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    • 3. 发明申请
    • PHASE MONITOR APPARATUS, PHASE CONTROL APPARATUS AND METHODS THEREOF FOR OPTICAL DQPSK RECEIVER
    • 相位监视器装置,相位控制装置及其用于光学DQPSK接收器的方法
    • US20090034967A1
    • 2009-02-05
    • US11994649
    • 2006-07-07
    • Zhenning TaoJens C. RasmussenAkihiko Isomura
    • Zhenning TaoJens C. RasmussenAkihiko Isomura
    • H04B10/08
    • H04B10/69H04B10/677
    • I branch is provided with a first interferometer, a first balanced optical detector, and a first data recovery circuit. Q branch is provided with a second interferometer, a second balanced optical detector and a second data recovery circuit. In I branch, a mixer multiples input signal of the first data recovery circuit with output signal of the second recovery circuit. An averaging circuit averages output signal of the mixer. In Q branch, a mixer multiples input signal of the second data recovery circuit with output signal of the first recovery circuit. An averaging circuit averages output signal of the mixer. A first phase control apparatus controls the phase of a phase shifter comprised in the first interferometer based on the output signal of the averaging circuit. A second phase control apparatus, in the same manner, controls the phase of a phase shifter comprised in the second interferometer.
    • I分支设置有第一干涉仪,第一平衡光学检测器和第一数据恢复电路。 Q分支设置有第二干涉仪,第二平衡光学检测器和第二数据恢复电路。 在I分支中,混频器将第一数据恢复电路的输入信号与第二恢复电路的输出信号相乘。 平均电路对混频器的输出信号进行平均。 在Q分支中,混频器将第二数据恢复电路的输入信号与第一恢复电路的输出信号相乘。 平均电路对混频器的输出信号进行平均。 第一相位控制装置基于平均电路的输出信号来控制包括在第一干涉仪中的移相器的相位。 以相同的方式,第二相位控制装置控制包括在第二干涉仪中的移相器的相位。
    • 4. 发明授权
    • Phase monitor apparatus, phase control apparatus and methods thereof for optical DQPSK receiver
    • 相位监控装置,相位控制装置及其方法,用于光DQPSK接收机
    • US07877025B2
    • 2011-01-25
    • US11994649
    • 2006-07-07
    • Zhenning TaoJens C. RasmussenAkihiko Isomura
    • Zhenning TaoJens C. RasmussenAkihiko Isomura
    • H04B10/06H04B10/04
    • H04B10/69H04B10/677
    • I branch is provided with a first interferometer, a first balanced optical detector, and a first data recovery circuit. Q branch is provided with a second interferometer, a second balanced optical detector and a second data recovery circuit. In I branch, a mixer multiples input signal of the first data recovery circuit with output signal of the second recovery circuit. An averaging circuit averages output signal of the mixer. In Q branch, a mixer multiples input signal of the second data recovery circuit with output signal of the first recovery circuit. An averaging circuit averages output signal of the mixer. A first phase control apparatus controls the phase of a phase shifter comprised in the first interferometer based on the output signal of the averaging circuit. A second phase control apparatus, in the same manner, controls the phase of a phase shifter comprised in the second interferometer.
    • I分支设置有第一干涉仪,第一平衡光学检测器和第一数据恢复电路。 Q分支设置有第二干涉仪,第二平衡光学检测器和第二数据恢复电路。 在I分支中,混频器将第一数据恢复电路的输入信号与第二恢复电路的输出信号相乘。 平均电路对混频器的输出信号进行平均。 在Q分支中,混频器将第二数据恢复电路的输入信号与第一恢复电路的输出信号相乘。 平均电路对混频器的输出信号进行平均。 第一相位控制装置基于平均电路的输出信号来控制包括在第一干涉仪中的移相器的相位。 以相同的方式,第二相位控制装置控制包括在第二干涉仪中的移相器的相位。
    • 5. 发明授权
    • Digital phase estimator, digital phase locked loop and optical coherent receiver
    • 数字相位估计器,数字锁相环和光相干接收机
    • US07970290B2
    • 2011-06-28
    • US12026782
    • 2008-02-06
    • Zhenning TaoLei LiJens C. Rasmussen
    • Zhenning TaoLei LiJens C. Rasmussen
    • H04B10/06H04B10/08
    • H04B10/6165H04B10/61H04B10/611H04B10/613
    • The present invention provides a digital phase estimator, a digital phase locked loop and an optical coherent receiver. The optical coherent receiver comprises a local oscillator laser, for supplying a local oscillator optical signal; an optical 90 degree frequency mixer, for mixing a received optical signal with the local oscillator optical signal; first and second balancing photoelectric detectors, for converting the optical signals outputted from the optical 90 degree frequency mixer into baseband electrical signals; first and second A/D converters, for respectively converting output signals from the first and the second balancing photoelectric detectors into digital signals; a digital phase locked loop, for compensating a phase difference between a carrier signal of the received optical signal and the local oscillator optical signal, and outputting the compensated signal; and a data recovering unit, for recovering data from the compensated signal.
