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    • 1. 发明授权
    • Digital performance monitoring for an optical communications system
    • 光通信系统的数字性能监控
    • US07356256B1
    • 2008-04-08
    • US10629834
    • 2003-07-30
    • Leo StrawczynskiKim B. RobertsJohn McNicol
    • Leo StrawczynskiKim B. RobertsJohn McNicol
    • H04B10/08
    • H04B10/077H04B10/07955H04B2210/258
    • A digital performance monitoring method and system for an optical communications system utilizes a channel monitor and a digital signal processor (DSP). The channel monitor is designed to monitor a respective channel signal of the optical communications system, and includes a sample memory for storing sample data including a set of sequential N-bit (where N>1) samples generated by an Analog-to-Digital (A/D) converter at a predetermined sample rate. The digital signal processor (DSP) is designed to calculate at least one performance parameter of the optical communications system based on the stored sample data. The sample rate of the A/D converter is at least equal to a baud rate of the channel, and preferably satisfies the Nyquist criterion. Multiple A/D converters may be used parallel to sample respective orthogonal components of the channel signal. In this case, the stored sample data may be representative of the complex E-field of the channel signal.
    • 用于光通信系统的数字性能监测方法和系统利用信道监视器和数字信号处理器(DSP)。 信道监视器被设计为监视光通信系统的相应信道信号,并且包括用于存储样本数据的采样存储器,该采样数据包括由模数(数字)信号产生的一组顺序N位(其中N≥1) A / D)转换器。 数字信号处理器(DSP)被设计为基于存储的采样数据来计算光通信系统的至少一个性能参数。 A / D转换器的采样率至少等于通道的波特率,并且优选地满足奈奎斯特准则。 可以并行地使用多个A / D转换器来采样信道信号的各个正交分量。 在这种情况下,存储的采样数据可以表示信道信号的复电场。
    • 7. 发明授权
    • Optical transmission system architecture supporting migration to electronic compensation of link impairments
    • 光传输系统架构支持迁移到电路补偿链路损伤
    • US07672595B1
    • 2010-03-02
    • US10742808
    • 2003-12-23
    • John McNicolMaurice O'Sullivan
    • John McNicolMaurice O'Sullivan
    • H04B10/12
    • H04B10/25133
    • An optical communications system for conveying traffic through an optical link between transmitting and receiving nodes. The system comprises, for each node, respective legacy and bypass paths coupled in parallel between the optical link and the node. The legacy path of each node includes an optical dispersion compensation block for compensating a respective portion of dispersion of the link. Thus the present invention provides a system architecture by which an optical communications system can be constructed using conventional modulation and optical dispersion compensation technologies. Once installed, system growth can be accommodated using next generation transmitters (with electronic compensation) without stranding the legacy equipment. Legacy channels can also be upgraded to electronic compensation, as desired.
    • 一种用于通过发送和接收节点之间的光链路传送业务的光通信系统。 对于每个节点,该系统包括在光链路和节点之间并行耦合的相应传统和旁路路径。 每个节点的遗留路径包括用于补偿链路的相应部分色散的光学色散补偿块。 因此,本发明提供了一种可以使用常规调制和光色散补偿技术构建光通信系统的系统架构。 一旦安装,可以使用下一代发射器(带电子补偿)来适应系统增长,而不会使传统设备绞合。 根据需要,旧版频道也可升级为电子补偿。
    • 8. 发明授权
    • Carrier lock detector
    • 载体锁定检测器
    • US07292653B2
    • 2007-11-06
    • US10796152
    • 2004-03-10
    • Kuang Tsan WuHan SunJohn McNicol
    • Kuang Tsan WuHan SunJohn McNicol
    • H04L27/00H04L27/22H04L27/06
    • H04L27/3827H04L27/0014
    • A carrier lock detector for a QPSK or 4-QAM system implements a lock detection algorithm that maps detected signals onto one of first and second areas associated with nominal states defined by (I2⊕I3)·(Q2⊕Q3) and Q1⊕Q2·(I1 I2I3+ I1I2I3)+( I1⊕I2)·(Q1 Q2Q3+ Q1Q2Q3), or alternatively, by ( I1⊕I2· Q2⊕Q3)+( Q1⊕Q2· I2⊕I3), respectively. When detected signals map onto one of the first areas, a first signal is generated. When detected signals map onto one of the second areas, a second signal is generated. When a difference between the first and second signals exceeds a threshold, a carrier lock detection signal is generated to enable a decoder. The carrier lock detector is able to detect carrier lock at a raw BER of 1e-2 or greater at a very low signal-to-noise ratio.
