电子与信息学报
電子與信息學報
전자여신식학보
JOURNAL OF ELECTRONICS & INFORMATION TECHNOLOGY
2015年
7期
1650-1655
,共6页
协同通信%双向中继%格规约%预编码%检测
協同通信%雙嚮中繼%格規約%預編碼%檢測
협동통신%쌍향중계%격규약%예편마%검측
Cooperative communication%Two-way relaying%Lattice Reduction (LR)%Precoding%Detection
双向中继协同通信系统的两用户节点通过中继节点相互交换信息,显示了其在频谱效率上的优势。在系统装备多天线的情况下,为进一步改善误比特率性能,论文提出一种基于格规约算法的用户联合预编码与检测算法。该算法通过一次复数域格规约处理来提高信道增益矩阵的正交性,预编码和检测算法联合应用处理后的矩阵,中继节点仅需要对接收信号进行求模运算和放大转发,算法的复杂度主要集中在两用户节点上。仿真结果显示:相比于传统的预编码和检测算法,用户联合预编码与检测算法在计算复杂度仅增加了对信道增益矩阵一次格规约计算的前提下,可显著降低系统的误比特率,提高分集增益,具有工程实用价值。
雙嚮中繼協同通信繫統的兩用戶節點通過中繼節點相互交換信息,顯示瞭其在頻譜效率上的優勢。在繫統裝備多天線的情況下,為進一步改善誤比特率性能,論文提齣一種基于格規約算法的用戶聯閤預編碼與檢測算法。該算法通過一次複數域格規約處理來提高信道增益矩陣的正交性,預編碼和檢測算法聯閤應用處理後的矩陣,中繼節點僅需要對接收信號進行求模運算和放大轉髮,算法的複雜度主要集中在兩用戶節點上。倣真結果顯示:相比于傳統的預編碼和檢測算法,用戶聯閤預編碼與檢測算法在計算複雜度僅增加瞭對信道增益矩陣一次格規約計算的前提下,可顯著降低繫統的誤比特率,提高分集增益,具有工程實用價值。
쌍향중계협동통신계통적량용호절점통과중계절점상호교환신식,현시료기재빈보효솔상적우세。재계통장비다천선적정황하,위진일보개선오비특솔성능,논문제출일충기우격규약산법적용호연합예편마여검측산법。해산법통과일차복수역격규약처리래제고신도증익구진적정교성,예편마화검측산법연합응용처리후적구진,중계절점부수요대접수신호진행구모운산화방대전발,산법적복잡도주요집중재량용호절점상。방진결과현시:상비우전통적예편마화검측산법,용호연합예편마여검측산법재계산복잡도부증가료대신도증익구진일차격규약계산적전제하,가현저강저계통적오비특솔,제고분집증익,구유공정실용개치。
Two-way relay cooperative communication system demonstrates significant gain in spectral efficiency when two user nodes exchange information via a relay node. For improving the Bit Error Rate (BER) performance, a joint precoding and detection algorithm is proposed based on Lattice Reduction (LR) when all the nodes equipped with multiple antennas. The proposed algorithm modifies the channel gain matrix into more orthogonal matrix by the complex lattice reduction. Precoding and detection algorithms are combined to apply the modified matrix. The relay node processes the receiving signal by simple modulo operation and amplification. The main complexity of the algorithm is in the two user nodes. The simulation evaluations show that, the computational complexity of the algorithm is increasing just because the channel gain matrix is modified by lattice reduction. The proposed joint precoding and detection algorithm can significantly improve the performance of BER and achieve full diversity, hence it is applicable to engineering.
