针对先进的长期演进(LTE-advanced,LTE-A)系统中,物理上行链路控制信道(physical uplink control channel,PUCCH)采用空间正交资源传输分集方式发送上行控制信息时,两发射天线端口通过使用不同的循环移位使参考信号正交的特点,提出一种...针对先进的长期演进(LTE-advanced,LTE-A)系统中,物理上行链路控制信道(physical uplink control channel,PUCCH)采用空间正交资源传输分集方式发送上行控制信息时,两发射天线端口通过使用不同的循环移位使参考信号正交的特点,提出一种特殊形式的信号模型,并描述了基于最小二乘(least square,LS)和三次样条插值,基于LS和离散余弦变换(discrete cosine transform,DCT)插值以及基于最小均方误差(minimum mean square error,MMSE)和DCT的3种复杂度依次增加的信道估计算法。仿真结果表明,基于MMSE和DCT的信道估计算法性能最优。展开更多
Quadrature signaling-based cooperative transmission is an efficient and simple scheme to obtain spatial diversity.However,this scheme causes date rate loss compared with direct transmission.In this work,our focus is o...Quadrature signaling-based cooperative transmission is an efficient and simple scheme to obtain spatial diversity.However,this scheme causes date rate loss compared with direct transmission.In this work,our focus is on recovering from the data rate loss while simultaneously achieving spatial diversity.Particularly,an enhanced quadrature signaling-based cooperative scheme was designed,which can realize full-rate transmission by using the signal space diversity(SSD)technique.Then,accurate bit error rate(BER)expression for the full-rate scheme was derived over independent and non-identically distributed(INID)Rayleigh fading channels.Specifically,a closed-form BER expression is obtained,which is quite tight over the whole SNR range,and thus allows for rapid and efficient evaluation of system performance under various channel conditions.Moreover,an asymptotic approximation of the BER was derived to show that the full-rate scheme can achieve full diversity.Simulation results verify the tightness of the analysis and show that the full-rate scheme significantly outperforms the traditional quadrature signaling-based scheme by about 2 dB with the same complexity order.展开更多
文摘针对先进的长期演进(LTE-advanced,LTE-A)系统中,物理上行链路控制信道(physical uplink control channel,PUCCH)采用空间正交资源传输分集方式发送上行控制信息时,两发射天线端口通过使用不同的循环移位使参考信号正交的特点,提出一种特殊形式的信号模型,并描述了基于最小二乘(least square,LS)和三次样条插值,基于LS和离散余弦变换(discrete cosine transform,DCT)插值以及基于最小均方误差(minimum mean square error,MMSE)和DCT的3种复杂度依次增加的信道估计算法。仿真结果表明,基于MMSE和DCT的信道估计算法性能最优。
基金Project(2012CB316100)supported by the National Basic Research Program of ChinaProjects(K50511010005,K50511010015)supported by the Fundamental Research Funds for the Central Universities of ChinaProject(B08038)supported by the"111"Program of China
文摘Quadrature signaling-based cooperative transmission is an efficient and simple scheme to obtain spatial diversity.However,this scheme causes date rate loss compared with direct transmission.In this work,our focus is on recovering from the data rate loss while simultaneously achieving spatial diversity.Particularly,an enhanced quadrature signaling-based cooperative scheme was designed,which can realize full-rate transmission by using the signal space diversity(SSD)technique.Then,accurate bit error rate(BER)expression for the full-rate scheme was derived over independent and non-identically distributed(INID)Rayleigh fading channels.Specifically,a closed-form BER expression is obtained,which is quite tight over the whole SNR range,and thus allows for rapid and efficient evaluation of system performance under various channel conditions.Moreover,an asymptotic approximation of the BER was derived to show that the full-rate scheme can achieve full diversity.Simulation results verify the tightness of the analysis and show that the full-rate scheme significantly outperforms the traditional quadrature signaling-based scheme by about 2 dB with the same complexity order.
