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Multi-domain controller, single-domain controller, and software-defined optical network system and method

A domain controller and controller technology, applied in optical multiplexing systems, transmission systems, digital transmission systems, etc., can solve problems such as complex network control functions

Active Publication Date: 2017-01-04
ZTE CORP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Due to the need to introduce new software and hardware technologies such as service awareness, damage analysis, layer-domain collaboration, resource virtualization, asymmetric encryption algorithm (RSA), bandwidth on demand (BOD, Bandwidth On Demand), ASON / GMPLS control "fat plane" The trend of globalization is more obvious, which leads to more and more complex network control functions

Method used

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  • Multi-domain controller, single-domain controller, and software-defined optical network system and method
  • Multi-domain controller, single-domain controller, and software-defined optical network system and method
  • Multi-domain controller, single-domain controller, and software-defined optical network system and method

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0078] Embodiment 1: An example of the component architecture of the SDON multi-domain controller in the SDON architecture system.

[0079] The SDON architecture system includes: an application layer, a controller layer, and a device layer, wherein the controller layer includes a multi-domain controller layer and a single-domain controller layer, such as Figure 4 Shown is an embodiment of the SDON architecture system. In this embodiment, the detailed description of the component functions of the component architecture of the SDON multi-domain controller is as follows:

[0080] 1. The virtual network service manager 101—belongs to the key component of the controller, and its main functions are as follows:

[0081] 1. Handle cross-domain or single-domain VONS service requests from application layer users. The cross-domain VONS service request is divided into two parts for processing: the inter-domain part and the part within each single domain. For the inter-domain part of th...

Embodiment 2

[0102] Embodiment 2: an example of the component architecture of the SDON single domain controller in the SDON architecture system.

[0103] The SDON architecture system includes: an application layer, a controller layer, and a device layer, wherein the controller layer includes a multi-domain controller layer and a single-domain controller layer, such as Figure 5 Shown is an embodiment of the SDON architecture system. In this embodiment, the detailed description of the component functions of the component architecture of the SDON single domain controller is as follows:

[0104] 1. The virtual network service manager 201—belongs to the key component of the controller, and its main functions are as follows:

[0105] 1. Process virtual network service requests from multi-domain controllers in this domain: service requests for connection attributes such as BOD will be forwarded to the routing connection controller; service requests for OVPN attributes will be based on the obtain...

Embodiment 3

[0126] Embodiment 3: an example of each message exchange protocol in the SDON architecture system.

[0127] 1. The content of the message exchanged between the application layer and the multi-domain controller is as follows:

[0128] a. Cross-domain virtual optical network service VONS request and response, the request includes the establishment, deletion, attribute modification, query and other operations of cross-domain BOD, OPVN and other services.

[0129] b. Single domain virtual optical network service VONS request and response.

[0130] c. Session and handshake messages of PCEP+ / OPENFLOW / Restful / SNMP protocol.

[0131] d. Reported by the multi-domain controller and provided according to the user level, limited and open cross-domain virtual optical network layer topology information.

[0132] e. Reported by the multi-domain controller, limited and open single-domain virtual optical network layer topology information provided according to the user level.

[0133] 2. Th...

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Abstract

Disclosed are a multi-domain controller, a single-domain controller, and a software-defined optical network system and method. The multi-domain controller at least comprises a virtual network service manager. The virtual network service manager is configured to process a cross-domain or single-domain virtual optical network service (VONS) service request from an application layer. The cross-domain VONS service request is divided into two parts to be processed: an inter-domain part and each intra-single-domain part. The inter-domain part of the cross-domain VONS service request is processed by the multi-domain controller; with regard to a service request for a bandwidth on demand (BOD) connection attribute in the cross-domain VONS service request, the request is forwarded to a routing connection controller; and with regard to a service request for an optical virtual private network (OVPN) attribute in the cross-domain VONS service request, OVPN service processing comprising establishment and deletion is performed according to acquired virtual network layer resources.

Description

technical field [0001] The present invention relates to controller technology in Software Defined Optical Network (SDON, Software Defined Optical Network), in particular to a multi-domain controller and a single domain controller in an SDON architecture system capable of realizing virtual optical network services, the SDON architecture system , a message interaction configuration method in an SDON architecture system, and a method for processing service requests of an application layer based on an SDON architecture system. Background technique [0002] In the process of implementing the technical solutions of the embodiments of the present application, the inventors of the present application at least found the following technical problems in the related art: [0003] Optical fiber communication has developed rapidly in the past few decades. Various nodes, systems and networking technologies have emerged in an endless stream. The single channel rate has reached the Tbit / s le...

Claims

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Application Information

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IPC IPC(8): H04L12/715H04L12/717H04L45/02H04L45/42
CPCH04L45/02H04L45/04H04L45/64H04L47/70H04J14/0227H04L45/12H04L45/42
Inventor 王大江王振宇
Owner ZTE CORP
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