Optical repeating apparatus, optical network system, optical network design supporting apparatus and design supporting method

US 20050185967A1
Filed: 04/22/2005
Published: 08/25/2005
Est. Priority Date: 05/15/2003
Status: Abandoned Application

First Claim

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1. An optical repeating apparatus comprising:

a regenerative repeating unit for carrying out electrical regenerative relay selectively on a plurality of inputted optical signals; and

a wavelength converter for carrying out wavelength conversion selectively on the optical signal which is an object of said electrical regenerative relay in said regenerative repeating unit and for converting the optical signal, which is an object of said wavelength conversion, into a wavelength pertaining to, of wavelength classes obtained by classification according to transmission capability, one of a wavelength class equal to a wavelength class, to which a wavelength before said wavelength conversion pertains, and a wavelength class different therefrom which is to be selected on the basis of a difference in total optics transmission distance between before and after said electrical regenerative relay.

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Abstract

The present invention relates to a technique suitable for the enhancement of efficiency of wavelength allocation in an optical network. A transmission capability for each of a plurality of wavelengths available in the optical network is calculated to allocate, to a recommendation optical transmission path in the optical network for a traffic demand from the external, a wavelength having a transmission capability corresponding to a total optics transmission distance of the recommendation optical transmission path on the basis of a result of the calculation. This enables considerably reducing the number of optical repeaters to be disposed, each of which has an electrical signal regeneration function in the optical network, thereby reducing the number of devices, dissipation power, installation area and others in the optical network.

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12 Claims

1. An optical repeating apparatus comprising:
- a regenerative repeating unit for carrying out electrical regenerative relay selectively on a plurality of inputted optical signals; and
  
  a wavelength converter for carrying out wavelength conversion selectively on the optical signal which is an object of said electrical regenerative relay in said regenerative repeating unit and for converting the optical signal, which is an object of said wavelength conversion, into a wavelength pertaining to, of wavelength classes obtained by classification according to transmission capability, one of a wavelength class equal to a wavelength class, to which a wavelength before said wavelength conversion pertains, and a wavelength class different therefrom which is to be selected on the basis of a difference in total optics transmission distance between before and after said electrical regenerative relay.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The optical repeating apparatus according to claim 1, wherein said wavelength converter is configured so as to, in a case in which the total optics transmission distance after said electrical regenerative relay is longer than the total optics transmission distance before said electrical regenerative relay, convert said optical signal which is an object of said wavelength conversion into a wavelength pertaining to a wavelength class equal to the wavelength class to which the wavelength before said wavelength conversion pertains or a wavelength class higher than the wavelength class to which the wavelength before said wavelength conversion pertains.
  - 3. The optical repeating apparatus according to claim 1, wherein said wavelength converter is configured so as to, in a case in which the total optics transmission distance after said electrical regenerative relay is shorter than the total optics transmission distance before said electrical regenerative relay, convert said optical signal which is an object of said wavelength conversion into a wavelength pertaining to a wavelength class equal to a wavelength class to which a wavelength before said wavelength conversion pertains or a wavelength class lower than the wavelength class to which the wavelength before said wavelength conversion pertains.
  - 4. The optical repeating apparatus according to claim 1, wherein said wavelength classes are classified so as to have a higher rank order or have an equal rank order as the wavelengths become longer.
  - 5. The optical repeating apparatus according to claim 1, wherein said wavelength classes are classified so as to have a higher rank order or to have an equal rank order as the wavelengths are closer to a reference wavelength defined in a transmission wavelength band of said plurality of inputted optical signals.

6. An optical network system comprising:
- an optical repeating apparatus, wherein said optical repeating apparatus comprises a regenerative repeating unit for carrying out electrical regenerative relay selectively on a plurality of inputted optical signals; and
  
  a wavelength converter for carrying out wavelength conversion selectively on the optical signal which is an object of said electrical regenerative relay in said regenerative repeating unit and for converting the optical signal, which is an object of said wavelength conversion, into a wavelength pertaining to, of wavelength classes obtained by classification according to transmission capability, one of a wavelength class equal to a wavelength class, to which a wavelength before said wavelength conversion pertains, and a wavelength class different therefrom which is to be selected on the basis of a difference in total optics transmission distance between before and after said electrical regenerative relay.

7. An optical network design supporting apparatus for, which is made to selectively dispose one or more optical repeating apparatuses each having a function for carrying out electrical regenerative relay selectively on a plurality of inputted optical signals and a function for carrying out wavelength conversion selectively on said optical signal which is an object of said electrical regenerative relay, said design supporting apparatus comprising:
- storage means storing wavelength class information on wavelength classes obtained by classification of a plurality of wavelengths available in said optical network according to transmission capability of said wavelengths;
  
  recommendation transmission path dividing means for, in a case in which an idle wavelength which satisfies optical transmission over a total optics transmission distance of a recommendation optical transmission path in said optical network for a traffic demand from the external does not exist among the available wavelengths, dividing said recommendation optical transmission path into a plurality of optical transmission sections by the disposition of said optical repeating apparatus; and
  
