TW202031067A - System for wifi route discovery in virtual network - Google Patents

Abstract

The present invention relates to a system for WiFi virtual router in virtual network, which uses a software definition rule assignment virtual real resource engine as a basic rule base data, and a visualizing graphical layered container assembly link management module to formulate a Orchestrator of various types of services, by reading information of a cross-domain information topology model management module and a virtual reality hybrid cloud heterogeneous collaborative security management module, to complete the routing of public WiFi service in the virtual and real network, in addition, identifying network congestion and poor quality network nodes by a degraded root cause wisdom diagnosis inference prediction judgment module and reporting to the visualizing graphical layered container assembly link management module, and transferring to the software definition rule assignment virtual real resource engine for analysis to correct the current rule base and performing appropriate routing adjustment or generating new VNF resources to support routing-assigned services.

Description

Virtual public WiFi circuit assignment system

The present invention relates to a technology for the adjustment and management of virtual and real network resources. In detail, it relates to a virtual public WiFi circuit assignment system applied to a software-defined hybrid cloud.

Previously, networks were all physical networks. With the advancement of technology, software-defined networking (SDN) virtual networks are currently being introduced. This architecture allows network administrators to use central control without changing the hardware architecture. The way to plan the network by program, that is, the program can be used to plan or re-plan the network, which provides a new control scheme for network traffic, and can also provide a good interface platform for the core network or other applications .

In the network environment under the concept of SDN virtual network, considering the complexity, network flexibility, network utilization and other issues, it concentrates the control rights that originally belonged to all levels of switching equipment to the control core, which makes the overall The complexity of network planning has dropped significantly, making SDN virtual networks more widely used. However, with the vigorous development of virtual network technology, the integration of physical networks and virtual networks has become very important. There are also many integration problems, such as When allocating paths, it is necessary to consider the application or connection of physical and virtual networks together. In the case of WIFI, the actual conditions of the physical and virtual networks must be considered when allocating paths as the basis for path planning.

It can be seen from the above that if a virtual and real network resource adjustment and management mechanism can be found, especially the path assignment problem during virtual and real network integration and network degradation monitoring and then adjust the rules as the basis for path assignment, this will become the basis Those in the technical field are eager to pursue the goal of a solution.

The purpose of the present invention is to propose a virtual and real network integrated scheduling process and resource management in the field of artificial intelligence, mainly using SDN software-defined hybrid cloud on-demand dynamic routing collaboration architecture, and virtual and real hybrid cloud services based on artificial intelligence and intelligent active judgment To integrate virtual and real network resource adjustment and management.

In order to achieve the above objectives and other objectives, the present invention proposes a virtual public WiFi circuit assignment system, including: a cross-domain information topology model management module, which is used to convert network elements and their connection associations and attribute data into A multi-level general information model, information template and description file that can be advanced to expand. By executing the access operation and exchange of the multi-level general information model and information template, it can be used for automatic analysis and application of multiple heterogeneous information systems of various types of purposes. , In order to achieve cross-platform information analysis and interoperability cooperation; visual graphics hierarchical container assembly link management module, using the built-in general resource scheduling composition and network component assembly and execution configuration, call in the virtual and real network hybrid digital The service of integration and installation; virtual and real hybrid cloud heterogeneous collaboration security control management module, which uses the snowflake data structure to store the translation information, relay information, calculation information or digital data of each module component template during the process of the process execution process. Analysis information; and software-defined rule assignment-driven virtual and real resource engine, which connects the cross-domain information topology model management module, the visual graphics hierarchical container assembly connection management module, and the virtual and real hybrid cloud heterogeneous collaborative security control management module Group, the software-defined rule assigns and drives the virtual and real resource engine after assembling various types of microservices, According to the rule library of software-defined design, the service cluster of the business operation execution rules is activated during the operation of the driving service and the software-defined rule assignment-driven virtual and real resource engine is activated, thereby real-time collection of various data sources generated during the execution process of the network service Separate management and operation from trigger events and data, where the software-defined rule assignment drives the virtual and real resource engine to assemble various types of service components and read the cross-domain based on the visual graphic hierarchical container assembly link management module The information of the information topology model management module and the virtual-real hybrid cloud heterogeneous cooperative security management module completes the routing assignment of public WiFi services on the virtual-real network.

In one embodiment, the cross-domain information topology model management module uses multi-level description language technology to convert the network elements and their connection associations and attribute data into the multi-level general information model and Information template and the description file. In addition, the aforementioned network elements include equipment, circuits, services and/or connections.

In another embodiment, the cross-domain information topological model management module uses repeatable combination to connect topological templates, layer by layer the network elements in node type, relationship type and Based on the stacking topology association developed by the service application network topology hierarchy, the associations are extended layer by layer to package into a standardized general container image network execution configuration.

In another embodiment, the virtual-real hybrid cloud heterogeneous collaborative security control management module stores or reads the translation message, the relay message, the operation message, or the digital analysis through remote operation of a remote command set matrix message.

In still another embodiment, the virtual public WiFi circuit assignment system further includes a deteriorating root cause intelligent diagnosis, predicting and determining module that links the software-defined rule assignment to drive the virtual and real resource engine, and the deteriorating root intelligent diagnostic inference, predicting and determining module It is based on the comprehensive intelligent object template and massive data-based multi-dimensional cross-data feedback collection, which is used in the independent intelligent control process program Detailed actions and their trigger events or feedback.

In addition, the intelligent diagnosis, prediction, and judgment module for the root cause of deterioration uses information technology (IT) and operation technology (OT) to integrate artificial intelligence, big data analysis and machine learning to improve process operation efficiency and autonomously drive intelligent management and control, and then summarize and merge Predict the bottleneck in the microservice operation and execution in the process, and report it to the visual graphics hierarchical container assembly link management module.

