TWI608442B - Software definition driven cloud computing network component service assembly system - Google Patents

Description

Software definition driven cloud computing network component service assembly system

The invention relates to a telecom supply system, in particular to a service assembly system for driving a cloud computing network component through a software definition.

Traditional system development product service network production equipment is developed for specific and exclusive purposes, making this type of equipment quite inelastic and malleable, and can only be applied to specific target areas, and currently established by telecom service providers. The traditional service optical copper network architecture lacks a huge collaborative platform, re-use, flexible input and output interface (IO) interface, call scheduling ease of use, and collaborative transport integration, resulting in on-site operation product services The performance and stability of the light/copper network and the input and output interface of the module components are poor, the line is applied for wiring and construction, and the obstacle detection and remote monitoring are subject to many restrictions and cannot be broken, making the telecommunications service provider In the process of integration and research and development of new product network services, it is difficult to continue to develop under the traditional existing structure, and it is unable to meet the requirements of the development of the domestic telecommunications industry and enter the diverse market of different customers in a timely manner with innovative product network services.

In summary, how to provide a solution to the aforementioned problems is a technical problem that needs to be solved in the field.

In order to solve the problems disclosed above, the object of the present invention is to provide a technical means for driving cloud computing network component service assembly through software definition.

To achieve the above object, the present invention provides a software-defined drive cloud computing network component service assembly system. The foregoing system comprises a software logic coordination implementation module, a remote control wearable control display device coupled with the software logic coordination module, a visual product service analysis design module, a gesture signal control module, and a recursive stacking unit self-learning production module. , dynamic containment line equipment card board, automatic association handover module, object cross-networking intelligent component module, behavior analysis and prediction module, dimension geography topology construction module, vector ascending graph operation module, embedded container cross Service module, fault-tolerant virtual data module. The aforementioned software logic coordination function module coordinates the configuration of the connected modules. The aforementioned remote control wearable control display device is provided with an external use end for operation. The visual product service analysis design module described above establishes and maintains the continuous relationship between the module component and the basic execution unit and the input and output interfaces and links of the space cube according to the timing visual basic process program path, and outputs the result. To at least one cloud virtualization device. The gesture signal control module is configured to detect the gesture signal of the use end for operation. The foregoing recursive stacking unit self-learning production module is used to establish a situation template process and an analysis model mold, and to repeatedly configure the template process by situation analysis and feedback to provide the accuracy of the process configuration. The dynamic containment line device card board and the automatic associated transfer module are used to analyze the signal between the device line card board and the device unit. The foregoing object cross-networking intelligent component module is used for operating media medium remote detection and reconciliation analysis and judgment. The behavior analysis and prediction module described above performs data aggregation for prediction and diagnosis. The aforementioned dimension geomorphic construction module drives the network service space equipment line topology layer map to calculate the geospatial geometric vector non-structural data matrix of the geodetic coordinate system. The aforementioned vector ascending graph operation module is configured to perform a set of data bits transmitted by the stereo geometric multidimensional vector security encryption compression to operate the vector layer and the image sign of the scaled earth coordinate projection system. The aforementioned embedded container cross-service module driver is located in different collars Input and output interface links of host basic service units in different locations in the domain. The foregoing fault-tolerant virtual data module provides at least one cluster virtualized database software and hardware unit to store interactive data between the modules during the tracking process flow path processing.

In summary, the software definition driving cloud computing network component service assembly system of the present invention provides a more convenient supply solution through the cooperative operation of the modules.

VM1~VM3‧‧‧ virtual machine

302~309‧‧‧Basic Execution Unit Components

P1~P16‧‧‧Supply process

102~115‧‧‧Supply procedure

301‧‧‧Process Controller

411~428‧‧‧Supply procedure

S101~S111‧‧‧ Construction process

1‧‧‧Software Logic Coordination Module

2‧‧‧Remote wearable control display device

3‧‧‧Visual Product Service Analysis Design Module

4‧‧‧ gesture signal control module

5‧‧‧Returning to the stacking unit self-learning production module

6‧‧‧Dynamic containment line equipment card board 埠 automatic associated handover module

7‧‧‧Object cross-connected smart component module

8‧‧‧ Behavior Analysis and Prediction Module

9‧‧‧Dimension Geography Topology Construction Module

10‧‧‧Vector Ascending Graph Algorithm

11‧‧‧Embedded container cross-service module

12‧‧‧Fault-tolerant virtual data module

13‧‧‧Cloud database

1 is a system block diagram of a software definition driving cloud computing network component service assembly system according to an embodiment of the present invention.

2 is a schematic diagram of an assembly process of a visualized product service flow produced by the software definition driving network component network service assembly system of the present invention.

FIG. 3 is a schematic diagram of an operation flow of the present invention.

The specific embodiments are described below to illustrate the embodiments of the invention, but are not intended to limit the scope of the invention.

Please refer to FIG. 1 , which is a system block diagram of a software definition driving cloud computing network component service assembly system according to an embodiment of the invention. The system includes a software logic coordination function module 1, and a remote control wearable control display device 2, a visual product service analysis design module 3, a gesture signal control module 4, and a recursive stacking unit self-learning production module. 5, dynamic containment line equipment card board, automatic association handover module 6, object cross-networking intelligent component module 7, behavior analysis and prediction module 8, dimension geography topology construction module 9, vector ascending graph calculation module 10. The software module of the remote control wearable control display device 2.

