公开(公告)号：US06856724B2

公开(公告)日：2005-02-15

申请号：US10254420

申请日：2002-09-25

申请人： Marc Bohn ,  Georg Mohs ,  Sven Otte ,  Christian Scheerer ,  Christoph Glingener ,  Jan Mietzner ,  Werner Rosenkranz

发明人： Marc Bohn ,  Georg Mohs ,  Sven Otte ,  Christian Scheerer ,  Christoph Glingener ,  Jan Mietzner ,  Werner Rosenkranz

IPC分类号： H04B10/2507 ,  H04B10/2513 ,  G02B6/26 ,  H04B10/18 ,  H04J14/02

CPC分类号： H04B10/2507 ,  H04B10/25133 ,  H04B10/2572

摘要： A compensation system for adaptive equalization of an optical signal, wherein an optical filter, whose complex coefficients are adjustable, is used for signal equalization. The quality of the optical signal is used, after conversion to an electrical data signal, as a control criterion. The compensation device can largely compensate for distortion produced by dispersion, polarization mode dispersion or self phase modulation. An optical compensation filter with a wide free spectral range is used to compensate for the wavelength-dependent dispersion in a wavelength-division multiplexed system. The setting of the filter may be fixed, or may be adjusted adaptively in a closed control loop.

摘要翻译： 用于光信号的自适应均衡的补偿系统，其中复数系数可调的滤光器用于信号均衡。 在转换为电数据信号之后，将光信号的质量用作控制标准。 补偿装置可以大大补偿由色散，偏振模色散或自相位调制产生的失真。 使用具有宽自由光谱范围的光学补偿滤波器来补偿波分复用系统中的依赖于波长的色散。 过滤器的设置可以是固定的，或者可以在闭合的控制回路中自适应地调整。

公开(公告)号：US07116454B2

公开(公告)日：2006-10-03

申请号：US10095890

申请日：2002-03-11

申请人： Joerg Peter Elbers ,  Christoph Glingener ,  Andreas Faerbert ,  Christian Scheerer

发明人： Joerg Peter Elbers ,  Christoph Glingener ,  Andreas Faerbert ,  Christian Scheerer

IPC分类号： H04B10/08 ,  H04B17/00

CPC分类号： H04B10/07953

摘要： A method for determining signal quality in optical transmission systems, wherein the effective signal-to-noise ratio is determined by measuring amplitude histograms of a signal and by calculating characteristic histogram moments and additional interference is ascertained by comparing the characteristic histogram moments with the optical signal-to-noise ratio.

公开(公告)号：US07197210B2

公开(公告)日：2007-03-27

申请号：US10362272

申请日：2001-08-10

申请人： Jörg-Peter Elbers ,  Andreas Färbert ,  Christoph Glingener ,  Lutz Rapp ,  Christian Scheerer

发明人： Jörg-Peter Elbers ,  Andreas Färbert ,  Christoph Glingener ,  Lutz Rapp ,  Christian Scheerer

IPC分类号： G02B6/26 ,  G02B6/42 ,  H04B10/08 ,  H04B17/00

CPC分类号： H04B10/2537 ,  H04B10/077 ,  H04B10/07955 ,  H04B10/25073

摘要： A method is provided for determining and setting the tilting of the spectrum of light signals in an optical fiber of an optical data transmission path having at least one part for varying the tilting of the spectrum, wherein the light signals are amplified by at least one optical amplifier and a portion of the amplified light signals is extracted, the extracted light signals are then partially guided through an influencing element with a known frequency-dependent intensity influence, the influencing element being an amplifier, a waveguide structure or a fiber with an amplifying action, the total intensity of the extracted light signals is then measured upstream and downstream of the influencing element prior to the extracted light signals being guided through the influencing element, and the control criterion is determined, based on the known frequency-dependent intensity influence of the influencing element and the measured total intensity, for setting the tilting via which the part for varying the tilting is controlled.