In addition, the execution bottleneck of the microservice operation in the process is sent to the software-defined rule assignment to drive the virtual and real resource engine, and the software-defined rule assignment drives the virtual and real resource engine to analyze and revise the rule base to perform routing transfer or generate new Virtual network function (VNF) resources to support routing assignment services.

In one embodiment, the virtual public WiFi circuit assignment system further includes a mobile cross-platform dynamic dashboard module that links the software-defined rule assignment to drive the virtual and real resource engine, and the mobile cross-platform dynamic dashboard module is a system Combine different themes on at least one remote portable display device for on-site interactive operation and information feedback.

In addition, the at least one remote portable display device includes a plurality of display blocks, each of the display blocks is responsible for a calculation theme, and the information of each of the display blocks is linked with other display blocks to form a hierarchical affiliation.

In summary, through the virtual public WiFi circuit assignment system proposed in the present invention, network slicing (Network Slicing) network routing group isolation can be achieved, thereby improving security, while sharing a single physical circuit to improve resource usage In this way, it is possible to flexibly generate virtual routers of different specifications and levels according to the size of the company’s needs, and then complete the end-to-end virtual and real network path automatic setting and opening process management to respond to the new types of ICT composite application services .

1.‧‧Virtual public WiFi circuit assignment system

11‧‧‧Cross-domain information topology model management module

12‧‧‧Visual graphics hierarchical container assembly link management module

13‧‧‧Virtual and real hybrid cloud heterogeneous collaboration security control management module

14‧‧‧Software-defined rule assignment drives the virtual and real resource engine

15‧‧‧Deterioration root cause intelligent diagnosis, inference, prediction and judgment module

16‧‧‧Mobile cross-platform dynamic dashboard module

1001‧‧‧Service Template

1002‧‧‧Topology template

1003‧‧‧Planning process

1004‧‧‧Node type

1005‧‧‧Script

1006‧‧‧Relationship Type

Figure 1 is a system architecture diagram of the virtual public WiFi circuit assignment system of the present invention; Figure 2 is a diagram of the virtual resource intelligent backbone network dynamic assignment architecture diagram of the present invention; Figure 3 is a multi-cloud (Multi -Cloud) virtualized vWiFi end-to-end dynamic allocation and provisioning flow chart; Figure 4 is a schematic diagram of the relationship nodes in the virtual and real topology of the present invention; Figure 5 is the information model used in the present invention A schematic diagram of a Topology Template; and Figure 6 is a flow chart of the intelligent dynamic on-demand scheduling assignment according to the present invention.

The following describes the technical content of the present invention with specific specific embodiments. Those familiar with the art can easily understand the advantages and effects of the present invention from the content disclosed in this specification. However, the present invention can also be implemented or applied by other different specific embodiments.

Figure 1 is a system architecture diagram of the virtual public WiFi circuit assignment system of the present invention. As shown in the figure, the virtual public WiFi circuit assignment system 1 of the present invention can include a cross-domain information topology model management module 11, a visual graphic hierarchical container assembly connection management module 12, and a virtual and real hybrid cloud heterogeneous collaborative security control management module. The module 13 and software-defined rules are assigned to drive the virtual and real resource engine 14.

The cross-domain information topology model management module 11 is used to convert network elements and their connection associations and attribute data into multi-level general information models and information templates and description files that can be advanced and expanded. By executing the multi-level general information The access operation and exchange of information models and information templates are used for the automatic analysis and application of multiple heterogeneous information systems of various types of purposes, so as to achieve cross-platform information analysis and interoperability cooperation.

Specifically, the cross-domain information topology model management module 11 uses multi-level description language technology to convert the network elements and their connection associations and attribute data into the multi-level general information model and information template that can be advanced The description file is used to access and exchange operation model templates, and is used for further automatic analysis and application of diverse and heterogeneous information systems of various types and uses, so as to accelerate cross-platform information analysis and subsequent interoperability and cooperation between information systems. The aforementioned network elements may include equipment, circuits, services and/or connections.

In addition, the cross-domain information topology model management module 11 also uses a repeatable combination of connection topology templates, and uses a hierarchical recursive method to classify the network elements layer by layer in node type, relationship type, and service application network Stacked topological associations unfolded by the topological hierarchy, and extended layers of associations to encapsulate them into a standardized universal container image network execution configuration.

The visual graphics hierarchical container assembly connection management module 12 uses the built-in general resource scheduling composition and the network component assembly and execution configuration to call the service of hybrid digital convergence for virtual and real networks. The aforementioned services include service packaging, assembly, integration, publishing, subscription, delivery, and management of exception trigger events and automatic recovery of abnormal states in the service process. In detail, the separate operating system layer can be used to distinguish heterogeneous file system specifications, decouple programming frameworks are composed of stacks, and various types of heterogeneous operations can be standardized through application programming interfaces, and applications, libraries, and environment groups can be used State-centric packaging application object virtualization is unique among hardware of different specifications Standalone RunTime moves quickly to provide a rapidly deployable base image, instead of packaging a standardized carrier container with the operating system as the center, linking and assembling one or more portable, cross-platform, programmable, and complete execution environments. Service element.

The virtual and real hybrid cloud heterogeneous collaborative security management module 13 uses a snowflake data structure to store the translation information, relay information, calculation information or digital analysis information of each module component template during the process of the process execution process. In one embodiment, the virtual-real hybrid cloud heterogeneous cooperative security management module 13 can store or read the translation message, the relay message, the operation message, or the digital analysis through remote operation of the remote command set matrix message.