The software logic coordination function module 1 is configured to coordinate the modules connected. The aforementioned remote control wearable control display device 2 is provided with an external use end for operation. The visual product service analysis design module 3 establishes and maintains the continuous relationship between the module component and the basic execution unit and the input and output interfaces and links of the space cube according to the timing visual basic process program path, and outputs the result to the At least one cloud virtualization device. The gesture signal control module 4 is configured to detect a gesture signal at the use end for operation. The recursive stacking unit self-learning production module 5 is used to establish a situation template process and an analysis model mold, and to configure the template process by situation analysis and feedback to provide the accuracy of the process configuration. The dynamic accommodating line device card board 埠 automatic association handover module 6 is used for analyzing the signal between the device line card board and the device unit. The object cross-networking intelligent component module 7 is configured to operate the media medium remote detection and reconciliation analysis and judgment. The foregoing behavior analysis prediction module 8 performs data aggregation for prediction and diagnosis. The aforementioned dimension geomorphic construction module 9 drives the network service space equipment line topology layer map to calculate the geospatial geometric vector non-structural data matrix of the geodetic coordinate system. The vector ascending graph algorithm module 10 performs a set of data bits transmitted by the stereo geometric multidimensional vector security encryption compression to operate the vector layer and the graph of the scaled earth coordinate projection system. The remote control wearable control display device 2 drives an input/output interface link of a host basic service unit located at different locations in different fields. The remote control wearable control display device 2 provides at least one cluster virtualized database software and hardware unit to store interactive data between the modules during the tracking process flow path processing. In addition, the fault tolerant virtual data module 12 and the software logical coordination application module 1 can be connected to the external cloud database 13 to dynamically schedule the provisioning resources.

Further, the software logic coordination function module 1 can be defined according to the problem situation analysis using the software design logic and connected to the input and output of the coordinated associated hardware and software module. The interface (IO) is integrated by the small and large scheduling logic assembly chain. According to the analysis and induction result design timing, the connection module unit is connected one by one to complete the input and output interface interface, and the operation and access process flow calculation process Information is required on at least one virtualized data storage array.

The remote control wearable control display device 2 is configured to perform at least one remote/near-end control chip that can receive remote thermal sensing and remote finger space motion related signals on an movable or inactive object or animal for driving the device to operate. Behavior is simultaneously applied as a single key to trigger driving multiple display device actions

The visual product service analysis design module 3 is a visual analysis design collaborative product service network, which is based on the sequential visual basic process flow path, establishes and maintains a continuous relationship between the module components and the basic execution unit, and the spatial cubes face each input. The output interface interfaces and links and outputs the results to at least one cloud virtualization device. The output flow program path to the software logic coordination application module 1 is performed for subsequent operations. A visual graphical operation mode for receiving a process program path input for connecting the input terminal and the module unit.

The gesture signal control module 4 is configured to perform a distal or proximal finger gesture for transmitting a control signal to at least one object or animal for controlling the action of at least one remote object or animal. The remote remote control continuously inputs or receives multiple signals to communicate with the remote control device for signaling, transmitting messages or media media. The loading processing unit is in at least one mobile device device, and is responsible for 360 degree stereo space and surrounding set distance signal signaling/limb action finger gesture detection sensing delivery and video photography, receiving and playing. It has movable characteristics and can be fixed to the wall post and is protected against water pressure and water penetration.

The recursive stacking unit self-learning production module 5 is implemented as an off-site host location module component service container and a basic execution unit production system and a basic execution unit block connection interface Security and authorization verification are communicated using the SOA-Based Jason/Resultful communication protocol. Production software modeling modeling management and application, to build the Pattern Driven Flow and analysis model, using context analysis and feedback to repeat the Refine template process to enhance facts or events or Process hit rate accuracy.

The dynamic accommodating line device card board 埠 automatic associated handover module 6 is responsible for optical and copper equipment line card board 埠 盒 接 接 端子 端子 端子 端子 端子 与 与 与 与 与 与 与 与 与 与 与 与 以及 以及 以及 以及 以及 以及 以及The setting of the yuan is turned on. The corresponding device line terminal action is performed through at least one remote signaling and signal. Use the rule base remote dynamic manipulation equipment rack Rack-Shelf-Slot terminal 埠 Cross Connection automatic handover.

The object cross-networking intelligent component module 7 is configured to operate the media medium remote detection and reconciliation cross-analysis judgment and perception, and detect the instant state and signal delivery and the object feedback signal through the signal detection transmission layer Node and the object or animal. Implement virtual or physical server hierarchical dynamic scheduling command configuration management, manage object or animal activities and interaction and message management details.

The foregoing behavior analysis and prediction module 8 implements a large number of complex irregular non-structural set data integration to further analyze the prediction, diagnosis, induction, and message, signaling, and stream feedback of the motion state behavior of the mobile body or object. It is further estimated that among the many options, one has the highest probability of occurrence and the behavioral activity that best matches the current time point. Run a large number of unstructured or structured transformation data integration analysis to improve the accuracy of situational problem solutions. Use spatial snowflake data structure for access, concatenation, data transfer, model serialization, and deserialization. Responsible for the application of classification models, regression models, classification matrix and discrete models, and anomaly detection models and function calculations. Responsible for the interpretation and judgment of actions or behavioral features during the execution of the program flow.

