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    • 2. 发明申请
    • Performance monitoring based on optical autocorrelation
    • 基于光学自相关性能监测
    • US20050244154A1
    • 2005-11-03
    • US10838059
    • 2004-05-03
    • Mihaela DinuDaniel KilperHoward Stuart
    • Mihaela DinuDaniel KilperHoward Stuart
    • H04B10/02H04B10/08
    • H04B10/0795
    • An optical performance monitor (OPM) adapted to (i) sample an autocorrelation function corresponding to an optical signal transmitted in an optical network and (ii) based on the sampling, characterize two or more impairments concurrently present in the optical signal. In one embodiment, the OPM has an optical autocorrelator (OAC) coupled to a signal processor (SP). The OAC receives the optical signal from the network, generates two or more samples of its autocorrelation function, and applies said samples to the SP. The SP processes the samples and generates two or more signal metrics. Based on the signal metrics and reference data corresponding to the impairments, the SP then obtains a measure of each of the impairments.
    • 一种光学性能监视器(OPM),其适于(i)对与光网络中发送的光信号相对应的自相关函数进行采样,以及(ii)基于该采样,表征同时存在于光信号中的两个或更多个损伤。 在一个实施例中,OPM具有耦合到信号处理器(SP)的光学自相关器(OAC)。 OAC从网络接收光信号,生成两个或多个自相关函数样本,并将所述样本应用于SP。 SP处理样本并生成两个或更多个信号度量。 基于对应于损伤的信号量度和参考数据,SP然后获得每个损伤的量度。
    • 5. 发明申请
    • Apparatus and method for monitoring signal-to-noise ratio in optical transmission systems
    • 用于监测光传输系统中信噪比的装置和方法
    • US20050031341A1
    • 2005-02-10
    • US10636385
    • 2003-08-07
    • Howard Stuart
    • Howard Stuart
    • H04B10/12H04B10/148H04B10/08
    • H04B10/2575H04B10/61
    • A high-sensitivity signal-to-noise ratio (SNR) determining apparatus measures the in-band SNR of an optical data signal by detecting and demodulating the optical signal and analyzing a narrow bandwidth of the resulting electrical data spectrum at half the data clock frequency, or more generally, a predetermined frequency equal to a multiple M of one-half the clock frequency, fclk/2, where M is an integer equal to or greater than one, may be used. When the optical signal is a WDM signal, a tunable filter isolates a single channel for detection. The detected electrical signal is subjected to both an in-phase and quadrature narrowband RF demodulation using a local oscillator at precisely half the clock frequency. Using this technique, the magnitude of the data portion of the optical signal becomes the in-phase component and the magnitude of the noise present in the optical signal becomes the quadrature component. The ratio of the two demodulated signal components (in-phase and quadrature) is proportional to the SNR of the detected signal. The technique is inherently narrowband and offers very high sensitivity and does not require an optical pre-amplifier.
    • 高灵敏度信噪比(SNR)确定装置通过检测和解调光信号并且以一半数据时钟频率分析所得到的电数据频谱的窄带宽来测量光数据信号的带内SNR 或者更一般地,可以使用等于时钟频率的一半的预定频率fclk / 2,其中M是等于或大于1的整数。 当光信号是WDM信号时,可调谐滤波器隔离单个信道进行检测。 检测到的电信号在正好一半的时钟频率下使用本地振荡器进行同相和正交窄带RF解调。 使用该技术,光信号的数据部分的大小变成同相分量,并且存在于光信号中的噪声幅度变为正交分量。 两个解调信号分量(同相和正交)的比率与检测信号的SNR成比例。 该技术本质上是窄带,并提供非常高的灵敏度,并且不需要光学前置放大器。