摘要翻译： 提供了一种用于确定和设置具有用于改变光谱倾斜的至少一个部分的光学数据传输路径的光纤中的光信号的倾斜的方法，其中光信号被至少一个光学 放大器和放大的光信号的一部分被提取，然后将所提取的光信号以已知的频率依赖的强度影响部分地引导通过影响元件，影响元件是放大器，波导结构或具有放大动作的光纤 在提取的光信号通过影响元件引导之前，在影响元件的上游和下游测量提取的光信号的总强度，并且基于已知的频率依赖的强度影响来确定控制标准 影响元素和测量的总强度，用于设置部分f的倾斜 或改变倾斜度被控制。

公开(公告)号：US07057713B2

公开(公告)日：2006-06-06

申请号：US10381832

申请日：2001-09-20

申请人： Jörg-Peter Elbers ,  Christoph Glingener ,  Erich Gottwald ,  Christian Scheerer

发明人： Jörg-Peter Elbers ,  Christoph Glingener ,  Erich Gottwald ,  Christian Scheerer

IPC分类号： G01N21/00

CPC分类号： G01M11/3109

摘要： A method and device are provided for measuring the non-linear coefficient and/or the dispersion coefficient of an optical fiber in an optical data transmission path by four-wave mixing, wherein at least two pump signals of known intensity with at least two different input frequencies are injected into one end of an optical fiber to be measured, in order to obtain at least two signals with at least two new frequencies by four-wave mixing, with the intensity of the backscattered signals of the new frequencies being measured at the feed side and the non-linear coefficent and/or the dispersion coefficient being determined from the measured intensities.

摘要翻译： 提供一种用于通过四波混频测量光学数据传输路径中的光纤的非线性系数和/或色散系数的方法和装置，其中具有至少两个不同输入的已知强度的至少两个泵浦信号 将频率注入要测量的光纤的一端，以便通过四波混频获得具有至少两个新频率的至少两个信号，新频率的反向散射信号的强度在馈电端测量 并且从测量的强度确定非线性系数和/或分散系数。

公开(公告)号：US07221877B2

公开(公告)日：2007-05-22

申请号：US10165106

申请日：2002-06-06

申请人： Cornelius Fuerst ,  Erich Gottwald ,  Christian Scheerer ,  Andreas Faerbert ,  Georg Mohs

发明人： Cornelius Fuerst ,  Erich Gottwald ,  Christian Scheerer ,  Andreas Faerbert ,  Georg Mohs

IPC分类号： H04B10/00

CPC分类号： H04B10/25253

摘要： In the high-bit-rate transmission of optical signals in an optical transmission system having N optical fiber link sections with, in each case, one optical fiber and one dispersion compensation unit, the absolute-magnitude compensations of the first to Nth dispersion compensation units are dimensioned in such a way that the first to N−1-th fiber link sections is/are overcompensated, in each case, by approximately the same absolute magnitude overcompensation. Furthermore, the absolute-magnitude compensation of the Nth dispersion compensation unit is dimensioned in such a way that the accumulated fiber dispersion at the output of the optical transmission system is virtually completely compensated.

摘要翻译： 在具有N个光纤链路部分的光传输系统中的光信号的高比特率传输中，在每种情况下都具有一个光纤和一个色散补偿单元，第一至第N色散补偿单元的绝对幅度补偿 尺寸设计使得第一至第N-1个光纤链路部分被过补偿，在每种情况下都具有大致相同的绝对幅度过补偿。 此外，第N色散补偿单元的绝对幅度补偿的尺寸设计成使得光传输系统的输出处的累积光纤色散被实际上完全补偿。

公开(公告)号：US20060002716A1

公开(公告)日：2006-01-05

申请号：US10952325

申请日：2004-09-28

申请人： John Guy ,  Mukul Katiyar ,  Robert Nadon ,  Rajender Nednur ,  Christian Scheerer ,  Jonathan Titchener

发明人： John Guy ,  Mukul Katiyar ,  Robert Nadon ,  Rajender Nednur ,  Christian Scheerer ,  Jonathan Titchener

IPC分类号： H04B10/02

CPC分类号： H04J14/0227 ,  H04J14/0241 ,  H04J14/0284

摘要： An agile transparent network with a trail routing and switching (also called “engineering”) mechanism is provided that enables efficient use of regenerators and wavelengths available in the network, while maintaining a very efficient time-to-service. The trail engineering mechanism allows fast, automatic establishment of new connections based on the current network architecture, connectivity and loading and also on conditions in the connection request. Selection of regenerator sites and of the wavelengths used on each regenerator segment is performed with optimal use of current network resources, while ensuring that the quality of the selected trail is adequate for the respective call. The mechanism provides for both distance and performance balancing, and it optimizes the network response time.