The aforementioned dimension geomorphic construction module 9 series drives the network service space equipment line topology layer map to calculate the geospatial geometric vector non-structural data matrix of the geodetic coordinate system, and further calculates the object and the object according to the spatial association nesting Between attribute relationships. Calculating and analyzing the energy of the area to be pre-constructed and at least one specific target three-dimensional space area, the multi-point dispatching process of the area of responsibility, and continuously calculating the accuracy of the above calculation and the object or object to be operated at the time of construction Interlinked space vector data.

The vector ascending graph algorithm module 10 is configured as a set of data bits processed or transmitted by the stereo geometric multidimensional vector security encryption compression, and is used for operating the vector layer and the graph of the scaled earth coordinate projection system, and the operation management lifting layer is operated. The sign is associated with it. Responsible for correlating the nested data of the operational data in the multidimensional spatial mesoscopic data matrix with the attributes, and the adjacent area ring domain analysis of the irregular spatial space inlaid cover operation, instantly determining the construction site status and accepting feedback The signaling, streaming, and optical copper carrier signals are transmitted to the software logic coordination application module 1.

The remote control wearable control display device 2 drives an IO interface link of a host basic service unit at different locations in different fields, and uses a remote cloud resource to assemble the basic service execution unit one by one for Atomic (single) service through Atomic service. The link is further assembled into a composite (composite combination) service, and the larger and more complete service operators are further assembled through the link of the heterogeneous composite service. Through this method, there is no limit to extension and expansion to meet the specification requirements for midway insertion.

The remote control wearable control display device 2 provides at least one cluster virtualized database software and hardware unit for storing the tracking program flow path processing process, wherein the modules are analyzed, fed back, transmitted, calculated, and input and output data. Stored in a remote virtualized storage array unit. Provides Fail-Over cluster array dispersion and recovery operations. It provides relay data storage and access control for module components and basic execution units and program flow calculation. Responsible for the transmission of code, hidden code and data in the smart business data unit, the automatic interception of the identifiable data transmission according to the data feature value, and automatically popping out the display of the warning situation theme screen at least one movable limb gesture remote control device Wait for the next step to determine the execution and operation of the instructions.

In the process of integration of product service network in the telecom field, the evolution of the new technology is extremely fast. Especially in the evolution of service, the terminal system of the optical copper cable line equipment of each brand often encounters different supply, maintenance, service and inspection. Ways, and the system, label, platform, third-party equipment supply and maintenance monitoring and management methods are different and vary greatly. Each set takes about six months to one year to carry out IO interface integration and application. The lack of a good architectural design is why the system development and new product service network integration and assembly promote the development of the day, this problem has long been a problem in the optical copper cable product service network field, and the EMS equipment has great differences and costs. High, the R&D process requires a lot of labor costs and a lot of assistance from equipment manufacturers, and it is impossible to achieve digital integration.

The development of China's full-service broadband NFV/SDX service and the promotion of related new product services are the key industry development trends of ICT/IOT/Smart City/Cloud Application/Internet of Things. The invention in this case focuses on this trend-changing architecture. The class dynamically adjusts the elastic detachable group component module assembly service platform to control the real-time control of the responsibility area, the construction exchange transmission office, the core network, the access network, the user terminal environment, and the multi-purpose device touch remote control device. Operation action, according to the above-mentioned real-time information and parameter attribute set dynamic analysis of objects, coordinate command and dispatch, assign virtual cluster service host group to provide module components and basic service unit to provide, assemble, switch, sequence link, coordinate and manage each terminal mobile device Service status is isolated from Zian, further Ensuring Tanet (tenant users) exclusive service quality, strengthening various types of multi-intelligence exclusive services to benefit the target audience experience in different areas of different levels, and further based on the customer group environment dynamic dynamic control interface, signaling, messaging, streaming and Instant analysis and induction configure the appropriate bandwidth to ensure the best gesture remote control terminal device service experience, and implement software logic definition collaboration to drive the cloud virtual reality integration technology elastic On Demand (elastic demand for installation).

The invention of the deep telecommunication international telecommunication forum product service network architecture and telecommunications optical copper conversion transmission, exchange, broadband network, access service field, and the international synchronization, and further implement cloud computing software to define network components geospatial stereo vector layer map technology R&D, drive based on software definition logic to build mold management, dynamic multi-level attribute extension association for file registration and release, application recursive topology software collaboration model, use dynamic call software model to drive service to install information model and apply Recursively refining the performance, the software logic defines the coordination expansion flexibility and the extension degree, and the hierarchical label attribute is associated with the software molding unit, and the product service network supply process program based on the software module component unit assembly driving is established. The basic service unit of the present invention is distributed and distributed for remote monitoring and tracking control, and is distributed and deployed in at least one cluster virtual host storage array, and the component module attributes of different locations are connected and operated in series, and the six-sided stacking extension timing is applied. One-to-one IO interface assembly of at least one component atomic (Component atomic), repeated use of Component atomic, through aggregation of various types of Component atomic simultaneously operation of sequential routing serial assembly expansion, through repeated training analysis and performance optimization, further gain The line equipment Refine Service Chain is assembled. The invention is particularly suitable for a telecom application remote wear type gesture control mobile object product service network integration application.

