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CN-122027919-A - PON network beam splitter capacity expansion network access method, device, storage medium and equipment

CN122027919ACN 122027919 ACN122027919 ACN 122027919ACN-122027919-A

Abstract

The invention discloses a capacity expansion network access method, a device, a storage medium and equipment of a PON (Passive optical network) network optical splitter, wherein the method comprises the steps of constructing an optical splitter resource storage model for storing optical splitter equipment attributes and an optical splitter port resource storage model for storing an optical splitter port occupation state, constructing a middle library data storage model based on the optical splitter resource storage model, the optical splitter port resource storage model and on-way work order data, calculating a target beam splitter ratio of a target capacity expander optical splitter based on the middle library data storage model, determining a target primary optical splitter port carrying the target beam splitter ratio, wherein the target primary optical splitter port is an uplink optical splitter port of the target capacity expander optical splitter, and configuring equipment resource data of the target capacity expander optical splitter on the basis of the target primary optical splitter port and the target beam splitter ratio so as to complete capacity expansion network access. The processing efficiency and the configuration reliability of the beam splitter in the capacity expansion process are improved.

Inventors

  • CAI ZHONGSHENG

Assignees

  • 中国移动通信集团辽宁有限公司
  • 中国移动通信集团有限公司

Dates

Publication Date
20260512
Application Date
20260127

Claims (10)

  1. 1. A PON network splitter capacity-expansion network-entry method, comprising: Constructing an optical splitter resource storage model for storing optical splitter equipment attributes and an optical splitter port resource storage model for storing the occupancy state of an optical splitter port, and constructing an intermediate library data storage model based on the optical splitter resource storage model, the optical splitter port resource storage model and on-road work order data, wherein the intermediate library data storage model is used for storing the real-time available resource states of an optical splitter and the port thereof; Calculating a target beam splitter ratio of a target capacity-expanding beam splitter based on the intermediate library data storage model, and determining a target primary beam splitter port bearing the target beam splitter ratio, wherein the target primary beam splitter port is an uplink beam splitter port of the target capacity-expanding beam splitter; and configuring equipment resource data of the target capacity expansion optical splitter on the basis of the target primary optical splitter port and the target optical splitting ratio so as to complete capacity expansion network entry.
  2. 2. The PON network optical splitter capacity-expansion networking method according to claim 1, wherein the optical splitter resource storage model and the optical splitter port resource storage model are constructed by: Basic attribute information of all optical splitters in a network is acquired; establishing a corresponding resource record for each beam splitter based on the basic attribute information, and generating a beam splitter resource storage model based on the resource record; And generating splitter port resource data corresponding to each splitter based on the splitting ratio data of the splitter in the splitter resource storage model, and generating the splitter port resource storage model based on the splitter port resource data.
  3. 3. The PON network optical splitter capacity-expansion networking method according to claim 1, wherein the constructing an intermediate library data storage model based on the optical splitter resource storage model, the optical splitter port resource storage model and on-way work order data comprises: acquiring the beam splitting ratio, the beam splitter level and the upper network resource information of each beam splitter based on the beam splitter resource storage model; Acquiring the occupation state of the port of each optical splitter based on the optical splitter port resource storage model; Acquiring pre-occupying information of PON port resources in the on-road work order data, wherein the on-road work order data is an expansion work order which is created but not completed in network access processing, and the corresponding optical splitter resource data is not written into the optical splitter resource storage model; And generating an intermediate library data storage model for verifying the capacity expansion data of the optical splitters based on the optical splitting ratio, the optical splitter level, the upper network resource information, the occupation state of the ports and the pre-occupation information of the PON port resources of each optical splitter, so as to be used for calculating the optical splitting ratio and verifying the port availability in the subsequent capacity expansion process of the optical splitters.
  4. 4. The PON network splitter capacity-expansion networking method of claim 1, wherein the calculating a target splitting ratio of a target capacity-expansion splitter based on the intermediate library data storage model and determining a target primary splitter port carrying the target splitting ratio comprises: Calculating the sum of configured splitting ratios under a PON port to which a reference capacity expansion beam splitter belongs based on the intermediate library data storage model, wherein the reference capacity expansion beam splitter is an on-network two-level beam splitter which is connected to the same one-level beam splitter in an upper-connection manner with the target capacity expansion beam splitter; Determining the target split ratio of the target capacity expansion splitter based on the configured sum of the split ratios; and determining the target primary beam splitter port bearing the target beam splitter ratio based on the intermediate library data storage model, and taking the target primary beam splitter port as an uplink beam splitter port of the target capacity expansion beam splitter.
  5. 5. The PON network optical splitter capacity-expansion network-access method according to claim 1, wherein the configuring the device resource data of the target capacity-expansion optical splitter comprises: Selecting a reference capacity expansion optical splitter based on the optical splitter resource storage model, and judging an associated storage mode between a broadband coverage address resource and the reference capacity expansion optical splitter, wherein the reference capacity expansion optical splitter is an on-line two-level optical splitter connected to the same level optical splitter in an upper mode with the target capacity expansion optical splitter; Acquiring the optical splitter ID of the reference capacity expansion optical splitter according to the association storage mode; acquiring room number resource information associated with the reference capacity expansion beam splitter based on the beam splitter ID; Acquiring floor resource information of all coverage floors of the same unit to which the reference capacity expansion beam splitter belongs based on the room number resource information; and configuring the floor resource information as the coverage floor resource information of the target capacity expansion beam splitter.
  6. 6. The PON network beam splitter capacity-expanding method according to claim 5, further comprising, after configuring the floor resource information as the coverage floor resource information of the target capacity-expanding beam splitter: and according to the actual coverage requirement, adjusting the floor which is required to be covered by the target capacity expansion beam splitter so as to update the coverage floor resource information corresponding to the target capacity expansion beam splitter.
  7. 7. The PON network splitter capacity-expansion method according to claim 1, further comprising, after the configuration of the device resource data: Temporarily storing the capacity expansion resource data generated in the capacity expansion process into the intermediate library data storage model; and initiating a capacity expansion work order checking request, and after receiving a response of passing the capacity expansion work order checking, writing the capacity expansion resource data temporarily stored in the intermediate library data storage model into the optical splitter resource storage model and the optical splitter port resource storage model to finish the capacity expansion network of the optical splitter.
  8. 8. A PON network optical splitter capacity-expansion networking device for implementing a PON network optical splitter capacity-expansion networking method according to any one of claims 1-7, the device comprising: The system comprises a resource model construction module, a beam splitter port resource storage module and a database data storage module, wherein the resource model construction module is used for constructing a beam splitter resource storage model for storing the attribute of beam splitter equipment and a beam splitter port resource storage model for storing the occupation state of a beam splitter port, and constructing a database data storage model based on the beam splitter resource storage model, the beam splitter port resource storage model and on-the-way work order data, wherein the database data storage model is used for storing the real-time available resource state of a beam splitter and a port thereof; The beam-splitting ratio and port determining module is used for calculating the target beam-splitting ratio of the target capacity-expansion beam splitter based on the intermediate library data storage model and determining a target primary beam splitter port bearing the target beam-splitting ratio, wherein the target primary beam splitter port is an uplink beam splitter port of the target capacity-expansion beam splitter; And the capacity expansion network configuration module is used for configuring equipment resource data of the target capacity expansion optical splitter based on the target primary optical splitter port so as to complete capacity expansion network.
  9. 9. A computer readable storage medium, wherein the computer readable storage medium comprises a stored computer program, and the computer program controls a device where the computer readable storage medium is located to execute the PON network optical splitter capacity expanding method according to any one of claims 1-7 when running.
  10. 10. A terminal device comprising a processor, a memory and a computer program stored in the memory and configured to be executed by the processor, the processor implementing a PON network splitter capacity-expansion method according to any one of claims 1-7 when executing the computer program.