    • 用于QPSK或4-QAM系统的载波锁定检测器实现锁定检测算法,该检测算法将检测到的信号映射到与由(I 2>⊕I3)定义的标称状态相关联的第一和第二区域之一 (Q 2)⊕Q3 3)和O O Y LE =⊕⊕⊕⊕⊕⊕⊕⊕>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>⊕⊕⊕⊕⊕⊕ 2 (I <1> I 2 Q <1> Q 3 3)或者替代地,由( I <2> O =“SLELE”> Q <2> Q <1> 2 I SUB>)。 当检测到的信号映射到第一区域之一时,产生第一信号。 当检测到的信号映射到第二区域之一时,产生第二信号。 当第一和第二信号之间的差异超过阈值时,产生载波锁定检测信号以使能解码器。 载波锁定检测器能够以非常低的信噪比以1e-2或更大的原始BER检测载波锁定。
    • 9. 发明授权
    • Digital/analogue conversion
    • 数字/模拟转换
    • US5952945A
    • 1999-09-14
    • US911191
    • 1997-08-14
    • Nicholas Hugh James LathamChristopher John ReedJohn McNicol
    • Nicholas Hugh James LathamChristopher John ReedJohn McNicol
    • H03M1/06H03M1/66H03M1/20
    • H03M1/0641H03M1/66
    • Method and apparatus of converting between digital and analogue signal formats, wherein dither signals are combined with information signals to be converted, the dither signals being as a predetermined plurality of particular discrete frequencies that are outside desired information signal bandwidth and have orderly relation including to signal conversion sampling rate, which orderly relation aids looping of sequences of patterns in a related data stream having pattern-to-pattern transitions similar to within-pattern transitions. Specifically, discrete dither signal frequencies have integral relation with their minimum separation or spacing and with said sampling rate, the lowest frequency and the minimum frequency separation each being whole number divisors or submultiples of higher dither frequencies andor of the signal conversion rate.
    • 在数字和模拟信号格式之间进行转换的方法和装置,其中抖动信号与要转换的信息信号组合,抖动信号作为预期的多个特定离散频率,其在期望的信息信号带宽之外并且具有包括信号的有序关系 转换采样率,其有序关系有助于在具有类似于模式间转换的模式到模式转换的相关数据流中循环模式序列。 具体来说,离散抖动信号频率与它们的最小间隔或间隔具有整体关系,并且所述采样率,最低频率和最小频率间隔各自是较高抖动频率的整数或除数或信号转换速率的整数。
    • 10. 发明申请
    • Carrier lock detector
    • 载体锁定检测器
    • US20050201492A1
    • 2005-09-15
    • US10796152
    • 2004-03-10
    • Kuang WuHan SunJohn McNicol
    • Kuang WuHan SunJohn McNicol
    • H04L27/22
    • H04L27/3827H04L27/0014
    • A carrier lock detector for a QPSK or 4-QAM system implements, a lock detection algorithm that maps detected signals onto one of first and second areas associated with nominal states defined by (I2⊕I3)·(Q2⊕Q3) and {overscore (Q1⊕Q2)}·(I1{overscore (I2I3)}+{overscore (I1)}I2I3)+({overscore (I1⊕I2)})·(Q1{overscore (Q2Q3)}+{overscore (Q1)}Q2Q3), or alternatively, by ({overscore (I1⊕I2)}·{overscore (Q2⊕Q3)})+({overscore (Q1⊕Q2)}·{overscore (I2⊕I3)}), respectively. When detected signals map onto one of the first areas, a first signal is generated. When detected signals map onto one of the second areas, a second signal is generated. When a difference between the first and second signals exceeds a threshold, a carrier lock detection signal is generated to enable a decoder. The carrier lock detector is able to detect carrier lock at a raw BER of 1e-2 or greater at a very low signal-to-noise ratio.
    • 用于QPSK或4-QAM系统的载波锁定检测器实现了一种锁定检测算法,该检测算法将检测到的信号映射到与由(I 2 / (Q 2)⊕Q3 3)和(超core SUB SUB SUB SUB⊕SUB SUB SUB SUB SUB SUB SUB SUB SUB SUB SUB SUB SUB SUB SUB SUB SUB SUB SUB SUB SUB SUB SUB SUB SUB SUB >)}。(I 1 {overscore(I 2 3 }} )}({overscore(I&lt; 1&lt; 1&lt; 2&gt; 2&gt;}})( Q (过大的(Q 2)3 Q 3)} + {overscore(Q 1> 1 )} Q “1”>“3”)})。 当检测到的信号映射到第一区域之一时,产生第一信号。 当检测到的信号映射到第二区域之一时,产生第二信号。 当第一和第二信号之间的差异超过阈值时,产生载波锁定检测信号以使能解码器。 载波锁定检测器能够以非常低的信噪比以1e-2或更大的原始BER检测载波锁定。