The invention self-learns the production of the module component through the module component, and dynamically drives the product service and the terminal call according to the position and behavior situation of the device remote control terminal device. The sub-module components produce Atomic sub-modules for mutual cooperation, which is used to quickly complete the multi-level attribute association and cooperation of multi-heterogeneous module components, learn the production module through module components, and construct a super-strong and complete complete telecom field sub-service module. Components, through standard, shared, and reusable software self-defining communication specifications to overcome IO connectivity barriers and accelerate time to market.

The inventor of this case is further applied to the emerging fields of ICT/IOT such as banking and unmanned auto driving. Through the data analysis of big data analysis and machine learning robots, the problem diagnosis is advanced, and the end-to-end integration service is accelerated. Class target is exclusive to the customer base. Comprehensive network and service performance can be improved, integration benefits can be seen, more stable and flexible quality remote supervision, comprehensive software definition-driven supervision product service visualization process flow path, further implementation of scalability and performance expansion and flexibility Control bandwidth traffic to increase to meet expansion needs.

The present invention implements a shared cooperative transport, reusable software definition specification to overcome the traditional prior art obstacles, and the architecture of the present invention is further applicable to ICT/IOT/Smart City/Cloud Virtualization/Internet of Things application innovation fields such as banking and automobile automatic driving. Through the product and service network cooperation and interoperability of the invention to enhance the integration and synergy, the module component assembly and quality control of the product service network can be continuously stabilized, and the software definition drive cooperation of the next generation telecom artificial intelligence application is completed. Inter-operation alarm monitoring.

The invention solves the problem that the utilization rate of the light and copper equipments under the jurisdiction of the exchange, transmission, core, and access exchange departments of the telecommunications exchange, transmission, core, and access areas is low, the design and construction cannot be accurate and effective, and the construction cost is high. There is no way to give feedback, a problem that has existed for a long time. It is used for the replacement, upgrade, maintenance and obstacle determination of space light and copper line equipment, accelerating the efficiency of operation and maintenance of business operations, and further reducing the risk of error and related input costs caused by human intervention, and at the same time Expenditure and thus reduce business operations OPEX Expenses for the industry), flexible and easy to use to accelerate the componentization of the product service network virtual module.

The invention uses the software logic to coordinate the implementation of the module 1 definition process, and uses the Process Recusive Refine to carry out the evolution and performance improvement of the software-defined logic flow, and completes the analysis and assembly of the product service network by connecting the call to other related modules. The dimension-oriented analysis results of the recursive spatial dimension operation are saved in at least one cloud virtualization dimension database, and the multi-heterogeneous topic retrieval analysis is fed back to the advanced information operation to improve the system operation efficiency, and the optical copper cable Bundled product business, network, service development and configuration resources.

This case is deeply cultivated by the telecom field framework, and provides the product service specification model in the telecom field. It has been researching and developing the SDX innovation service full-service product service through years of experience in the application design of the next-generation telecommunications product service field, and defining the cooperative optical copper cable through software logic. The transfer equipment is molded, modeled, preserved, correlated, and reused to further optimize and improve its model library. In the first time, the system cooperates with the system to communicate the composite product service communication specifications, which is used in the current multi-heterogeneous label IO agreement. Assembly and integration of network service component units.

The invention realizes the cross-analysis of a large number of non-structural and structured service dimension data through the software logic definition collaborative modeling and the cluster array hardware device, reduces the derivative problems such as firmware and hardware update, improves the problem solving accuracy, and applies the application. The multi-hierarchy weight basis is developed and associated with different levels of regions for information files, resource files, and service files. The information model is divided into customer group dimensions, product line dimensions, access network dimensions, backbone network dimensions, and core network dimensions. , transport network dimension, terminal device dimension, and establish a model architecture through dimension and dimension oriented association, applied to the product service network for installation and construction, and then continue to increase the pattern and learning model (Learning Model) Planning a set of refinement criteria to continuously enhance the software logic model to improve the performance and accuracy of the model. The model model stores the same domain theme quick interface set. Use, save the cost of maintenance and further improve productivity, reduce the risk of human intervention errors and reduce the cost of manual operations to effectively improve ARPU.

Through product analysis, the product service network hierarchy tree diagram is generated through the product service network infrastructure execution unit in a time-series hierarchical disassembly, and the upstream and downstream relationship is assigned to the associated block link to complete the product service network hierarchy through decomposition one by one. Tree. Then, the drive service basic execution unit is set in a stacked block, the product service network process factory assembly execution path is completed, and the parameter information such as the block interface position and number is stored in the cloud virtualization database for use/reuse. The result is fed back to the software logic coordination application module 1 and stored in at least one remote control wearable control display device 2. Through the basic actuator module block IO interface stacking and connection for product service network assembly path analysis, and repeat the above action adjustment block IO interface performance and agreement, the application does not change the stack mode to achieve the purpose of stereo elastic assembly . It is applied to the drive, connection and monitoring of the object cross-networking intelligent component module 7, and improves the previous SILO specific target vertical service supply method.

Please refer to FIG. 2 , which is a schematic diagram of an assembly process diagram of a visualized product service process produced by the software-defined network component network service assembly system of the present invention. The system uses a Core Meta Data Driven Flow Controller (301) to assemble the module blocks of the base execution unit components (302-309) from the bottom to the top, and sequentially calls the dispatch interface positions according to the sequence. The protocol operates and is stored in at least one cluster of virtualized data modules at the remote end, and the assembly and disassembly connection are repeated more than once.