Description

PON network beam splitter capacity expansion network access method, device, storage medium and equipment Technical Field The present invention relates to the field of PON network expansion technologies, and in particular, to a PON network optical splitter expansion network access method, apparatus, storage medium, and device. Background With the increasing popularity of broadband networks, fixed broadband has become an infrastructure for residential and business information access. In the existing broadband access network, PON (Passive Optical Network ) is widely used in urban and residential broadband access scenarios due to its low construction cost and strong coverage capability. The Optical splitter is used as a key passive device in the PON, and is configured to distribute Optical signals from an OLT (Optical LINE TERMINAL) according to a certain Optical splitting ratio, which is an essential component for implementing user access. In the broadband installation process, the service personnel usually need to open broadband service for the user through the idle port of the secondary optical splitter at the tail end. However, due to comprehensive consideration of factors such as return on investment and market competition, each broadband operator often controls the port allocation rate of the splitter in the initial network construction stage, so that the ratio of the number of ports of the overlay device to the number of overlay users is kept at a low level. As the number of broadband users in an area continues to increase, the service personnel cannot acquire available ports of the optical splitters when installing broadband for newly increased users, so that account opening efficiency and installation timeliness of broadband service are affected. To solve the above problem, it is generally necessary to perform incremental capacity expansion on the existing optical splitter. In the prior art, the optical splitter equipment or port resources are added to meet the increasing user access demands. However, in the actual configuration process, since the capacity expansion of the optical splitter often involves multiple links such as optical splitting ratio selection, availability judgment of an uplink port, configuration and network access of resource data, relevant resource information is dispersed in different systems or models, and part of resources are in an on-road work order state, it is difficult to obtain the real-time available resource states of the optical splitter and the port thereof in time. This causes problems of low capacity expansion efficiency and reliability in the capacity expansion process of the optical splitter. When the capacity expansion personnel performs the capacity expansion configuration of the optical splitter, decision making is easy to be performed based on incomplete or inconsistent resource data, and further the problems of inaccurate calculation of a target split ratio, conflict in uplink port selection, failure in network access of expansion resources and the like are caused, so that the capacity expansion efficiency of the optical splitter is low and the reliability of configuration decision making is poor. Disclosure of Invention The embodiment of the invention aims to provide a method, a device, a storage medium and equipment for expanding capacity and entering network of a PON (Passive optical network) optical splitter, which are used for realizing accurate acquisition of the states of an optical splitter and a port real-time available resource thereof by constructing an optical splitter resource storage model, an optical splitter port resource storage model and an intermediate base data storage model fused with in-transit work order data and completing calculation of an optical splitting ratio and determination of an uplink port based on the intermediate base data, thereby realizing automatic configuration and network entry processing of the expanded capacity resource of the optical splitter and improving the processing efficiency and reliability of configuration decision in the expanding process of the optical splitter. In order to achieve the above object, an embodiment of a first aspect of the present invention provides a PON network optical splitter capacity-expansion network-entry method, where the method includes: Constructing an optical splitter resource storage model for storing optical splitter equipment attributes and an optical splitter port resource storage model for storing the occupancy state of an optical splitter port, and constructing an intermediate library data storage model based on the optical splitter resource storage model, the optical splitter port resource storage model and on-road work order data, wherein the intermediate library data storage model is used for storing the real-time available resource states of an optical splitter and the port thereof; Calculating a target beam splitter ratio of a target capacity-expanding beam splitter base