Based on the Overlapped Multiplexing Principle[12],a frequency domain OVFDM(Overlapped Frequency Domain Multiplexing) Coding is proposed.By the data weighted shift overlapped version of any band-limited Multiplexing T...Based on the Overlapped Multiplexing Principle[12],a frequency domain OVFDM(Overlapped Frequency Domain Multiplexing) Coding is proposed.By the data weighted shift overlapped version of any band-limited Multiplexing Transfer Function H(f) the coding gain and spectral efficiency are both achieved.The heavier the overlap of the data weighted Multiplexing Transfer Function H(f),the higher the coding gain and spectral efficiency as well as the closer the output to the optimum complex Gaussian distribution.The bit error probability performance is estimated.The time domain OVTDM(Overlapped Time Domain Multiplexing) Coding,the dual of OVFDM in time domain is incidentally proposed as well.Both theoretical analysis and testified simulations show that OVFDM(OVTDM) is suitable for high spectral efficiency application and its spectral efficiency is only roughly linear to SNR rather than the well-known logarithm to SNR.展开更多
提出了新的基于离散傅立叶变换(DFT)的重叠频分复用(Overlapped Frequency Division Multiplexing-OvFDM)或非正交频分复用(Non-orthogonal Frequency Division Multiplexing-NOFDM)系统。该系统利用相互重叠的子载波对所发送的数据符...提出了新的基于离散傅立叶变换(DFT)的重叠频分复用(Overlapped Frequency Division Multiplexing-OvFDM)或非正交频分复用(Non-orthogonal Frequency Division Multiplexing-NOFDM)系统。该系统利用相互重叠的子载波对所发送的数据符号序列进行调制,形成复调制信号,接收端采用最大似然序列检测。该系统的频谱效率与重叠重数成正比,可以大幅度的提高频谱效率;并且该系统子载波带宽大于信道相关带宽,系统在随机时变信道中会自动产生隐分集增益,因此具有较强的抗衰落能力。展开更多
Non-orthogonal time-frequency division multiplexing (NTFDM) transmission scheme has been proposed to further improve the bandwidth efficiency and overcome the drawbacks of the conventional orthogonal frequency divis...Non-orthogonal time-frequency division multiplexing (NTFDM) transmission scheme has been proposed to further improve the bandwidth efficiency and overcome the drawbacks of the conventional orthogonal frequency division multiplexing (OFDM) method. Based on such approach, the fast signal detection algorithm, semidefinite programming (SDP) detection, has been studied. As the coefficient matrix tends to be ill conditioned, the modified SDP algorithm combined with successive interference cancellation (SIC) has been developed. The improved algorithm is a good tradeoff between performance and detection complexity. Simulation results show that the proposed algorithm can achieve better performance than cutting plane aided SDP method.展开更多
基金The NNSF(National Nature Science Foundation)of China for their continuously long term support by key projects
文摘Based on the Overlapped Multiplexing Principle[12],a frequency domain OVFDM(Overlapped Frequency Domain Multiplexing) Coding is proposed.By the data weighted shift overlapped version of any band-limited Multiplexing Transfer Function H(f) the coding gain and spectral efficiency are both achieved.The heavier the overlap of the data weighted Multiplexing Transfer Function H(f),the higher the coding gain and spectral efficiency as well as the closer the output to the optimum complex Gaussian distribution.The bit error probability performance is estimated.The time domain OVTDM(Overlapped Time Domain Multiplexing) Coding,the dual of OVFDM in time domain is incidentally proposed as well.Both theoretical analysis and testified simulations show that OVFDM(OVTDM) is suitable for high spectral efficiency application and its spectral efficiency is only roughly linear to SNR rather than the well-known logarithm to SNR.
文摘提出了新的基于离散傅立叶变换(DFT)的重叠频分复用(Overlapped Frequency Division Multiplexing-OvFDM)或非正交频分复用(Non-orthogonal Frequency Division Multiplexing-NOFDM)系统。该系统利用相互重叠的子载波对所发送的数据符号序列进行调制,形成复调制信号,接收端采用最大似然序列检测。该系统的频谱效率与重叠重数成正比,可以大幅度的提高频谱效率;并且该系统子载波带宽大于信道相关带宽,系统在随机时变信道中会自动产生隐分集增益,因此具有较强的抗衰落能力。
基金the National Natural Science Foundation of China (90604035)
文摘Non-orthogonal time-frequency division multiplexing (NTFDM) transmission scheme has been proposed to further improve the bandwidth efficiency and overcome the drawbacks of the conventional orthogonal frequency division multiplexing (OFDM) method. Based on such approach, the fast signal detection algorithm, semidefinite programming (SDP) detection, has been studied. As the coefficient matrix tends to be ill conditioned, the modified SDP algorithm combined with successive interference cancellation (SIC) has been developed. The improved algorithm is a good tradeoff between performance and detection complexity. Simulation results show that the proposed algorithm can achieve better performance than cutting plane aided SDP method.