Once the product service network is established, it provides quick access to integrated products. The product service operation host is located in the remote cloud IDC room virtual and virtual server, and the multi-heterogeneous sub-service execution unit is located in different cloud IDC room. When the source demand is a network video and audio integrated streaming service, the system installation architecture is hard in the database. On the cloud and cloud host, it is very suitable for providing cloud products. Through the software logic coordination application module 1 to carry out the analysis of the cloud service product catalogue, service catalogue, and basic actuator component catalogue, the sub-service base execution unit functional components required for content, streaming, interaction, broadband, transmission, and exchange services Defining collaboration, and further retrieving the self-learning production module through the recursive stacking unit. 5 Dynamic tree-like hierarchical data set analysis design results are output to the software logic coordination application module 1 through visual product service analysis design module 3 product business logic Analysis, through the Composite Service Meta Data, dynamically create the expansion service supply data, and dynamically link the group information module Linker to produce the specification block for the product specification, and dynamically assemble the block and IO one by one according to the time sequence. Interconnected into a finished specification.

At the same time, the situation and the trajectory and the history are stored in the remote control wearable control display device 2. When the same conditional situation exceeds the settable probability, the applicable associated block model is automatically invoked, and the elasticity and the extension are assembled through the definition of the full software logic. With re-use, instant, dynamic, and hierarchical recursive integration modules to assemble product services and value-added services. The device through the object cross-networking component sensing module 7 senses at least one remotely connected device of the service target object, the usage context, the service content, the LBS mobile location, and actively pushes the message to the at least one remotely connected device. Providing the next best problem solving and service delivery, ensuring that the service is not interrupted due to the movement speed of at least one remotely connected device, and ensuring that the service is not affected by changing at least one remotely connected device. Availability. By applying the visualized product service analysis design module 3, the criteria design, management, and update can be performed. On the one hand, the different node resource service execution component modules in the enterprise are fully integrated, and the embedded component module is externally connected, so that the present invention The development of the product-service network's all-software-defined network development integration promotes faster and more efficient, and achieves the goal that the traditional target service can't be installed in the past. It can only be used for a specific purpose and can't cooperate for a long time. The problem of the agreement is nowhere.

After a plurality of customers in different natures propose product service requirements, the domain designer utilizes the visual product service analysis design module 3 provided by the technology of the present invention to establish a product service network delivery process path diagram, and a product service network delivery process path diagram. In each service station, the domain designer will output the combined service from the service library, the rule base, and the learning library. Each service station will use the cloud service basic execution unit catalogue through the product catalog and the service catalog group, and the scheduling standard. The specifications are concatenated and linked to complete the process map of the product service network delivery process.

The above-mentioned software definition NFV (Network Function Virtualization) service architecture is operated by BPM (Business Process Management) business core process integration using commercial business logic application management call visualization product service analysis design module 3 definition, modeling, modeling The service-based execution unit uses the service basics of various heterogeneous industry domains to perform the unit service capability. The active control link is connected in parallel and parallel-sequentially driven. The results of the large-scale matrix data are calculated through the non-synchronous processing and comprehensive analysis, and the execution results are transmitted to BPM business core, BPM business core operation analysis and processing command signaling control Atomic service execution unit of various types and different fields, establish sender and receiver packet routing Session (connection dedicated channel), coordinate operation and processing product service network heterogeneity The domain business logic completes the Multi-Device end-to-end one-stop product service path process assembly and installation.

Multi-dimensional analysis product service network specification disassembly demand centralized data analysis of the corresponding sub-services, service host form, location and quantity, function, IP location and geographical location of the product service required, and then calculate The location of each heterogeneous service host and the network service path are coordinated by the software logic to implement the module 1, control the call connection behavior to resolve the user environment location, and request the packet content header and the detailed action of the agreement, and further monitor the request connection path. The packet transmission status on the packet. Filtering protocol analysis header content analysis execution of the request service And generate the signaling, data and video stream, error check required for the task operation, analyze the attribution through the dimension of the above-mentioned operation, and use the virtual and real resource management to specify at least one adaptive virtual The server resource and the physical resource Hybrid are mutually transported, and are responsible for continuously tracking and tracking the virtual private network, and the dynamic On Demand service serves the one Tanet client, and simultaneously starts the object cross-networking intelligent component module 7 to perform a large amount of network component factor detection for the basis. The measured value further adjusts the network quality capability.

Using the object cross-connected smart component module 7, sensing the quality of the user's environment network, while monitoring the network bandwidth appetite and instantaneous traffic and traffic Burst Peak (very short burst of time), dynamic management through real-time monitoring The connection behavior and the vector ascending graph calculation module 10 control the information bit rate per unit time, use the module component execution unit to dynamically adjust the content, and encrypt the data through a secure encryption operation method in which the unit is mixed by the stereoscopic frame reference bit. transfer. Passed to the BPM business core, BPM business core computing analysis and processing command signaling control to coordinate various types of sub-service units, establish a sender and receiver routing Session, process product domain business logic, complete the one-stop product service path process assembly and installation.

