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    • 4. 发明授权
    • System and method for simultaneously compensating for chromatic
dispersion and self phase modulation in optical fibers
    • 用于同时补偿光纤色散和自相位调制的系统和方法
    • US5539563A
    • 1996-07-23
    • US253174
    • 1994-05-31
    • Yong-Kwan Park
    • Yong-Kwan Park
    • H04B10/02H04B10/18H04B10/00
    • H04B10/2525H04B10/255H04B2210/252
    • At least one dispersion compensating fiber (DCF) is utilized to compensate for chromatic dispersion of an externally modulated signal carried by at least one single mode, standard fiber optic cable. The self phase modulation (SPM) effect in the standard fiber is characterized by a pulse compression and associated pulse distortion when a 1550 nm wavelength signal is launched into the fiber. Because the SPM effect in the DCF fiber is characterized by a pulse broadening for the same signal, the DCF fiber is also utilized to compensate for the SPM effect in the standard fiber. To this end, the signal power launched into the DCF fiber is controlled such that precise compensation for the SPM effect in the standard fiber can be achieved. Control of the launching power is needed because the mode field diameter of the DCF fiber is smaller than that of the standard single mode fiber so that the DCF fiber experiences the SPM effect at a lower power than the single mode fiber.
    • 使用至少一个色散补偿光纤(DCF)来补偿由至少一个单模标准光纤电缆承载的外部调制信号的色散。 标准光纤中的自相位调制(SPM)效应的特征在于当1550nm波长信号被发射到光纤中时脉冲压缩和相关的脉冲失真。 由于DCF光纤中的SPM效应的特征在于相同信号的脉冲宽度,DCF光纤也用于补偿标准光纤中的SPM效应。 为此,控制发射到DCF光纤的信号功率,从而可以实现标准光纤中SPM效应的精确补偿。 需要控制发射功率,因为​​DCF光纤的模场直径小于标准单模光纤的模场直径,使得DCF光纤以比单模光纤更低的功率体验SPM效应。
    • 7. 发明授权
    • Fast protection switching by snooping on upstream signals in an optical network
    • 通过窥探光网络上的上行信号进行快速保护切换
    • US06868232B2
    • 2005-03-15
    • US09781864
    • 2001-02-12
    • Peter Van EijkReed K. EvenPiet Van HevingenSong JiangKyeong-Soo KimWoojune KimFengkun LiuYong-Kwan Park
    • Peter Van EijkReed K. EvenPiet Van HevingenSong JiangKyeong-Soo KimWoojune KimFengkun LiuYong-Kwan Park
    • H04B10/08H04B1/74H04B10/00H04J3/00H04L12/44H04Q11/00
    • H04J14/0291H04B10/032H04J3/0682H04J14/0282H04Q11/0066H04Q11/0067H04Q2011/0079H04Q2011/0081H04Q2011/0083
    • An optical network has an optical splitter connected to (1) a working optical subscriber unit (OSU) of a working circuit via a working optical fiber, (2) a protection OSU of a protection circuit via a protection optical fiber, and (3) one or more optical network terminals (ONTs). The present invention enables fast protection switching from the working OSU to the protection OSU. In one embodiment, the arrival times of corresponding upstream ranging reply PLOAM cells are measured at both the working and protection OSUs during ranging operations of the working OSU. In another embodiment, a cell delineation procedure is initiated at the protection OSU during normal, non-ranging operations of the working OSU to enable the protection OSU to correctly delineate upstream cells and the arrival times of corresponding upstream cells are then measured at both the working and protection OSUs. In either case, a propagation delay value is generated based on the measured arrival times for use by the protection OSU for communications with the one or more ONTs if and when protection switching is implemented upon detection of a failure in the working circuit, possibly without requiring the protection OSU to perform any ranging for the one or more ONTs.