The software-defined rule assigns and drives the virtual and real resource engine 14 to connect the cross-domain information topology model management module 11, the visual graphics hierarchical container assembly connection management module 12, and the virtual and real hybrid cloud heterogeneous collaborative security control management module 13, the The software-defined rule assignment drives the virtual and real resource engine 14 after assembling various types of microservices, according to the rule library of the software-defined design, drives the service cluster to drive the business operation execution rules in the service operation, and then activates the software-defined rule assignment drives the virtual and real resource engine 14 , To collect various data sources and trigger events generated in the process of network service execution in real time, and separate management and operation of data. In addition, the software-defined rule assigns and drives the virtual and real resource engine 14 according to the visual graphics hierarchical container to assemble the components of the various types of services formulated by the link management module 12 and read the cross-domain information topology model management module 11 and the The information of the virtual and real hybrid cloud heterogeneous collaboration security management module 13 is used to complete the routing assignment of public WiFi services on the virtual and real network.

In short, the software-defined rules are assigned to drive the virtual and real resource engine 14 after assembling various types of microservices, based on the software-defined design rule base, and drive the service cluster startup engine that guides business operation execution rules during service operation, and is responsible for real-time network collection Service execution process Separate management and operation of various types of data sources and trigger events as well as data generated during the process.

The above architecture can achieve the basic virtual and real network routing assignment. However, considering the network status monitoring and accelerating the construction speed of external personnel or improving the construction quality, the virtual public WiFi circuit assignment system 1 of the present invention further includes connection software-defined rules The intelligent diagnosis, inference, prediction and determination module 15 for the root cause of deterioration of the virtual and real resource engine 14 and the mobile cross-platform dynamic dashboard module 16 are assigned.

The degradation root cause intelligent diagnosis, inference, prediction and determination module 15 can collect comprehensive intelligent object templates and massive data-based multi-dimensional cross-data feedback collection to autonomously and intelligently control detailed actions in the process and their trigger events or feedback. Specifically, the degradation root cause intelligent diagnosis, prediction and judgment module 15 uses information technology (IT) and operation technology (OT) to integrate artificial intelligence, big data analysis and machine learning to improve process operation efficiency and autonomously drive intelligent management and control, and then summarize It also predicts the location of the execution bottleneck of the microservices in the process, and reports it to the visual graphics layered container assembly connection management module 12.

In addition, the execution bottleneck of the micro-service operation in the aforementioned process is sent to the software-defined rule assignment to drive the virtual and real resource engine 14, and the software-defined rule is assigned to drive the virtual and real resource engine 14 to analyze and modify its rule base to perform routing transfer or Generate new virtual network function (VNF) resources to support routing assignment services. It can be seen from the above that the digital multi-dimensional cross-prediction and analysis of the huge traffic volume and the complex long-term user behavior database can further summarize, analyze and predict the trend of subsequent short-term and long-term trends, and achieve precise and efficient control process procedures and inductive analysis. It produces a dynamic aggregated dashboard device that feeds back the composite linkage information to the monitoring terminal or user bricks.

The mobile cross-platform dynamic dashboard module 16 can combine different themes in at least one A remote portable display device for on-site interactive operation and information feedback. The aforementioned at least one remote portable display device includes a plurality of display blocks, each of which is responsible for a computing theme, and each The information of the display block is linked to other display blocks to form a hierarchical affiliation, that is, the information of each display block is linked to other display blocks, displaying a large amount of data in different dimensions. Cross-calculation analysis and induction Diagnosis, derivation and prediction, and interactive operation of topic information through the terminal device for control.

In summary, the present invention uses the software-defined rule assignment to drive the virtual and real resource engine 14 as the basic rule database data, and uses the visual graphics hierarchical container to assemble the connection management module 12 to formulate the orchestrator of various types of services (such as public WiFi). ), by reading the information of the cross-domain information topology model management module 11 and the virtual-real hybrid cloud heterogeneous cooperative security management module 13 to complete the routing assignment of the public WiFi service on the virtual-real network. In addition, it can also find network congestion and poor-quality network nodes through the intelligent diagnosis of the root cause of the degradation, the predictive judgment module 15, and report it to the visual graphics hierarchical container assembly connection management module 12, and send it to the software-defined rule assignment After additional analysis by the driving virtual and real resource engine 14, the current rule base is further modified to perform appropriate routing deployment or generate new VNF resources to support routing assignment services. Finally, the mobile cross-platform dynamic dashboard module 16 provides users with remote monitoring of the network status.

The present invention provides a business process management engine (Business Process Management Engine) that guides business rules during service operation. The software-defined rule assignment drives the virtual and real resource engine 14 to collect various types of data generated during the execution of the service in real time and mine it through algorithmic data mining. Further summarize and analyze process trends and rules, so as to predict the bottleneck points and material shortages of the process in operation in advance, and the aforementioned results can be presented in a dynamic aggregated dashboard device (not shown), showing the most real-time data mining and analysis algorithm And feedback to predict trend changes and find out Process important trend rules, and improve the intelligent real-time management and control service mechanism. Compared with traditional methods that can only slowly find the cause of possible problems through terminal network management commands, it has the ability to deal with changes in the intelligent control mechanism that the previous skills lacked.