公开(公告)号：US08396359B2

公开(公告)日：2013-03-12

申请号：US13043136

申请日：2011-03-08

申请人： Jingyu Zhou ,  Alan Glen Solheim ,  Robert Au-Yang ,  Mark Stephen Wight ,  Christian Scheerer

发明人： Jingyu Zhou ,  Alan Glen Solheim ,  Robert Au-Yang ,  Mark Stephen Wight ,  Christian Scheerer

IPC分类号： H04B10/04

CPC分类号： H04J14/0241 ,  H04J14/0227 ,  H04J14/0257 ,  H04J14/0267 ,  H04J14/0269 ,  H04J14/0284 ,  H04Q11/0062 ,  H04Q2011/0083

摘要： A method for engineering of a connection in a WDM photonic network with a plurality of flexibility sites connected by links comprises calculating a physical end-to-end route between a source node and a destination node and setting-up a communication path along this end-to-end route. An operational parameter of the communication path is continuously tested and compared with a test threshold. The path is declared established whenever the operational parameter is above the margin tolerance. The established path is continuously monitored by comparing the operational parameter with a maintenance threshold. A regenerator is switched into the path whenever the operational parameter is under the respective threshold, or another path is assigned to the respective connection. An adaptive channel power turn-on procedure provides for increasing gradually the power level of the transmitters in the path while measuring an error quantifier at the destination receiver until a preset error quantifier value is reached. As the connection ages, the power is increased so as to maintain the error quantifier at, or under the preset value. The path operation is controlled using a plurality of optical power/gain control loops, each for monitoring and controlling a group of optical devices, according to a set of loop rules.

公开(公告)号：US20110182576A1

公开(公告)日：2011-07-28

申请号：US13043136

申请日：2011-03-08

申请人： Jingyu Zhou ,  Alan Glen Solheim ,  Robert Au-Yang ,  Mark Stephen Wight ,  Christian Scheerer

发明人： Jingyu Zhou ,  Alan Glen Solheim ,  Robert Au-Yang ,  Mark Stephen Wight ,  Christian Scheerer

IPC分类号： H04B10/08

CPC分类号： H04J14/0241 ,  H04J14/0227 ,  H04J14/0257 ,  H04J14/0267 ,  H04J14/0269 ,  H04J14/0284 ,  H04Q11/0062 ,  H04Q2011/0083

摘要： A method for engineering of a connection in a WDM photonic network with a plurality of flexibility sites connected by links comprises calculating a physical end-to-end route between a source node and a destination node and setting-up a communication path along this end-to-end route. An operational parameter of the communication path is continuously tested and compared with a test threshold. The path is declared established whenever the operational parameter is above the margin tolerance. The established path is continuously monitored by comparing the operational parameter with a maintenance threshold. A regenerator is switched into the path whenever the operational parameter is under the respective threshold, or another path is assigned to the respective connection. An adaptive channel power turn-on procedure provides for increasing gradually the power level of the transmitters in the path while measuring an error quantifier at the destination receiver until a preset error quantifier value is reached. As the connection ages, the power is increased so as to maintain the error quantifier at, or under the preset value. The path operation is controlled using a plurality of optical power/gain control loops, each for monitoring and controlling a group of optical devices, according to a set of loop rules.

摘要翻译： 用于通过链路连接的具有多个灵活性站点的WDM光子网络中的连接工程的方法包括计算源节点和目的地节点之间的物理端到端路由，并且沿着该端点建立通信路径， 端到端路由。 连续测试通信路径的操作参数，并将其与测试阈值进行比较。 只要操作参数高于边界容限，路径就被声明成立。 通过将操作参数与维护阈值进行比较来连续监视已建立的路径。 每当操作参数在相应的阈值以下时，再生器被切换到路径中，或者另一路径被分配给相应的连接。 自适应信道功率接通程序提供在目的地接收机测量误差量化器时逐渐增加路径中的发射机的功率电平，直到达到预设的误差量化值。 随着连接老化，增加功率，以便将误差量化器保持在或低于预设值。 使用多个光功率/增益控制环控制路径操作，每个光功率/增益控制环根据一组循环规则来监视和控制一组光学设备。