    • 本发明提供数字相位估计器,数字锁相环和光学相干接收器。 光学相干接收器包括用于提供本地振荡器光信号的本地振荡器激光器; 用于将接收到的光信号与本地振荡器光信号混合的光学90度混频器; 第一和第二平衡光电检测器,用于将从光学90度混频器输出的光信号转换成基带电信号; 第一和第二A / D转换器,用于将来自第一和第二平衡光电探测器的输出信号分别转换成数字信号; 数字锁相环,用于补偿所接收的光信号的载波信号与本地振荡器光信号之间的相位差,并输出补偿的信号; 以及数据恢复单元,用于从补偿信号中恢复数据。
    • 6. 发明授权
    • Optical DQPSK transmitter phase monitor and control
    • 光DQPSK发射机相位监控
    • US07953328B2
    • 2011-05-31
    • US11723938
    • 2007-03-22
    • Zhenning TaoJens C. Rasmussen
    • Zhenning TaoJens C. Rasmussen
    • H04B10/06
    • H04L27/364G02F1/0123G02F1/2255H04B10/5561
    • An apparatus and a method for a I-Q quadrature modulation transmitter monitor a phase bias between an I branch and a Q branch of the I-Q quadrature modulation transmitter. The I-Q quadrature modulation transmitter includes the I-branch, the Q-branch equipped with a phase bias, and a tap. The apparatus is installed between the tap and the phase bias, and monitors the phase between the I branch and the Q branch which phase is introduced by the phase bias. The apparatus includes the following components: a module squarer, receiving signal from the tap and outputting a module square of the received signal; a multiplier, to multiplying data of the I-branch, data of the Q-branch and the module square to output a multiplied signal; and an averager, averaging the multiplied signal output by the multiplier. The phase between the I branch and the Q branch may be corrected according to monitoring results.
    • 用于I-Q正交调制发射机的装置和方法监视I-Q正交调制发射机的I分支和Q分支之间的相位偏置。 I-Q正交调制发射机包括I分支,配备有相位偏置的Q分支和抽头。 该装置安装在抽头和相位偏置之间,并监视I相和Q分支之间的相位,该相位由相位偏置引入。 该装置包括以下组件:模块平方器,从抽头接收信号并输出​​接收信号的平方; 乘法器,用于将I分支的数据,Q分支的数据和模块平方相乘以输出相乘的信号; 和平均器,对乘法器输出的相乘信号进行平均。 I分支和Q分支之间的相位可以根据监测结果进行校正。
    • 7. 发明授权
    • Chromatic dispersion monitor and method, chromatic dispersion compensator
    • 色散监测和方法,色散补偿器
    • US08798477B2
    • 2014-08-05
    • US12623009
    • 2009-11-20
    • Ling LiuZhenning TaoTakahito Tanimura
    • Ling LiuZhenning TaoTakahito Tanimura
    • H04B10/12H04B10/00
    • H04B10/07951H04B10/25133
    • The present invention relates to chromatic dispersion monitor and method, chromatic dispersion compensator. The chromatic dispersion monitor is used for estimating a chromatic dispersion in accordance with a chromatic dispersion correlation amount sequence, comprising: a phase differential unit, for obtaining a phase difference sequence by performing a phase differential calculation in accordance with the chromatic dispersion correlation amount sequence; a phase difference differential unit, for obtaining a phase difference differential sequence by performing a phase difference differential operation; and a chromatic dispersion estimating unit, for estimating the chromatic dispersion in accordance with the phase difference differential sequence obtained by the phase difference differential unit.
    • 本发明涉及色散监视器和方法,色散补偿器。 色散监视器用于根据色散相关量序列估计色散,包括:相位差单元,用于通过根据色散相关量序列执行相位差计算来获得相位差序列; 相位差差分单元,用于通过执行相位差差分运算来获得相位差差分序列; 以及色散估计单元,用于根据由相位差差分单元获得的相位差差分序列来估计色散。
    • 9. 发明授权
    • Method and apparatus for bit and power allocation, and communication system
    • 用于位和功率分配的方法和装置以及通信系统
    • US08687646B2
    • 2014-04-01
    • US13114537
    • 2011-05-24
    • Huijian ZhangZhenning Tao
    • Huijian ZhangZhenning Tao
    • H04J3/16
    • H04L5/0007H04L1/0016H04L1/0021H04L5/0046H04L5/006
    • The present invention discloses a method and apparatus for bit and power allocation and a communication system. The method for bit and power allocation comprises: determining a set of candidate modulation modes for sub-channels; constructing an SNR lookup table according to a predetermined target BER, the SNR lookup table containing a relationship of an SNR and the number of bits corresponding to a modulation mode in the set of candidate modulation modes at the target BER; obtaining normalized SNRs on the sub-channels; initializing the numbers of bits for the sub-channels; initializing powers for the sub-channels according to the numbers of bits for the sub-channels, the normalized SNRs on the sub-channels and the SNR lookup table; and adjusting the numbers of bits and the powers for the sub-channels in accordance with a principle of maximizing power utilization rate, to obtain the result of the bit and power allocation for the sub-channels.
    • 本发明公开了一种用于比特和功率分配的方法和装置以及通信系统。 用于比特和功率分配的方法包括:确定用于子信道的一组候选调制模式; 根据预定目标BER构建SNR查找表,所述SNR查找表包含与所述目标BER中的候选调制模式集合中的调制模式相对应的SNR和比特数的关系; 在子信道上获得归一化的SNR; 初始化子信道的比特数; 根据子信道的比特数,子信道的归一化SNR和SNR查找表,初始化子信道的功率; 并且根据最大化功率利用率的原理来调整子信道的比特数和功率,以获得子信道的比特和功率分配的结果。