Figure 2 is a diagram of the virtual resource intelligent backbone network dynamic assignment architecture diagram of the present invention. Please refer to Figure 1 together. As shown in the figure, customer premise equipment (Customer Premise Equipment, CPE) can be connected to the Internet (Internet) through a physical network or a virtual network through a point of interconnection (POI). Virtual route assignment and connection opening through the telecom cloud computer room virtualization. When the path is blocked, it can react in real time and re-examine, schedule, allocate, monitor and dynamically adjust resources as needed, and dynamically virtualize through the access points ACCESS_C and ACCESS_R Optimize routing path assignment, and instantly build a smart telecom cloud backbone network based on demand.

Specifically, regarding the construction of the virtual network, the first step is to dynamically assign Smart Content Delivery Network (Smart CDN) nodes, the second step is to assign access points to the ACCESS loop, and the third step is Assign virtual gateways (vGW), assign Leaf/Spine nodes in the fourth step, and further complete the joint cluster equipment inventory (Inventory) assignment of the telecom cloud machine room. According to this, the instant invention The assignment architecture completes multi-layer Fail-Over Networking, and can simultaneously face the organization's intranet and the Internet.

Figure 3 is a flowchart of end-to-end dynamic allocation and provisioning of virtualized vWiFi under the Multi-Cloud architecture of the present invention, and please refer to Figure 1 together. The present invention uses the cross-domain information topology model management module 11 to build an information model template exchange configuration to achieve cross-platform interface collaboration and interoperability between multiple, heterogeneous and different purposes information systems using open standardized format formats, which can be flexible, fast, and accurate , Efficiently exchange virtual and real network resource information model analysis with each other for various applications. As shown in the figure, in the compound hybrid network environment of physical network and virtual network On the above, a general virtual and real network execution configuration and container scheduling and information model template are used to allow "SDN (Software Defined Network)/NFV (Network Function Virtualization)" software-defined networks and physical networks to perform configuration, Service circuits across heterogeneous network execution environments can be accessed, operated, and applied based on modular information models. The above-mentioned information model exchanges are used between multiple, heterogeneous and different purpose information systems to automatically analyze and translate the resource composition and composition of heterogeneous complex virtual and real network environments. Service component architecture. For example, business managers can apply according to customer orders, and managers can supply parameters based on this. When transmitted to the SND network, through virtual routers, through virtual links (virtual link) and SDN link (SDN link) to connect to the access network.

The routing node information model of the present invention uses the aforementioned cross-domain information topology model management module 11 to simultaneously describe the system of virtual and real network resource topology, so as to achieve rapid and flexible compatibility with general resource scheduling composition and service component assembly, including general The construction and application of a virtual and real network integrated resource architecture framework, including the topology configuration of virtual and real device ports, the flow of virtual and real circuit dedicated lines and ultra-wideband audio-visual video streaming, and the end-to-end complex network architecture routing of IPTV, ICT, and OTT Continue the IP association.

Continuing from the above, the Service Orchestrator in this system architecture, after receiving the service request order, parses the order and transforms it into multiple Resource Orchestrators, and then sends the instructions to the enterprise software-defined data center ( eCoreCloud) cloud control node, eCoreCloud then transmits the generated execution commands to the control unit of the SDN controller NAPA, and controls the routing table of the network protocol (open flow) and the SDN switch (SDN-SW) through the SDN control unit. Complete dynamic routing settings and fulfillment. Through virtual routing, multiple groups can be dynamically assigned to different purposes based on roles in real time as needed. Role-Based general/outsourcing/maintenance optimization routing to achieve the goal of multi-level virtualization of multi-service routing on a single circuit dedicated line. The above can be applied to a larger network ecosystem (ecosystem) constituted by SD-WAN/SD-VPN/SD-WAN. It supports the IPV6 protocol to suit the new era of IOT Internet of Things with a large number of terminals connected to the Internet.

Figure 4 is a schematic diagram of the relationship nodes in the virtual-real topology according to the present invention. The network resource scheduling service management process structure of the present invention is a network structure established by physical network equipment and virtual network equipment, using hierarchical recursion to describe information models one by one to establish a general network equipment topology and group State, the virtual and real network equipment execution environment is described in the same framework, including the location of the computer room, the establishment of equipment resources, and the association of the equipment with the location of the computer room. When building the equipment, it includes the location of the computer room, optical copper cable equipment, splitter equipment, brand, Network resource configuration such as model, rack, frame, card slot, card board, communication port, affiliated network management system, affiliated loop, and establishment of virtual and real network point-to-point circuit configuration architecture, including service naming, service rate, Service routing. The above architecture uses the concept of point, line, and plane to create a universal circuit information configuration for point-to-point circuits across virtual and real networks, including circuit name, communication ports at both ends of the circuit, circuit speed, circuit total bandwidth and its upper circuit Resources, and regarding the establishment of the service configuration architecture, the services of the virtual and real network will be used to establish a universal service configuration, resource scheduling and service cross-platform collaboration, assembling IT language and information model exchange technical description, using a new generation of Hierarchical description technology, which converts the configuration data of equipment, computer room, data center, circuit, connection, service, etc. into information topology description files, which can be automatically called by multiple information systems, allowing the information system to operate in a complex multiple network environment Automatically synchronize information exchange format specifications. It can be seen from the above that the cross-domain information topological model management module 11 of the present invention uses a new generation of international standard specification technology in the network execution environment required by the Internet of Information and Communication. Network equipment and virtual network equipment are mixed in a complex network execution environment, using hierarchical stacked information models and description languages to create a universal virtual-real integration applicable network equipment information model for installation and execution configuration, combining virtual and real networks Road equipment integration is described under the same framework and flexible cross-platform collaboration.

