Method and system for multi-level power management in an optical network
First Claim
1. A method for automatic multi-level power management in an optical network, comprising the steps of:
- (a) controlling attenuation of attenuators on each channel to change powers of channels in a band of channels in the optical network so as to provide that power variation between the channels in the band of channels is within a predetermined power range around an average power selected for the band of channels;
(b) controlling attenuation of the attenuators on each channel to change average powers of newly added bands of channels to the fiber so as to provide that the average power for each newly added band is substantially equal to the average power of existing bands on the fiber; and
(c) controlling attenuation of the attenuators on each channel to change the average power of bands of channels on working and protection fibers for a path in the optical network so as to provide that the average power of the bands of channels on the working and protection fibers is substantially equal to the lowest between the existing average power of bands on the working fiber and the existing average power of bands on the protection fiber;
wherein the same said attenuators are controlled by steps (a), (b), and (c); and
wherein the same said attenuators are controlled simultaneously through adjustment of attenuations.
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Abstract
A method and system for multi-level power management in an optical network is provided. They include three levels of power equalization. The first level of power management equalizes the powers of channels in a band of channels. The second level of power management equalizes the average powers of bands of channels on a fiber. The third level of control equalizes the powers of bands of channels on working and protection fibers for a path in the optical network. As a result, this multi-level power management in the network provides a dynamic, automatic method for the network to adjust to changing operating conditions and configurations and to maintain relatively stable network powers. Each level of power management may be implemented jointly or independently, and operates autonomously so that, for example, one modification comprises continuous first level control and only periodic second level control.
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Citations
15 Claims
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1. A method for automatic multi-level power management in an optical network, comprising the steps of:
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(a) controlling attenuation of attenuators on each channel to change powers of channels in a band of channels in the optical network so as to provide that power variation between the channels in the band of channels is within a predetermined power range around an average power selected for the band of channels; (b) controlling attenuation of the attenuators on each channel to change average powers of newly added bands of channels to the fiber so as to provide that the average power for each newly added band is substantially equal to the average power of existing bands on the fiber; and (c) controlling attenuation of the attenuators on each channel to change the average power of bands of channels on working and protection fibers for a path in the optical network so as to provide that the average power of the bands of channels on the working and protection fibers is substantially equal to the lowest between the existing average power of bands on the working fiber and the existing average power of bands on the protection fiber; wherein the same said attenuators are controlled by steps (a), (b), and (c); and wherein the same said attenuators are controlled simultaneously through adjustment of attenuations. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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14. A system for automatic multi-level power management in an optical network, comprising:
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(a) means for controlling attenuation of attenuators on each channel to change powers of channels in a band of channels in the optical network so as to provide that power variation between the channels in the band of channels is within a first predetermined power range around an average power selected for the band of channels; (b) means for controlling attenuation of the attenuators to change average powers of newly added bands of channels to the fiber so as to provide that the average power for each newly added band is substantially equal to the average power of existing bands on the fiber; and (c) means for controlling attenuation of the attenuators to change average powers of bands of channels on working and protection fibers for a path in the optical network so as to provide that the average power of the bands of channels on the working and protection fibers is substantially equal to the lowest between the existing average power of bands on the working fiber and the existing average power of bands on the protection fiber, wherein the means (a), (b), and (c) are used to control the same said attenuators; and wherein the means (a), (b), and (c) control the same said attenuators simultaneously through adjustment of attenuations. - View Dependent Claims (15)
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Specification