System and method of providing dark section free transport networks
First Claim
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1. A reconfigurable optical add-drop multiplexer (ROADM) comprising:
- a controller interface for receiving instructions from a controller;
a wavelength selective switch (WSS) for receiving a combined input optical signal and for outputting a WSS output signal; and
an add-drop bank for receiving an optical signal from the combined input optical signal;
wherein a light source is integrated in the WSS or the add-drop bank for sending an always present pilot optical signal having a known characteristic, the always present pilot optical signal having sufficient power to maintain operation of an amplifier in a link of the optical network between the ROADM and a subsequent ROADM;
wherein the ROADM is configured to receive instructions from a network controller for monitoring a known characteristic of an always present received optical signal, the always present received optical signal associated with the link, the link including an optical network section that would be dark except for the presence of the always present received optical signal, the always present received optical signal having a wavelength in an operating window of the amplifier; and
transmitting readings associated with the always present received optical signal to the network controller.
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Abstract
A wavelength selective switch (WSS), reconfigurable optical add-drop multiplexer (ROADM) and methods of determining a condition of a domain network section are provided. The WSS and ROADM include a light source for sending an optical signal having a characteristic. The method comprises instructing a light source to send an optical signal across an optical link, obtaining measurements of characteristic values of the optical signal received at and sent by components along the domain network section, comparing the characteristic values to pre-defined limits, and determining the condition of the domain network section based on the characteristic values.
14 Citations
15 Claims
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1. A reconfigurable optical add-drop multiplexer (ROADM) comprising:
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a controller interface for receiving instructions from a controller; a wavelength selective switch (WSS) for receiving a combined input optical signal and for outputting a WSS output signal; and an add-drop bank for receiving an optical signal from the combined input optical signal; wherein a light source is integrated in the WSS or the add-drop bank for sending an always present pilot optical signal having a known characteristic, the always present pilot optical signal having sufficient power to maintain operation of an amplifier in a link of the optical network between the ROADM and a subsequent ROADM; wherein the ROADM is configured to receive instructions from a network controller for monitoring a known characteristic of an always present received optical signal, the always present received optical signal associated with the link, the link including an optical network section that would be dark except for the presence of the always present received optical signal, the always present received optical signal having a wavelength in an operating window of the amplifier; and
transmitting readings associated with the always present received optical signal to the network controller. - View Dependent Claims (2, 3, 4, 14)
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5. A method of determining a condition of a domain network, the method comprising:
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sending an always present optical signal having sufficient power to maintain operation of an amplifier in a section of the domain network, the section that would be dark except for the presence of the always present optical signal, the always present optical signal having a wavelength in an operating window of the amplifier; obtaining characteristic values of the always present optical signal at a component of a link of the section, the characteristic values including at least one of;
polarization mode dispersion, polarization dependent loss, state of polarization changes and chromatic dispersion; andperforming health monitoring by determining the condition of the section based on the characteristic values. - View Dependent Claims (6, 7, 8, 9)
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10. A method of determining that a wavelength-division multiplexing (WDM) channel may be added, the method comprising:
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sending an always present optical signal having sufficient power to maintain operation of an amplifier in a section of a domain network; tuning the always present optical signal to a wavelength of an operating window of the amplifier, the domain network including an optical network section that would be dark except for the presence of the always present optical signal; and checking that performance readings of the one of a plurality of sections are within pre-defined limits for the wavelength.
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11. A method of monitoring a condition of an optical network having a plurality of network sections, the method comprising:
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sending an always present optical signal having sufficient power to maintain operation of an amplifier in the optical network; instructing receivers in nodes in the optical network to monitor a received always present optical signal, the received always present optical signal having a known characteristic and a wavelength in an operating window of the amplifier, wherein a link of the optical network would be dark except for the presence of the always present optical signal; receiving monitoring readings from the nodes and comparing the monitoring readings to an expected result based on the known characteristic; and evaluating a condition of each optical network section by comparing the monitoring readings to pre-defined limits for each optical network section. - View Dependent Claims (12, 13)
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15. A network controller comprising:
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a network interface for communicating with network nodes in an optical network having a plurality of network sections; a processor; a memory including instructions executable in the processor to cause the network controller to; instruct receivers in nodes in the optical network to monitor an always present optical signal they receive, the always present optical signal having; a known characteristic; and a wavelength in an operating window of the optical network, wherein the link comprises section that would be dark except for the presence of the always present received optical signal; and a power level sufficient to maintain operation of a component of one of the nodes; receive monitoring readings from the nodes and compare the monitoring readings to an expected result based on the known characteristic; and evaluate a condition of each network section by comparing the monitoring readings to pre-defined limits for each network section.
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Specification