A program of adaptive quadrature demodulation is proposed to supply the gaps in the traditional analog detection technology of a silicon micro-machined gyroscope (SMG). This program is suitable for digital phase locke...A program of adaptive quadrature demodulation is proposed to supply the gaps in the traditional analog detection technology of a silicon micro-machined gyroscope (SMG). This program is suitable for digital phase locked loop (DPLL) drive technology that proposed in other papers. In addition the program adopts an adaptive filtering algorithm, which selects the in-phase and quadrature components that are outputs of the DPLL of the SMG's drive mode as reference signals to update the amplitude of the in-phase and quadrature components of the input signal by iteratively. An objective of the program is to minimize the mean square error of the accurate amplitudes and the estimated amplitudes of SMG's detection mode. The simulation and test results prove the feasibility of the program that lays the foundation for the further improvement of the SMG's system performance and the implementation of the SMG system's self-calibration and self-demarcation in future.展开更多
A pilot pattern across two orthogonal frequency division multiplexing OFDM symbols with a special structure is designed for the channel estimation of OFDM systems with inphase and quadrature IQ imbalances at the recei...A pilot pattern across two orthogonal frequency division multiplexing OFDM symbols with a special structure is designed for the channel estimation of OFDM systems with inphase and quadrature IQ imbalances at the receiver.A high-efficiency time-domain TD least square LS channel estimator and a low-complexity frequency-domain Gaussian elimination GE equalizer are proposed to eliminate IQ distortion.The former estimator can significantly suppress channel noise by a factor N/L+1 over the existing frequency-domain FD LS where N and L+1 are the total number of subcarriers and the length of cyclic prefix and the proposed GE requires only 2N complex multiplications per OFDM symbol.Simulation results show that by exploiting the TD property of the channel the proposed TD-LS channel estimator obtains a significant signal-to-noise ratio gain over the existing FD-LS one whereas the proposed low-complexity GE compensation achieves the same bit error rate BER performance as the existing LS one.展开更多
针对直接变频接收机四相相移键控( QPSK) 信号的 IQ 不平衡问题,提出了一种角度统计的盲补偿方法。首先利用仿射坐标变换理论建立了实际的 IQ 信号与理想 IQ 信号的坐标旋转以及伸缩关系,然后通过坐标旋转的角度统计方法进行 IQ 不平衡...针对直接变频接收机四相相移键控( QPSK) 信号的 IQ 不平衡问题,提出了一种角度统计的盲补偿方法。首先利用仿射坐标变换理论建立了实际的 IQ 信号与理想 IQ 信号的坐标旋转以及伸缩关系,然后通过坐标旋转的角度统计方法进行 IQ 不平衡系数的估计,从而实现 QPSK 信号的 IQ 不平衡补偿。仿真实验表明,相比其他的 IQ 不平衡盲补偿算法,该方法在降低误码率( BER) 的同时,减少了计算复杂度。展开更多
针对正交频分复用(orthogonal frequency division multiplexing,OFDM)系统在时间—频率双选择性信道环境中由同相正交(in-phase and quadrature-phase,IQ)支路不平衡耦合多径时变信道导致的复杂子载波间干扰问题,提出了一种基于球形译...针对正交频分复用(orthogonal frequency division multiplexing,OFDM)系统在时间—频率双选择性信道环境中由同相正交(in-phase and quadrature-phase,IQ)支路不平衡耦合多径时变信道导致的复杂子载波间干扰问题,提出了一种基于球形译码算法和并行干扰消除算法的IQ不平衡补偿方法。该方法通过对系统模型进行简化与分块处理,采用球形译码算法消除块内的子载波间干扰,采用并行干扰消除算法抑制块间干扰,并进行交替迭代运算。仿真结果表明,提出的算法在时间—频率双选择性信道环境下具有良好的IQ不平衡补偿性能。展开更多
An automatic IQ phase calibration method implemented in a 2.4GHz direct conversion receiver is proposed. It uses a delay locked loop (DLL) with a proposed quadrature phase detector to greatly reduce the phase error....An automatic IQ phase calibration method implemented in a 2.4GHz direct conversion receiver is proposed. It uses a delay locked loop (DLL) with a proposed quadrature phase detector to greatly reduce the phase error. The receiver is fabricated in a 0.18μm CMOS process. Measurements show that the IQ phase error can be calibrated within 1°,which satisfies the system requirement.展开更多
An efficient compensation scheme combining a timedomain Gaussian elimination(GE) channel estimator and a frequency-domain GE equalizer is proposed for orthogonal frequency division multiplexing(OFDM) systems with ...An efficient compensation scheme combining a timedomain Gaussian elimination(GE) channel estimator and a frequency-domain GE equalizer is proposed for orthogonal frequency division multiplexing(OFDM) systems with frequencydependent in-phase and quadrature-phase(IQ) imbalances at both transmitter and receiver.Compared with the traditional least square and least mean square compensation schemes,the proposed compensation scheme achieves the same bit error rate as the ideal IQ branches by using only two training OFDM symbols instead of about 20 OFDM symbols.展开更多
文摘A program of adaptive quadrature demodulation is proposed to supply the gaps in the traditional analog detection technology of a silicon micro-machined gyroscope (SMG). This program is suitable for digital phase locked loop (DPLL) drive technology that proposed in other papers. In addition the program adopts an adaptive filtering algorithm, which selects the in-phase and quadrature components that are outputs of the DPLL of the SMG's drive mode as reference signals to update the amplitude of the in-phase and quadrature components of the input signal by iteratively. An objective of the program is to minimize the mean square error of the accurate amplitudes and the estimated amplitudes of SMG's detection mode. The simulation and test results prove the feasibility of the program that lays the foundation for the further improvement of the SMG's system performance and the implementation of the SMG system's self-calibration and self-demarcation in future.
