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 Frequency Division Multiplexing (NOFDM) systems make use of a transmission signal set which is not restricted to orthonormal bases unlike previous OFDM systems. The usage of non-orthogonal bases general...Non Orthogonal Frequency Division Multiplexing (NOFDM) systems make use of a transmission signal set which is not restricted to orthonormal bases unlike previous OFDM systems. The usage of non-orthogonal bases generally results in a trade-off between Bit Error Rate (BER) and receiver complexity. This paper studies the use of Gabor based on designing a Spectrally Efficient Multi-Carrier Modulation Scheme. Using Gabor Transform with a specific Gaussian envelope;we derive the expected BER-SNR performance. The spectral usage of such a NOFDM system when affected by a channel that imparts Additive White Gaussian Noise (AWGN) is estimated. We compare the obtained results with an OFDM system and observe that with comparable BER performance, this system gives a better spectral usage. The effect of window length on spectral usage is also analyzed.展开更多
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。
文摘Non Orthogonal Frequency Division Multiplexing (NOFDM) systems make use of a transmission signal set which is not restricted to orthonormal bases unlike previous OFDM systems. The usage of non-orthogonal bases generally results in a trade-off between Bit Error Rate (BER) and receiver complexity. This paper studies the use of Gabor based on designing a Spectrally Efficient Multi-Carrier Modulation Scheme. Using Gabor Transform with a specific Gaussian envelope;we derive the expected BER-SNR performance. The spectral usage of such a NOFDM system when affected by a channel that imparts Additive White Gaussian Noise (AWGN) is estimated. We compare the obtained results with an OFDM system and observe that with comparable BER performance, this system gives a better spectral usage. The effect of window length on spectral usage is also analyzed.