The software logic coordination function module 1 further calls the behavior analysis and prediction module 8 through the above dimensional model analysis and induction, predicts the IO interface block mode and smoothly converts into a standard SOA-Based Restful/Jason suite, and the kit is based on the calling timing. The device is output to the remote control wearable control display device 2, and the communication and control signals are exchanged through the remote operation of the above-mentioned kit, so as to improve the multi-heterogeneous system operation and cooperation efficiency, and accelerate the product service network to complete the body chain assembly. The invention improves the traditional communication specifications that are difficult to maintain in the past, which is the main difficulty point of the current research and development, and reduces the IO handshacking time of the inter-system communication to reduce the error rate, which is of great benefit to the development of related industries in the telecommunications field. Especially in the multi-service product service Today, the rapid changes in business behavior have evolved, and the open multi-heterogeneous system platform derived from the introduction of complex and huge information acceleration services has greatly benefited.

Referring to FIG. 2, the following basic execution unit components: 302 service sensing, 303 optical cable signal, 304 signaling control, 305 copper signal unit are injected into PlatForm1, 307 containment scheduling, 308 line handover, and 306 layered traffic matrix are injected into PlatForm2. 309 topological space nesting injection PlatForm3, at the same time as shown in the figure to establish a process path, service unit assembly, to complete the function of optical copper cable service. The service architecture provided by the system invention is introduced with the development of new technologies and the research of new service infrastructure execution units. If a more suitable component module production system is completed, the updated sub-service base execution unit is established, or The functional revision is upgraded, or in response to market demand or customer demand or planned function enhancement, the present invention maintains the I/O relative position of the collaboration block and implements a visual product service analysis design module by registering the sub-service basic execution unit. The group 3 link corresponds to the relationship. The invention provides a cross-border operation of digital products, a new generation of networks, services, applications, cross-domain evolution, rapid changes in product service networks, a cluster of fault-tolerant decentralized network services, resource integration, control, flexible assembly, easy disassembly, reassembly, and virtual integration. Implementation, more efficient reduction of the cost of construction and integration of the integrated structure, to help the collaborative integration of digital applications in China's key industries. Achieving the network, fixed network and open platform architecture agreements, other related heterogeneous cross-domain integration, decentralized heterogeneous multi-network product application service software, the definition of elastic expansion, significantly solves the long-standing problems that traditional methods cannot co-ordinate and coexist.

Please refer to the schematic description 1, which is a schematic diagram of the operation flow of the present invention. First, the designer 411 inserts the product service network data into the dimension geographic topology construction module through the network analysis and design unit 412. The visualization product service analysis design module 3 and the dimensional geographic topology construction module are used. Establish a communication-related logical service model, including data modeling → process modeling → topology Molding→Association Molding→Service Molding→Packaging Resource Molding→Composite Component Assembly Molding, Implementing BPM Business Coordination Management Process Analysis, Searching and Positioning Construction Location by Dimensional Geographic Topology Construction Module 9 The optimal assembly path and the pipeline device route of the at least one cluster service host location to the signal terminal device (Device) are dynamically calculated by the software logic coordination function module 1 and the remote control wearable control display device 2 Multi-space resource operation combination. The visualized product service analysis design module 3 produces a visualized product service network execution unit assembly timing operation path flow, and the path diagram can be further refined and refined, and the result is output to the remote control wearable control display device 2.

After completion, all parameters required for the BPM (Business Process Management) storage operation are collected in the recursive stacking unit self-learning production module 5, and a Software Defined Logical Modeling Constructor is established. BPM operates simultaneously with uninterrupted production of dependent parameters and structured or unstructured data, through real-time data thematic and specific one or more rules of operation feedback analysis and application of the sample process (Pattern Driven Flow) recursive computing actuarial The training timing assembly path and its connection, association, I/O interface, and further storing these results to the remote wearable control display device 2 for use in the next step. Please refer to the schematic explanation 1. The BPM business transfer core further implements the problem of the sub-services and basic services in execution, and builds the Pattern Driven Flow according to the problem design, through the Recursive Deep Learning Modeling. .

Please refer to the illustrative example 5 for example. According to the behavior analysis and prediction module 8, the active parameter numerical quantization uses the multidimensional stereo model to calculate the relationship coefficient and trend line trend and regional induction convergence analysis, and uses the W weight calculation analysis to further pass the SVM support vector machine (Support Vector Machine) establishes a computational model responsible for applying classification models, regression models, and anomaly detection models and functions. The calculation, and then the XYZ three axes are numerically quantized to represent the situational problems of different facets. The deeper three-dimensional model is based on the problem situation analysis and integrates a large number of data sets to further diagnose the convergence area, key points and obstacle points of the problem. The model establishes the active self-completion problem classification attribution induction and data input diagnosis context analysis and cable condition optimal solution production system (Self-Trigger Solving), and quickly analyzes the inductive process flow problem situation. Through the parameter matrix and inductive analysis and regional convergence, verification calculation, determine the cause of the problem and the best solution action for the problem diagnosis diagnosis, apply to various multi-point construction of light and copper line equipment parts responsibility area Correction or cancellation of Cross Connection problems and process procedures, greatly reducing the labor and input costs of human intervention and error dispatch, secondary dispatch, and repeat dispatch, and improving the immediate feedback analysis of the software-defined product service network application execution phase Monitor the mastery and intelligent judgment accuracy, reduce the OPEX cost required for the product line, use the intelligent upgrade model to mold a large number of data input analysis and the new generation product service network multi-SDX fusion application as a recursive stacking unit Self-learning production module 5 problem processing, the establishment of the sample process (Pattern Driven Flow) is more and more complete, the accuracy is more upward, the scope of automatic intelligent processing is getting larger and larger, and the accuracy will be greatly improved. This pattern process (Pattern Driven Flow) proactively completes problem diagnosis, builds molds, and mass Analysis of feedstock input, system solutions produced with processing solutions. As the prototype process becomes more complete, the intelligent computing benefits will be significantly improved.