公开(公告)号：US07941047B2

公开(公告)日：2011-05-10

申请号：US10159676

申请日：2002-05-31

申请人： Jingyu Zhou ,  Alan Glen Solheim ,  Robert Au-Yang ,  Mark Stephen Wight ,  Christian Scheerer

发明人： Jingyu Zhou ,  Alan Glen Solheim ,  Robert Au-Yang ,  Mark Stephen Wight ,  Christian Scheerer

IPC分类号： H04B10/04

CPC分类号： H04J14/0241 ,  H04J14/0227 ,  H04J14/0257 ,  H04J14/0267 ,  H04J14/0269 ,  H04J14/0284 ,  H04Q11/0062 ,  H04Q2011/0083

摘要： A method for engineering of a connection in a WDM photonic network with a plurality of flexibility sites connected by links comprises calculating a physical end-to-end route between a source node and a destination node and setting-up a communication path along this end-to-end route. An operational parameter of the communication path is continuously tested and compared with a test threshold. The path is declared established whenever the operational parameter is above the margin tolerance. The established path is continuously monitored by comparing the operational parameter with a maintenance threshold. A regenerator is switched into the path whenever the operational parameter is under the respective threshold, or another path is assigned to the respective connection. An adaptive channel power turn-on procedure provides for increasing gradually the power level of the transmitters in the path while measuring an error quantifier at the destination receiver until a preset error quantifier value is reached. As the connection ages, the power is increased so as to maintain the error quantifier at, or under the preset value. The path operation is controlled using a plurality of optical power/gain control loops, each for monitoring and controlling a group of optical devices, according to a set of loop rules.

摘要翻译： 用于通过链路连接的具有多个灵活性站点的WDM光子网络中的连接工程的方法包括计算源节点和目的地节点之间的物理端到端路由，并且沿着该端点建立通信路径， 端到端路由。 连续测试通信路径的操作参数，并将其与测试阈值进行比较。 只要操作参数高于边界容限，路径就被声明成立。 通过将操作参数与维护阈值进行比较来连续监视已建立的路径。 每当操作参数在相应的阈值以下时，再生器被切换到路径中，或者另一路径被分配给相应的连接。 自适应信道功率接通程序提供在目的地接收机测量误差量化器时逐渐增加路径中的发射机的功率电平，直到达到预设的误差量化值。 随着连接老化，增加功率，以便将误差量化器保持在或低于预设值。 使用多个光功率/增益控制环控制路径操作，每个光功率/增益控制环根据一组循环规则来监视和控制一组光学设备。

公开(公告)号：US07058256B1

公开(公告)日：2006-06-06

申请号：US09807232

申请日：1999-10-06

申请人： Detlef Stoll ,  Harald Bock ,  Patrick Leisching ,  Christian Scheerer ,  Gerhard Stortz

发明人： Detlef Stoll ,  Harald Bock ,  Patrick Leisching ,  Christian Scheerer ,  Gerhard Stortz

IPC分类号： G02B6/00 ,  G02B6/28

CPC分类号： H04Q11/0005 ,  G02B5/1828 ,  G02B5/20 ,  G02B6/02204 ,  G02B6/2932 ,  G02B6/29322 ,  G02B6/29395 ,  G02F1/011 ,  G02F1/0128 ,  G02F1/0147 ,  G02F2201/307 ,  G02F2203/055 ,  G02F2203/585 ,  H04J14/0206 ,  H04J14/021 ,  H04J14/0213 ,  H04J14/0217 ,  H04Q2011/0009 ,  H04Q2011/0035

摘要： An optical filter, adjustable add-drop-continue module and circuit for bundled cross-connect functionality, wherein the transmission response of the optical filter is varied by changing its temperature, tuning of the filter can be carried out by mechanical pressure or tension, the filter can be used to produce add-drop-continue modules which are suitable both for add-drop operation and for drop-continue operation, and cross-connect modules can be constructed from the optical filters.

摘要翻译： 一种光学滤波器，可调节的分插继续模块和用于捆绑交叉连接功能的电路，其中通过改变其温度来改变滤光器的透射响应，滤光器的调谐可以通过机械压力或张力来实现， 滤波器可用于生产适用于分插操作和下拉继续操作的分插继续模块，并且可以从光学滤波器构建交叉连接模块。