Optical monitoring in an optical communications network
First Claim
1. A communications network element comprising:
- a network element input arranged to receive an input optical signal having a first spectral property;
a network element output arranged to output an output optical signal having a second spectral property;
a monitoring port arranged to output an optical monitoring signal;
a first optical splitting device arranged to tap a portion of one of the input optical signal and the output optical signal to form a first signal having one of the first spectral property and the second spectral property;
optical signal transforming apparatus having an input and an output, the input arranged to receive the first signal and to apply an optical transfer function to the first signal to form the optical monitoring signal, the optical transfer function being arranged to preserve the spectral property of the first signal and to apply a time-domain obfuscation to the tapped signal, the optical signal transforming apparatus being further arranged to provide the optical monitoring signal to the output and to the monitoring port, the optical signal transforming apparatus comprising;
an optical through signal path between the input and the output;
a second optical splitting device positioned in the optical through signal path;
an optical combining device positioned in the optical through signal path;
an optical feedback path connected to the second optical splitting device and the optical combining device, wherein the second optical splitting device is arranged to tap off a portion of a signal passing along the through signal path and apply it to the feedback path, and the optical combining device is arranged to recombine at least part of the tapped portion of the signal with the signal passing along the through signal path.
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Accused Products
Abstract
A communications network element comprises a network element input, a network element output and a monitoring port. An optical splitting device taps a portion of an input optical signal or an output optical signal to form a first signal. An optical signal transforming apparatus applies an optical transfer function to the first signal to form the optical monitoring signal applied to the monitoring port. The optical transfer function preserves the spectral property of the first signal and applies a time-domain obfuscation to the tapped signal. The optical signal transforming apparatus comprises an optical through signal path, an optical splitting device positioned in the optical through signal path and an optical combining device positioned in the optical through signal path. An optical feedback path is connected to the optical splitting device and the optical combining device. The optical splitting device is arranged to tap off a portion of a signal passing along the through signal path and apply it to the feedback path, and the optical combining device is arranged to recombine at least part of the tapped portion of the signal with the signal passing along the through signal path.
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Citations
15 Claims
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1. A communications network element comprising:
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a network element input arranged to receive an input optical signal having a first spectral property; a network element output arranged to output an output optical signal having a second spectral property; a monitoring port arranged to output an optical monitoring signal; a first optical splitting device arranged to tap a portion of one of the input optical signal and the output optical signal to form a first signal having one of the first spectral property and the second spectral property; optical signal transforming apparatus having an input and an output, the input arranged to receive the first signal and to apply an optical transfer function to the first signal to form the optical monitoring signal, the optical transfer function being arranged to preserve the spectral property of the first signal and to apply a time-domain obfuscation to the tapped signal, the optical signal transforming apparatus being further arranged to provide the optical monitoring signal to the output and to the monitoring port, the optical signal transforming apparatus comprising; an optical through signal path between the input and the output; a second optical splitting device positioned in the optical through signal path; an optical combining device positioned in the optical through signal path; an optical feedback path connected to the second optical splitting device and the optical combining device, wherein the second optical splitting device is arranged to tap off a portion of a signal passing along the through signal path and apply it to the feedback path, and the optical combining device is arranged to recombine at least part of the tapped portion of the signal with the signal passing along the through signal path. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 15)
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12. A method of monitoring an optical signal in a communications network element, the method comprising:
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receiving an optical signal having a spectral property; splitting off a part of the optical signal to form a tapped signal having a spectral property; applying an optical transfer function to the tapped signal to form an optical monitoring signal, the optical transfer function being arranged to preserve the signal property of the tapped signal and to apply a time-domain obfuscation to the tapped signal; and providing the optical monitoring signal to a monitoring port of the communications network element, wherein the step of applying the optical transfer function comprises; providing an optical through signal path; splitting off a portion of a signal passing along the optical through signal path and applying the signal portion to an optical feedback path; recombining at least part of the signal portion from the optical feedback path with the through signal path. - View Dependent Claims (13, 14)
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Specification