Referring to the schematic description 6, the present invention uses a large number of data association links in a spatial region group, uses an attribute association model, and establishes a path weight relationship and an extension data link through a multivariate independent variable vector matrix to form a node (Node) and a multi-node (Multi -Node), each node (Node) can be extended to further access at least one node (Node), through the attributes associated with each other, and the associated attribute is linked to the Node data structure, storing the structured formalization Chemical The at least one virtualized storage array is configured on the remote control wearable control display device 2, and the unstructured data is stored in at least one constellation snowflake data mining structure model storage array, and the cube structure data structure is used to achieve multiple hierarchical inter-level attributes. Correlation, using ETL (Extract-Transform-Load) large amount of data conversion, consolidation and improvement of data quality, and using the core event data table as the central point of the radial extension of the relevant derivative data, the business rules and processing logic converge to the use of the hierarchy Linking to improve access efficiency, greatly reducing the performance of data integration required by one-to-one data tables, and enhancing the rapid judgment and definition of data exploration for exploration, analysis, induction and problem diagnosis. Comprehensive analysis and convenient sharing of multi-dimensional information multi-angle model optimization, and further feedback data to software logic coordination application module 1 and recursive stacking unit self-learning production module 5

The present invention manages events by driving events and control events through intelligent event management modules. In order to achieve process analysis and diagnosis, software logic coordination function module 1 and recursive stacking unit self-learning production module 5 software definition modeling modeling to judge the self-discovery self-solving goal, reduce personnel intervention and then do problem analysis The cost of investigating the required personnel costs. In the invention, the product service request and the access method of the heterogeneous Internet access environment of different user terminals from different parties are classified and related by the hierarchical and attribute categories, and the homogeneous request is collectively provided by the specific function virtual server group, and the product service analysis is performed. Design management module analysis 3 translates into a set of parameter rules such as service, content, network, quality, agreement, customer, obstacle, connection address, connection device, connection level, connection level, etc., dynamically scheduled via virtualized resources The application and behavior analysis predictive module 8 operational data analysis instantly calculates the online connection and the environment real-time status and dependent feedback, and then further estimates the recursive stacking unit self-learning production module through a large number of context data collection and analysis. Group 5 expects that the condition is established and the action state and action With the requirement, the request-directed request is assigned to the execution unit and the self-learning production module 5 is further established and refining the learning criteria and the execution rule criteria by recursing the stacking unit.

The invention utilizes the object cross-networking intelligent component module 7 to sense and detect the environmental position of the object and the energy state of a large amount of space to the dimensional geographic topology construction module 9, and to apply the vector ascending graph calculation module 10 monitoring can switch the heterogeneous signals between different device line devices and access them through different types of terminal devices. The system automatically detects the user terminal line device, dynamically calculates the central office, the measuring station, the manual hand hole, the transfer box to the user network walking path end point nickname, the connection point and the line terminal, and uses the software definition analysis (Software Defined Analysis), which is used to deploy a group of related heterogeneous module modules and perform subsequent assembly and connection, and use heterogeneous components to call each other's functions in series to assemble and stack the Atomic service to form a Composite service and assemble into an increasingly complex assembly. Continuously using the assembly link, the Atomic service deployment is executed in a software-defined design content-aware (content-aware) virtualization cluster server, and the remote-controlled wearable control display device 2 is assigned to superimpose at least one cloud virtual resource server according to the immediate demand expansion.

The invention applies the dimension geography topology construction module 9 spatial operation call dynamic accommodating line device card board 埠 automatic association handover module 6 uses multi-dimensional spatial data operation to perform automatic automatic line handover between Rack-Shelf terminal plates (Cross Connect The operation of the network is set at the time scale of the opening network. It is called to use a large amount of multi-dimensional data to design and construct the optical space in the copper pipeline equipment pipeline library to search for the most appropriate equipment and cards at both ends. The line and even its hierarchical dynamic terminal block position, for the purpose of minimum consumable wire terminal housing and minimum Cross Connect, reduce the construction energy cost of the construction personnel through the remote associated elastic assembly and the telescopic assembly, and complete the configuration on the work order. Assigned work item tasks.

Through this mechanism, the accuracy of the construction is increased and the cost of the material and wire rod is reduced. Actually, it is applied to the digital integration and broadband software definition integration service. The vector ascending graph algorithm module 10 uses the geometric vector matrix operation module to correspond to the dimensional space map, and the calculus service delivers a multi-node delivery path, and records the devices, card plates, and lines used on the path.埠, 埠 and other information, at the same time through the dimension of the geography topology construction module 9 multi-dimensional geographic topology module projection to the earth second degree die coordinate system, the use of multi-dimensional geographic topology module and dynamic containment handover to complete the network link Combine the content-aware skills with image analysis and analyze the required image layers to complete the product service delivery and delivery dependent resource integration.

