We investigate how to cancel interference by using space time code and codeword space alignment for multiple-input multiple-output (MIMO) Y channel consisting of three users and a relay. All the nodes adopt Alamouti...We investigate how to cancel interference by using space time code and codeword space alignment for multiple-input multiple-output (MIMO) Y channel consisting of three users and a relay. All the nodes adopt Alamouti code. During the multiple access (MA) stage, two codewords within each reciprocal codeword pair are aligned through pre-coding. The relay decodes the elements of each codeword pair using the orthogonal property of effective channel matrix of Alamouti codeword. During the broadcast (BC) stage, the interference between codeword pairs at each user is eliminated by the orthogonal property of effective channel matrix of Alamouti codeword, instead of the interference alignment (IA) pre-coding. Thus, channel state information (CSI) is not required during the BC stage, which greatly reduce the amount of feedback.展开更多
为了使k个用户能够在多输入多输出Y(multi-input multi-output-Y)双向中继信道中利用物理层网络编码技术实现用户间信息交换,在上行链路阶段和下行链路阶段均采用广义信号对齐(GSA,general signal alignment)技术,提出了GSA-GSA方案。...为了使k个用户能够在多输入多输出Y(multi-input multi-output-Y)双向中继信道中利用物理层网络编码技术实现用户间信息交换,在上行链路阶段和下行链路阶段均采用广义信号对齐(GSA,general signal alignment)技术,提出了GSA-GSA方案。本方案将对齐信号从传统的方向子空间转移到变换子空间,在源节点和中继节点联合设计预编码矩阵和处理矩阵,克服了传统信号空间对齐成立的条件限制。同时分析了该方案的收发天线数目约束条件以及系统和速率,通过仿真对比可以看到当信噪比和系统自由度(Do F,degrees of freedom)都相同时,该方案能减少系统所需天线数目,提高系统可达和速率。展开更多
基金supported by Opening Foundation of Opening Project of Mine Informatization of Henan (KY2015-01)the Fundamental Research Funds for the Universities of Henan Province (NSFRF140126)
文摘We investigate how to cancel interference by using space time code and codeword space alignment for multiple-input multiple-output (MIMO) Y channel consisting of three users and a relay. All the nodes adopt Alamouti code. During the multiple access (MA) stage, two codewords within each reciprocal codeword pair are aligned through pre-coding. The relay decodes the elements of each codeword pair using the orthogonal property of effective channel matrix of Alamouti codeword. During the broadcast (BC) stage, the interference between codeword pairs at each user is eliminated by the orthogonal property of effective channel matrix of Alamouti codeword, instead of the interference alignment (IA) pre-coding. Thus, channel state information (CSI) is not required during the BC stage, which greatly reduce the amount of feedback.
文摘为了使k个用户能够在多输入多输出Y(multi-input multi-output-Y)双向中继信道中利用物理层网络编码技术实现用户间信息交换,在上行链路阶段和下行链路阶段均采用广义信号对齐(GSA,general signal alignment)技术,提出了GSA-GSA方案。本方案将对齐信号从传统的方向子空间转移到变换子空间,在源节点和中继节点联合设计预编码矩阵和处理矩阵,克服了传统信号空间对齐成立的条件限制。同时分析了该方案的收发天线数目约束条件以及系统和速率,通过仿真对比可以看到当信噪比和系统自由度(Do F,degrees of freedom)都相同时,该方案能减少系统所需天线数目,提高系统可达和速率。