The present invention uses the network service assembly management process architecture, uses cross-platform standardized container specification technology to deploy and publish services, and drives the release of automatic deployment after the assembly process is completed. Compared with the previous traditional skills, the service definition and design are greatly improved. The flexibility and reliability of, assembly, installation, setting, opening, publishing, delivery, and subscription can be achieved by the on-site terminal operator's independent process changes and perceive process change feedback, so that end users can quickly assemble services through fully software-defined orchestration components online. In addition, the present invention further uses big data analysis to manage the process of data mining exploration algorithm after it is launched. Real-time state supervision and analysis to improve the intelligent control mechanism. Compared with the previous traditional learning skills, it improves the flexibility of service deployment and the demand for service resources. Scheduling assigns the assembly speed to be used in the network resource scheduling and service assembly supply of the Internet of Things and smart city innovative products and services, and quickly integrates other brands' heterogeneous fields through the use of common information models and virtual and real common network topologies Application cross-platform collaboration goes online.

As shown in the figure, the cross-domain information topology model management module 11 describes the resource service configuration service activity file (Service Active File) including one or more service templates 1001, and each service template 1001 may include one or more topology templates 1002. In the topology template 1002, various resource topology objects can be described and expandable, including MetaData, Deployment Artifact, Implementation Artifact, and Definition Schema, Plan, Script, Node Type, Relationship Type, etc. In addition, the node type 1004 is composed of multiple properties (Properties) definitions, and the relationship type 1006 is composed of A variety of interface (Interfaces) format composition, can be remotely executed command set script 1005 to drive, and use the execution plan flow (Build Plan Flow) 1003 process engine for process program graphic element arrangement, component serial connection and sequential drive, thereby The topologies are stacked and connected together and recursively implemented to form a larger range of topological composition to facilitate more complex and complex network topological tasks.

Figure 5 is a schematic diagram of the Topology Template of the information model used in the present invention. As shown in the figure, the present invention uses repeatable combination and connection topology templates to further apply the Node Type and Relationship Type to equipment, lines, wiring boxes, and computer room locations in a hierarchical recursive manner. Type) definition, and based on the service application network topology, stacking topology association, layer-by-layer association extension, and at the same time encapsulation is established as an integrated standardized universal container image network execution configuration, which can be used repeatedly and quickly , Local replacement, dynamic adjustment, external connection and other characteristics. In addition, the topological template one can be a physical network resource IPV6 video equipment, and the topological template two can be a software-defined L2 (Software Defined L2) virtual switching device, but it is not limited to this. It can be divided into multiple virtual subnets. Through the digital information model and IT configuration language description of the transmission and exchange attributes and its connected information model, various resource equipment lines are connected under the cross-platform portable shared resource information framework, and the neighbors are described by cross-platform standardized specification templates. Multi-nodes in the domain and complex and diverse point, line, and surface spatial composite associations, and use the cloud data management module snowflake data structure to link expansion and storage in at least one remote cloud storage device to keep the data synchronized and updated.

Using the modular and standardized information model description described in IT language, it can dynamically, quickly and flexibly analyze configuration execution files through file naming, logic, configuration, settings, and association rules, and automatically implement the construction of virtualized cloud services , Deployment, management, and subscription. Compared with traditional methods, it improves efficiency, speed and flexibility, and is more suitable for virtual and real integrated hybrid networks in the Industry 4.0 era. For the provision of road services, if the traditional service is used as a single-use method, it is impossible to build a universal service across heterogeneous and multiple network environments. This is a breakthrough in the application of information and communication of the present invention and is more suitable for service provision in the Internet of Things era. frame. In addition, the life cycle management of service supply and release and the provision and release of services evolve over time, and the structure of the present invention can be further used to flexibly expand the content of the information model module to meet the ever-changing diversified development of high-level information communication needs and applications.

The visual graphics hierarchical container assembly connection management module 12 of the present invention uses abstract programming and standardized container management mechanisms to complete the establishment, deployment, release, subscription, delivery, and removal of services with a unified framework of abstraction, standardization, and generalization. And publish and subscribe management. Among them, the container and the container can be a sub-structure of each other, using a standardized container management mechanism to encapsulate the execution environment, core and dependent components and configuration required by the application from bottom to top microservices to achieve seamless cross-platform Connected to operation. When the present invention implements a general configuration architecture, the resources, services, operations, management, configuration, deployment, release, and delivery of IOT, IPTV, and ICT cloud services adopt a common framework for modularization and standardization, and Use the document description analysis and translation of the information model template to complete the complex and diverse network topology environment. In addition, the link management module 12 is further assembled through the visual graphic layered container to be produced and released in an open standard specification to build universal flexibility. The autonomous process stacking and assembly architecture is used for various heterogeneous interfacing systems. In this way, resource scheduling service configurations across heterogeneous networks can be described at the same time. Compared with traditional practices, it greatly saves R&D difficulty and deployment, subscription, coordination, and Manage time and time to market (Time To Market) to support various types of demand changeable information communication customized services and a hybrid configuration of SDN/NFV software-defined networks and physical networks to achieve the transmission of messages between multiple heterogeneous mixed information systems When using a common configuration, you can quickly analyze and transform the resource and service structure of a heterogeneous network. In an environment of strict information security standards, we use object templates for comprehensive intelligence and massive data feedback to collect independent intelligent control and management, and use the integration of IT and OT artificial intelligence, large Data analysis to improve process efficiency, and summarize and accurately predict the bottleneck of process operation.