    • 光网络具有通过工作光纤连接到(1)工作电路的工作光用户单元(OSU)的光分路器,(2)经由保护光纤的保护电路的保护OSU,以及(3) 一个或多个光网络终端(ONT)。 本发明能够从工作OSU到保护OSU的快速保护切换。 在一个实施例中,相应的上游测距答复PLOAM小区的到达时间在工作OSU的测距操作期间在工作和保护OSU两者处测量。 在另一个实施例中,在正常的非工作OSU的非测距操作期间,在保护OSU处启动小区描述过程,以使得保护OSU能够正确地描绘上游小区,然后在工作OSU上测量相应的上行小区的到达时间 和保护OSU。 在任一情况下,如果在检测到工作电路中的故障时实施保护切换,则可以基于所保护的OSU用于与一个或多个ONT通信的测量到达时间来生成传播延迟值,可能不需要 保护OSU为一个或多个ONT执行任何测距。
    • 8. 发明授权
    • Health check algorithm for protection circuit in optical network
    • 光网络保护电路的健康检查算法
    • US06778781B2
    • 2004-08-17
    • US09781862
    • 2001-02-12
    • Peter Van EijkReed K. EvenPiet Van HeyningenSong JiangKyeong-Soo KimWoojune KimFengkun LiuYong-Kwan Park
    • Peter Van EijkReed K. EvenPiet Van HeyningenSong JiangKyeong-Soo KimWoojune KimFengkun LiuYong-Kwan Park
    • H04B1008
    • H04B10/272H04B10/077H04B10/07955H04B10/27H04J3/0682
    • An optical network has an optical splitter connected to (1) a working optical subscriber unit (OSU) of a working circuit via a working optical fiber, (2) a protection OSU of a protection circuit via a protection optical fiber, and (3) one or more optical network terminals (ONTs), where the protection OSU has a protection burst mode receiver (BMR) configured to receive an upstream optical signal from the optical splitter. The algorithm determines whether the protection OSU is functioning improperly. A reset pulse is applied at the protection BMR at a particular timing position and an attempt is made to interpret the current upstream cell received at the protection BMR. This process is repeated using different timing positions for the BMR reset pulse until the current upstream cell is correctly interpreted, e.g., based on the correct identification of an ATM header error correction (HEC) byte in the upstream cell. If, after a specified number of cycles, no upstream cells are correctly interpreted, then the protection circuit is determined to have failed. In one embodiment, the algorithm is based on a cell delineation procedure implemented as a state machine.
    • 光网络具有通过工作光纤连接到(1)工作电路的工作光用户单元(OSU)的光分路器,(2)经由保护光纤的保护电路的保护OSU,以及(3) 一个或多个光网络终端(ONT),其中保护OSU具有被配置为从光分路器接收上行光信号的保护突发模式接收器(BMR)。 该算法确定保护OSU是否正常工作。 在特定定时位置处的保护BMR处施加复位脉冲,并尝试解释在保护BMR处接收到的当前上行单元。 使用不同的BMR复位脉冲的定时位置重复该过程,直到例如基于上游单元中的ATM标题纠错(HEC)字节的正确识别来正确解释当前上行单元。 如果在指定数量的周期之后没有正确解释上游单元,则确定保护电路发生故障。 在一个实施例中,该算法基于实现为状态机的小区描绘过程。
    • 9. 发明授权
    • Method of determining inter-symbol interference in transmission systems
    • 确定传输系统中符号间干扰的方法
    • US5825521A
    • 1998-10-20
    • US685641
    • 1995-07-24
    • Kinichiro OgawaYong-Kwan Park
    • Kinichiro OgawaYong-Kwan Park
    • H04B10/02H04B10/08H04B10/00
    • H04B10/07953
    • A method of determining Inter-Symbol Interference (ISI) in transmission systems first measures, for each of a plurality of received signal having different Signal-to-Noise (S/N) ratio, the minimum Bit-Error Rate (BER) as a function of the threshold level of a decision circuit at the system receiver. The measurements are then repeated on the system or on a simulated system where one or more segments of the transmission facility has been replaced with one or more non-ISI producing attenuators. The ISI levels for a given BER value is determined from the first and second sets of measurements. An alternate method measures minimum BER values of the system and the simulated system, as a function of the received signal power, for received signals having different S/N ratios. The ISI levels for a given BER value is then determined from these two sets of measurements.
    • 确定传输系统中的符号间干扰(ISI)的方法首先针对具有不同信噪比(S / N)比的多个接收信号中的每一个测量最小比特误码率(BER)作为 在系统接收机处的判定电路的阈值电平的功能。 然后在系统或模拟系统上重复测量,其中传输设施的一个或多个段已被一个或多个非ISI产生衰减器替代。 给定BER值的ISI电平由第一组和第二组测量确定。 对于具有不同S / N比的接收信号,替代方法测量系统和仿真系统的最小BER值,作为接收信号功率的函数。 然后,通过这两组测量确定给定BER值的ISI电平。