基金The Open Research Fund of National Mobile Communications Research Laboratory of Southeast University(No.2013D02)the Fundamental Research Funds for the Central Universities(No.30920130122004)the National Natural Science Foundation of China(No.61271230,61472190)
文摘A pilot pattern across two orthogonal frequency division multiplexing OFDM symbols with a special structure is designed for the channel estimation of OFDM systems with inphase and quadrature IQ imbalances at the receiver.A high-efficiency time-domain TD least square LS channel estimator and a low-complexity frequency-domain Gaussian elimination GE equalizer are proposed to eliminate IQ distortion.The former estimator can significantly suppress channel noise by a factor N/L+1 over the existing frequency-domain FD LS where N and L+1 are the total number of subcarriers and the length of cyclic prefix and the proposed GE requires only 2N complex multiplications per OFDM symbol.Simulation results show that by exploiting the TD property of the channel the proposed TD-LS channel estimator obtains a significant signal-to-noise ratio gain over the existing FD-LS one whereas the proposed low-complexity GE compensation achieves the same bit error rate BER performance as the existing LS one.
文摘针对直接变频接收机四相相移键控( QPSK) 信号的 IQ 不平衡问题,提出了一种角度统计的盲补偿方法。首先利用仿射坐标变换理论建立了实际的 IQ 信号与理想 IQ 信号的坐标旋转以及伸缩关系,然后通过坐标旋转的角度统计方法进行 IQ 不平衡系数的估计,从而实现 QPSK 信号的 IQ 不平衡补偿。仿真实验表明,相比其他的 IQ 不平衡盲补偿算法,该方法在降低误码率( BER) 的同时,减少了计算复杂度。
文摘针对正交频分复用(orthogonal frequency division multiplexing,OFDM)系统在时间—频率双选择性信道环境中由同相正交(in-phase and quadrature-phase,IQ)支路不平衡耦合多径时变信道导致的复杂子载波间干扰问题,提出了一种基于球形译码算法和并行干扰消除算法的IQ不平衡补偿方法。该方法通过对系统模型进行简化与分块处理,采用球形译码算法消除块内的子载波间干扰,采用并行干扰消除算法抑制块间干扰,并进行交替迭代运算。仿真结果表明,提出的算法在时间—频率双选择性信道环境下具有良好的IQ不平衡补偿性能。
文摘An automatic IQ phase calibration method implemented in a 2.4GHz direct conversion receiver is proposed. It uses a delay locked loop (DLL) with a proposed quadrature phase detector to greatly reduce the phase error. The receiver is fabricated in a 0.18μm CMOS process. Measurements show that the IQ phase error can be calibrated within 1°,which satisfies the system requirement.
基金supported by the National Natural Science Fundation of China(6127123061172073)the Open Research Fund of National Mobile Communications Research Lab(2010D13)
文摘An efficient compensation scheme combining a timedomain Gaussian elimination(GE) channel estimator and a frequency-domain GE equalizer is proposed for orthogonal frequency division multiplexing(OFDM) systems with frequencydependent in-phase and quadrature-phase(IQ) imbalances at both transmitter and receiver.Compared with the traditional least square and least mean square compensation schemes,the proposed compensation scheme achieves the same bit error rate as the ideal IQ branches by using only two training OFDM symbols instead of about 20 OFDM symbols.