The present invention uses the visual graphics hierarchical container assembly link management module 12 to focus on describing the hybrid virtual reality with the new generation digital convergence technology of the cluster load cloud grouping service (Cloud Service Clustering Application) and the flow orchestration composition (Flow Orchestration Composition) Initialize and establish between network services, and use open standard technology, that is, the Unified Modeling Language (Data Modeling Language) used in the Network Configuration Protocol, to carry out the mutual transport, exchange, and initialization between service components and service components , Identification, signal synchronization; accelerate the integration and rapid deployment of cross-platform cloud virtualization service collaboration through exchange and high-level reuse. Among them, process orchestration allows end users to flexibly orchestrate, and perform a variety of heterogeneous and diverse services Orchestration and rapid deployment, and then execute these subordinate services on different devices such as data centers, servers, general hosts or mobile devices, and Internet of Things devices. Various different computing types are used to complete the core that can be used in various computing scenarios. engine.

The degradation root cause intelligent diagnosis, inference, prediction and determination module 15 of the present invention uses machine learning artificial intelligence algorithms to advance multiple multiple regression equations and Logis analysis algorithms in a hierarchical manner, which will affect the detailed action data and the operation of the system process Triggered events, through a large number of data classification and clustering and weight factor calculations and filtering outlier data sets, using further establishment of dimensional data matrix, inductive analysis and further prediction of process process events, trend trends and related data multi-dimensional distribution, and then The random forest algorithm is further used to improve the accuracy of prediction through the aggregation of cluster decision trees, and the complex events generated during the process are further classified and trend forecasted, including the prediction of the process trend and the behavior and use of terminal devices Forecast of conditions and encounters. In addition, the present invention uses inductive analysis The results are used to predict the resource scheduling composition and process trends of the complex network execution environment and related behavior trends. Through repeated analysis and prediction model algorithm establishment and massive data training, the accuracy and precision of inductive analysis and prediction are improved. The current traditional method of on-site operation can only input a single network management command. The degradation root cause intelligent diagnosis, inference, prediction and determination module 15 can autonomously and intelligently control multi-dimensional cross-platform comprehensive analysis to find the root of the problem, and use big data modeling to summarize, analyze and predict. Enhance the ability of the new generation of intelligent perception management and control mechanism, so that all behaviors and trigger events that occur during process execution can be tracked and analyzed in real time, and behavior encounter events can be predicted in advance. Through multiple sources of multiple information perception and a large amount of data, the cross-multi-dimensional orientation Analyze and predict, more actively control the information flow and remove noise. Advanced analysis provides a deeper perception-driven intelligent control mechanism. For example, by using the optical loss algorithm model from the optical, copper, and cable local end to the user end to accurately predict the deteriorating nodes and location sources and the range of affected sections in advance, the field construction and repair personnel can greatly reduce the memory of different types of equipment. Complicated instructions, through the intelligent control mechanism and machine learning algorithm of the present invention, more quickly and accurately diagnose and interpret the root cause of the problem event.

The invention also uses the cross-integration analysis of multi-dimensional hierarchical massive structure and non-structural facet data to more accurately construct the equipment line service network topology and information model, software definition establishes the information model model and analyzes and summarizes each product service, Sub-services and value-added application services provide data structure, analysis and translation of calculation results and input to the detailed analysis and prediction model of usage behavior, which are further stored in the virtual and real hybrid cloud heterogeneous collaborative security management module 13 three-dimensional snowflake data structure, through analysis of users Behavioral actions can be analyzed to produce more valuable construction information feedback, which is further used in the development of marketing, construction, optical copper cable routing and wiring and line connection, circuit containment prediction, and potential module analysis to formulate construction and marketing strategy application. Determining the three-dimensional space responsibility area under jurisdiction of the use situation and dispatching construction requirements and on-site triggering events, comprehensive analysis and trend flow forecasting, and improve The intelligent management and control of the complex network service environment of digital convergence integrates the quality and flexibility of the operation efficiency of the construction process.

Figure 6 is a flow chart of the intelligent dynamic on-demand scheduling assignment according to the present invention. As shown in the figure, to complete the multi-heterogeneous complex network virtualization, fast and dynamic dispatching of virtual and real heterogeneous resources, while using cloud computing power and cloud database to complete real-time optimization of multi-segment virtual routing of heterogeneous networks across different application fields , According to the virtual resource and the physical resource's interface and cooperative situation use and the characteristics of multiple roles, various virtual routers are dynamically generated according to the demand, and the software is created based on the virtual resource and the physical resource's interface cooperation situation and the characteristics of multiple roles The rule database is changed, the Orchestrator is called to find out the virtual-link resources that can be legally used at that time, and the resource pool and the leaf border out-point location are returned, Then, according to the location of the outgoing endpoint of the physical network and the outgoing endpoint of the leaf border of the virtual network, the two heterogeneous networks are integrated and cooperated through the intelligent backbone network interface.

In one embodiment, the cross-domain information topology model management module 11 of the present invention can use the dynamic resource topology information model information template to complete the description and application of the network element connection topology association. The present invention uses a multi-dimensional hierarchy. Cross-integration analysis of structural and non-structural facet data, more accurate construction of equipment line service network topology and information model, software definition, establishment of information model modeling and analysis and summary of each product service, sub-service, value-added application service for installation Data structure, calculation result analysis, translation and input to the use behavior action detailed analysis and prediction model, and further stored in the virtual and real hybrid cloud heterogeneous collaborative security management module 13 three-dimensional snowflake data structure, through the analysis of user behavior, the analysis output is more valuable Construction information feedback is further applied to the development of marketing, construction, optical copper cable routing and line connection, circuit containment prediction and potential customer module analysis to formulate construction and marketing strategy use, and accurately determine the use situation of the three-dimensional space responsibility area And send construction funds Source dynamics dispatches assignment requirements and on-site trigger events on demand, comprehensive analysis and trend process trend prediction, to improve the efficiency, quality and flexibility of the intelligent control integrated construction process operation of the digital convergent complex network service environment.