  wavelength allocating means for allocating a wavelength pertaining to, of said wavelength classes obtained by classification based on said wavelength class information in said storage means, one of a wavelength class equal to a wavelength class, to which a wavelength before said wavelength conversion of said optical signal pertains, and a wavelength class different therefrom which is to be selected on the basis of a difference in total optics transmission distance of said optical transmission section between before and after said electrical regenerative relay.
- View Dependent Claims (8)
- - 8. The optical network design supporting apparatus according to claim 7, wherein said wavelength allocating means is configured so as to, in a case in which the total optics transmission distance of said optical transmission section after said electrical regenerative relay in said optical repeating apparatus is longer than the total optics transmission distance of said optical transmission section before said electrical regenerative relay, allocate a wavelength pertaining to a wavelength class equal to the wavelength class to which the wavelength before said wavelength conversion in said optical repeating apparatus pertains or a wavelength class higher than the wavelength class to which the wavelength before said wavelength conversion pertains, while, in a case in which the total optics transmission distance of said optical transmission section after said electrical regenerative relay in said optical repeating apparatus is shorter than the total optics transmission distance of said optical transmission section before said electrical regenerative relay, allocate a wavelength pertaining to a wavelength class equal to the wavelength class to which the wavelength before said wavelength conversion in said optical repeating apparatus pertains or a wavelength class lower than the wavelength class to which the wavelength before said wavelength conversion pertains.

9. An optical network design supporting method, which is for selectively disposing one or more optical repeating apparatuses each having a function to carry out electrical regenerative relay selectively on a plurality of inputted optical signals and a function to carry out wavelength conversion selectively on said optical signal which is an object of said electrical regenerative relay, said design supporting method comprising the steps of:
- storing, in storage means, wavelength class information on wavelength classes obtained by classification of a plurality of wavelengths allocable in said optical network according to transmission capability of said wavelengths;
  
  in a case in which an idle wavelength which satisfies optical transmission over a total optics transmission distance of a recommendation optical transmission path in said optical network for a traffic demand from the external does not exist among the allocable wavelengths of said wavelength class information in said storage means, dividing said recommendation optical transmission path into a plurality of optical transmission sections by the disposition of said optical repeating apparatus; and
  
  with respect to said optical signal which is an object of said wavelength conversion in said optical repeating apparatus, allocating a wavelength pertaining to, of wavelength classes obtained by classification based on said wavelength class information in said storage means, one of a wavelength class equal to a wavelength class, to which a wavelength before said wavelength conversion of said optical signal pertains, and a wavelength class different therefrom which is to be selected on the basis of a difference in total optics transmission distance of the divided optical transmission sections between before and after said electrical regenerative relay.
- View Dependent Claims (10)
- - 10. The optical network design supporting method according to claim 9, wherein a comparison is made in terms of the total optics transmission distances of the divided optical transmission sections and, in a case in which the total optics transmission distance of said optical transmission section after said electrical regenerative relay in said optical repeating apparatus is longer than the total optics transmission distance of said optical transmission section before said electrical regenerative relay, a wavelength pertaining to a wavelength class equal to the wavelength class to which the wavelength before said wavelength conversion in said optical repeating apparatus pertains or a wavelength class higher than the wavelength class to which the wavelength before said wavelength conversion pertains is allocated as a wavelength of said optical signal after said wavelength conversion and, in a case in which the total optics transmission distance of said optical transmission section after said electrical regenerative relay in said optical repeating apparatus is shorter than the total optics transmission distance of the optical transmission section before said electrical regenerative relay, a wavelength pertaining to a wavelength class equal to the wavelength class to which the wavelength before said wavelength conversion in said optical repeating apparatus pertains or a wavelength class lower than the wavelength class to which the wavelength before said wavelength conversion pertains is allocated as said wavelength of said optical signal after said wavelength conversion.

11. An optical network design supporting apparatus, comprising:
- transmission capability calculating means for calculating a transmission capability for each of a plurality of wavelengths available in said optical network; and
  
  wavelength allocating means for allocating, to a recommendation optical transmission path in said optical network for a traffic demand from the external, a wavelength having a transmission capability corresponding to a total optics transmission distance of said recommendation optical transmission path on the basis of a result of the calculation in said transmission capability calculating means.

12. An optical network design supporting method, comprising the steps of:
- calculating a transmission capability for each of a plurality of wavelengths available in said optical network; and
  
  allocating, to a recommendation optical transmission path in said optical network for a traffic demand from the external, a wavelength having a transmission capability corresponding to a total optics transmission distance of said recommendation optical transmission path on the basis of a result of the calculation.

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Current Assignee
Fujitsu Limited
Original Assignee
Fujitsu Limited
Inventors
Hoshida, Takeshi

Application Number

US11/111,874
Publication Number

US 20050185967A1
Time in Patent Office

Days
Field of Search
US Class Current

398/173
CPC Class Codes

H04B 10/29   Repeaters

H04J 14/0227   Operation, administration, ...

H04J 14/0241   Wavelength allocation for c...

H04J 14/0284   WDM mesh architectures

Optical repeating apparatus, optical network system, optical network design supporting apparatus and design supporting method

First Claim

1 Assignment

0 Petitions

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Abstract

28 Citations

12 Claims

Specification

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Optical repeating apparatus, optical network system, optical network design supporting apparatus and design supporting method

First Claim

1 Assignment

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Subscription Required

0 Petitions

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Accused Products

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Abstract

28 Citations

12 Claims

Specification

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Solutions

Use Cases

Quick Links