目的后续演进(long term evolution-advanced,LTE-A)中的信漏噪比联合校准多用户多流波束赋形方案。基于信漏噪比准则进行波束赋形消除多用户间干扰,实现LTE-A下的多用户多流波束赋形传输;建立信道校准机制,补偿实际通信系统中的射频增益影响,恢复信道互易性,提升实际通信系统中的误码率性能。在适用于LTE-A的空间信道扩展模型(spatial channel model extension,SCME)信道环境下进行了仿真,仿真结果表明,该方法相比常用的基于信干噪比准则的块对角化方案误码率性能有明显提升,且能在存在射频增益影响的非理想环境中恢复信道互易性,提升系统传输性能。
文摘不同基站和用户间由于距离变化等使传播时延不同而造成小区间的迟延干扰,严重恶化了系统性能。为此,探讨了如何利用SLNR(Signal to Leakage Noise Ratio)预编码抑制小区间的迟延干扰,给出了小区协作的系统模型及小区间迟延干扰分析。针对存在迟延的LTE(Long Term Evolution)系统设计了一种基于SLNR准则的迟延SLNR预编码,以抑制小区间的迟延干扰,降低接收终端的复杂度。同时,对迟延SLNR预编码在LTE系统多基站协作环境下的性能进行了仿真。仿真结果表明,该方法对小区间的迟延干扰有较好的抑制作用,对不同天线配置性能均较理想,与接收端处理方案比较性能有所改进。虽然信道估计误差对性能有一定影响,但在可接受范围。
文摘针对多小区下行多进单出(multiple-input single-output,MISO)干扰信道,在控制每个用户信漏噪比(signal to leakage plus noise ratio,SLNR)低于门限值的概率小于中断概率的约束条件下,以最小化系统总加权发射功率为优化目标设计线性预编码。利用半定松弛和Bernstein-type不等式,将非凸的具有随机性的原始优化问题转换为确定性凸优化问题。仿真结果表明,所提出的预编码设计比worst-case等比较方案耗费的总加权发射功率更少。
文摘The performance of downlink multiple-input multiple-output (MIMO) cellular networks is limited by co-channel interference (CCI). In this paper, we propose a linear precoding scheme based on signal-to-leakage-and-noise ratio (SLNR) criteria which can reduce the CCI significantly. Since each user’s SLNR value is corresponding to the largest eigenvalue of the generalized matrix which indicates the channel quality that we propose a scheme to do a dynamic power allocation as an auxiliary way to improve SLNR precoding scheme. We use the perturbation theory to update each user’s SLNR value each time step in time-varying channels rather than directly decompose the channel matrix so as to reduce the amount of calculation. The simulation results show that the proposed scheme offers about 0.3 bps/Hz additional capacity gain and 0.5 dB BER gain over conventional SLNR precoding method with lower computational complexity. And it also obtains about 0.5 bps/Hz additional capacity gain and 1 dB BER gain compared to the scheme only update the preceding vectors.