It can be seen from the above that the present invention provides a flexible, diversified, and easy-to-integrate interoperability cooperation mechanism, which is suitable for the development and application of all services in the telecommunication field, especially the R&D of all services in the telecommunication field and the integration of system elastic architecture, and is particularly suitable for use in content delivery networks (CDN), Multimedia On Demand (MOD) service providers transfer to the system process interface for collaborative use. Compared with traditional practices, the present invention provides a more flexible, efficient and stable service virtual and real resource dynamic on-demand scheduling assembly and assignment architecture.

The present invention uses slicing technology to separate entities sharing logic, and can be applied to the assembly of traffic automatic engineering (Traffic Automatically Engineering) dynamic routing scheduling services, that is, to set the traffic (traffic) to reach a specific index value to automatically perform traffic diversion and dredging, and at the same time Drive multi-node virtual machine failover (Failover) function, and meet the telecom cloud management specific traffic priority and limit specific traffic bandwidth QoS requirements, the operation scenarios are listed as follows, scenario 1 is the dynamic expansion of services, such as super large events A large number of Internet access requirements can quickly and dynamically schedule the resources of each node for installation; Scenario 2 is dynamic traffic flow management response, such as when the path is congested, it can respond immediately and make dynamic adjustments; Scenario 3 is multi-node disaster recovery, such as when When the physical gateway is abnormal, it can be detected, reacted, and backed up by the virtual GW in real time; Scenario 4 is the elastic change of the service chain ecosystem, for example, when the customer experience is not good, it can be fed back and adjusted in real time.

The present invention comprehensively modularizes/standardizes the resources, services, operations, and management of composite ICT/IOT services, uses a new generation of unified framework and uses IT language document descriptions and information models to describe hierarchically related descriptions, and integrates virtual and real through general configuration Resource scheduling and service template stacking Assemble, configure and activate for the connection and invocation of many interfacing systems with various diversified, heterogeneous and different purposes, which saves management and deployment time than traditional methods. Compared with the current ultra-broadband video and audio streaming services, it also improves service performance and also That is, the present invention can automatically detect the operation details of the scanning execution environment, and automatically build a set of network topology that can support the execution environment, and further containerize the application to provide more useful interfaces.

The present invention uses a new generation of multi-level child-mother association description method to implement the complex and diverse network configuration execution structure built by physical network equipment and virtual network equipment, and uses a hierarchical description method to complete a universal network equipment Perform configuration design and build. Then exchange multi-style information models and templates based on the common execution configuration of virtual and real networks, and further encapsulate the application as a container, and use the mechanism framework of the new generation of digital bus specifications to more efficiently control and manage the complexity of multiple heterogeneous networks The exchange of information model specifications greatly reduces the complexity of communication, mutual transport, conversion and collaboration between information systems.

The present invention manages the execution configuration of multiple heterogeneous networks, deploys and dispatches open standardized specifications information model exchange configuration through a new generation of IT information model description technology, automates autonomous perception operations, and efficiently changes SDN/NFV complex and diverse virtual and real networks Road information model configuration. For more effective management of information model and configuration transfer across multiple and heterogeneous networks and across information systems, it is possible to know the schedulable resource topology utilization rate and scheduled status of the entire network execution environment at one time, without the need for networks for different purposes Or different application systems once again customize the information model exchange format and detailed actions, and all the information needs to be aggregated to work.

The present invention uses a new generation of resource scheduling services to assemble the Orchestration technical architecture framework, and fully modularizes and standardizes resources, topology associations, execution configurations, services, environmental templates, operation details, interoperability specifications, collaboration interfaces, and management monitoring mechanisms. At the same time Reuse the execution configuration and information model and framework template, use the document description translation of the IT language that can be adjusted automatically, to complete the description of the virtual and real hybrid multi-heterogeneous network equipment environment, so that the IPV6 node routing can be executed through the software-defined information model The virtual network execution configuration. By using the characteristics of software activation, the present invention can be conveniently deployed in a virtualized cloud platform configuration environment, unlimited access points and virtual routers / next hop extension management number, so unlimited expansion and cloud management anytime, anywhere Deploy a large-scale virtualized network service with a multi-tenant composite architecture composed of multiple nodes.

In summary, the present invention further uses the programmable information model to dynamically construct the assigned data communication configuration and model templates, and achieves the use of shared information description format specifications between multiple heterogeneous information systems through standardized life cycle management of containers, which is fast and accurate The complex and diverse resources of virtual and real networks are exchanged and assigned with each other. The technology of the present invention can be implemented in the process of ultra-broadband video, audio and video streaming, information communication, and Internet of Things OTT new applications with intelligent control data analysis and prediction. The conventional technology can enhance the competitive advantage of China's ICT and IoT ecosystem development to be in line with international standards; in addition, software-defined rule assignment drives the virtual and real resource engine to use software-based virtualization programmable rule base and hierarchical virtual routing, assignment Scheduling and dynamic construction of the best next hop path, selection, execution, and driving of general information topology models to complete the cross-domain deployment and delivery of multi-cloud hybrid virtualization services, providing multiple virtual network functions, WiFi virtual routing Assignment. In particular, the present invention provides a general-purpose virtual and real network service cooperative mixed-installation architecture for assignment, scheduling, independent deployment, publishing, delivery, subscription, racking and unloading, and life cycle management, which can include underlying virtual and real network management equipment components and execution groups The monitoring and intelligent service integration of the state operating environment, the use of self-learning wisdom to diagnose and predict and provide the best situational event solution, and the present invention is an arbitrary group association network, each branch only needs to apply for a circuit to connect to the backbone network , The same virtual group Any point of the group can communicate with each other. The client does not need to use Network Address Translation (NAT) to convert IP. The subsequent expansion is easy, that is, different types can be dynamically scheduled and assigned according to the network service application and mode. Connected to the backbone network to build a dedicated corporate intranet.

The above-mentioned embodiments only exemplify the principles and effects of the present invention, and are not used to limit the present invention. Anyone familiar with this technique can modify and change the above-mentioned embodiments without departing from the spirit and scope of the present invention. Therefore, the protection scope of the present invention should be as listed in the scope of patent application described later.

1.‧‧Virtual public WiFi circuit assignment system

11‧‧‧Cross-domain information topology model management module

12‧‧‧Visual graphics hierarchical container assembly link management module

13‧‧‧Virtual and real hybrid cloud heterogeneous collaboration security control management module

14‧‧‧Software-defined rule assignment drives the virtual and real resource engine

15‧‧‧Deterioration root cause intelligent diagnosis, inference, prediction and judgment module

16‧‧‧Mobile cross-platform dynamic dashboard module

Claims (10)

A virtual public WiFi circuit assignment system, including: a cross-domain information topology model management module, which is used to convert network elements and their connection associations and attribute data into multi-level general information models and information that can be advanced Templates and description files, by executing the access operations and exchanges of the multi-level general information model and information templates, are used for the automatic analysis and application of multiple heterogeneous information systems of various types of purposes, so as to achieve cross-platform information analysis and interoperability collaboration; Graphical hierarchical container assembly connection management module, which uses the built-in general resource scheduling composition and network component assembly and execution configuration to call the service of hybrid digital convergence for virtual and real networks; virtual and real hybrid cloud heterogeneous collaboration The security control management module uses the snowflake data structure method to store the translation information, relay information, calculation information or digital analysis information of each module component template during the process of the process execution process; and software-defined rules assign drive virtual and real resources The engine connects the cross-domain information topology model management module, the visual graphics hierarchical container assembly connection management module, and the virtual-real hybrid cloud heterogeneous collaborative security control management module. The software-defined rule assigns and drives the virtual-real resource engine After assembling various types of microservices, according to the rule library of software-defined design, the service cluster that drives the service operation is guided by the business operation execution rules, and the software-defined rule assignment drives the virtual and real resource engine to collect the network service execution process in real time. Separate management and operation of various types of data sources and trigger events as well as data generated in the process. Among them, the software-defined rule assignment drives the virtual and real resource engine to assemble various types of services based on the visual graphics hierarchical container assembly link management module Component and read the cross-domain information extension The information of the simple model management module and the virtual-real hybrid cloud heterogeneous collaborative security management module completes the routing assignment of public WiFi services on the virtual-real network. For example, the virtual public WiFi circuit assignment system described in item 1 of the scope of patent application, wherein the cross-domain information topology model management module uses multi-level description language technology to associate the network elements and their connections with attribute data Converted into the multi-level general information model and information template and the description file that can be advanced. For example, in the virtual public WiFi circuit assignment system described in item 1 of the scope of patent application, the network elements include equipment, circuits, services and/or connections. For example, in the virtual public WiFi circuit assignment system described in item 1 of the scope of patent application, the cross-domain information topology model management module uses a repeatable combination of connection topology templates, which are layer by layer through a hierarchical recursive method. The network elements are connected in a node type, a relationship type, and a stack topology based on the service application network topology, and the relationship is extended layer by layer to package into a standardized general container image network execution configuration. For example, the virtual public WiFi circuit assignment system described in item 1 of the scope of patent application, wherein the virtual and real hybrid cloud heterogeneous cooperative security control management module stores or reads the translation message, the The relay message, the calculation message, or the digital analysis message. For example, the virtual public WiFi circuit assignment system described in item 1 of the scope of patent application also includes a smart diagnosis, inference, prediction, and determination module that links the software-defined rule assignment to drive the virtual and real resource engine. It is a comprehensive smart object template and massive Data-based multi-dimensional cross-data feedback collection is used to autonomously and intelligently control detailed actions and trigger events or feedback in the process. For example, the virtual public WiFi circuit assignment system described in item 6 of the scope of patent application, wherein the intelligent diagnosis, prediction, and determination module for the root cause of degradation uses information technology (IT) and operation technology (OT) to integrate artificial intelligence and big data analysis And machine learning to improve process operation efficiency and autonomously drive intelligent management and control, and then summarize and predict the execution bottleneck of microservices in the process, and report back to the visual graphics layered container assembly connection management module. For example, the virtual public WiFi circuit assignment system described in item 7 of the scope of patent application, wherein the execution bottleneck of the microservice operation in the process is transmitted to the software-defined rule assignment-driven virtual and real resource engine, and is driven by the software-defined rule assignment The virtual and real resource engine analyzes and modifies the rule base to perform route transfer or generate new virtual network function (VNF) resources to support route assignment services. For example, the virtual public WiFi circuit assignment system described in item 1 of the scope of patent application further includes a mobile cross-platform dynamic dashboard module that connects the software-defined rules to assign a driving virtual and real resource engine, which combines different themes on at least one remote Portable display device for interactive operation and information feedback on site. For example, in the virtual public WiFi circuit assignment system described in claim 9, wherein the at least one remote portable display device includes a plurality of display blocks, each of the display blocks is responsible for a computing theme, and each of the The information of the display block is linked with other display blocks to form a hierarchical affiliation.

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