The software logic coordination function module 1 of the invention further dispatches the recursive stacking unit self-learning production module 5 to perform the drill-down learning module, and the problem situation is the center point diffusion correlation operation, recording each encounter situation and condition, sample The whole structure is built and self-driven and transformed by the above-mentioned module, and a large number of data interpretation systems are input according to the above-mentioned pattern driving process (Pattern Driven Flow) to further reduce the probability of false positives and errors, and this method is effective. Save considerable operating costs. The invention implements a recursive stacking unit self-learning production module 5 to drive the service network container carrier operation and configuration setting, and each operation must extend the associated record and track the result of the impact of the key (1) Pattern Driven Flow (Pattern Driven Flow) And (2) execution trajectory (3) program context (4) translation signaling (5) diagnostic parameter set (6) optimal adjustment value (7) IO interface agreement (8) spatial dimension judgment (9) optimization Module component (10)Refine Vector Matrix, with the accumulation of the sample process quantity matrix and the application of the rule of thumb model modeling, through the refinement of the output to improve the accuracy, better and correctly analyze the core obstacles of more than 80% of the problem cases Points, key points, and problem points, no need to intervene and judge through human intervention, and the crop body cross-networking component sensing module 7 outputs to the behavior analysis prediction module 8 to summarize, and further converges the result more accurately. The situation is then applied as a dynamic containment line device card board, automatic associated transfer module 6 to complete the automatic transfer of the line equipment of the affiliated station and the dimension geography topology construction module 9 production construction map and multi-objective construction assignment, more efficient and efficient dispatch The human-class class can save a considerable amount of manpower expenditure for the operation and maintenance of the business. By improving the accuracy of the implementation, reducing the construction error rate and reducing the cost waste, the cost of the daily business operation of the enterprise business is greatly reduced, and the results and processes are closely related. The signaling, micro-streaming and information writing to the remote control wearable control display device 2 corresponds to at least one cluster virtualized data array hardware unit, and simultaneously stores the structure, the unstructured, and the streaming data and the template flow.

The dimensional geography construction module 9 of the invention is further applied to the dynamic setting and construction of the line, and the latitude and longitude address and height are calculated after the construction target position is confirmed, and the line is calculated in time after the supply line is calculated. The available resources and the location of the best construction continuation point, through the instant sending of messages and the feedback of feedback, according to the dispatching algorithm to produce construction information to the mobile phone for mobile workers, ONU/OLT optical copper conversion integrated supply, through pipelines and tubes The middle pipe sensing component, the usable port in the receiving pipe space has been reduced to the previous warning threshold, at which time the construction site and the configuration data are transmitted to the construction personnel mobile device. The invention provides a vector ascending graph calculation module 10 for associating the optical cable and the copper cable with a vector ascending map, a pipeline, and a pipe tube drawing, and using the spatial geometric data calculation technology to insert the light, the copper terminal plate, and the connection box. The weak electrical box, the ONU, the OLT, and the optical splitter are connected in series with the Cross Connection T, and the latest cross-connected intelligent component module 7 detects the latest terminal board feedback to the software logic coordination function module 1 for controlling the device critical value, and Sending a timely network element trap alarm, linking the scheduling resources and sending construction energy and outputting control signals to the dynamic receiving line device card board and the automatic association handover module 6 for transmitting messages to the remote construction destination mobile terminal device gesture signal control mode Group 4 is used to change the physical hardware device facilities through optical coupling, optical separation, and optical switching. To solve the current low utilization rate of optical copper equipment, uneven distribution construction can not be accurate, High cost of construction and immediate feedback have long been a problem. The invention is applied to object network connection light, copper circuit board circuit signal control and media carrier media data or stream transmission modification, product service deployment and service delivery.

Please refer to the schematic description 1. The present invention is based on the framework of the telecommunications field of the International Telecommunication Forum, and the company's telecom domain specification architecture is developed. The model is further optimized by the software-defined cooperative operation model, and the composite light is assembled between the first-time production systems. Copper telecommunications product service network communication specifications to meet the demand to improve the lack of flexible communication specifications that have not been efficient in the past. For the complex telecom business to product service, the introduction of derivative multi-system platform equipment to facilitate the communication and communication difficulties is very helpful, saving a large time input cost, using software-defined three-dimensional space model modeling, and building the above system communication specifications.

Using the remote control wearable control display device 2 to build a model through multi-dimensional hierarchical massive non-structural thematic data integration analysis to re-integrate each product service, sub-service, value-added application composite bundling service assembly data structure, multi-dimensional analysis result output To behavior analysis and prediction module 8 to carry out program flow path operation behavior analysis and prediction estimation, output more valuable feedback to software logic coordination implementation module 1, adjust and formulate equipment pipeline line card board, multi-style design and construction strategy, develop marketing forecast and potential Guest module, more accurate estimation of regional user service scheduling to ensure performance quality, precision equipment construction module, further called remote control wearable control display device 2 for parameters, traffic, signaling, media media, unstructured data storage

Referring to FIG. 3, the above module is implemented, and the synchronous feedback output is sent to the software logic coordination function module 1. The dynamic association line device card board 埠 automatic association handover module 6 scheduling rule criterion dynamically arranges the lock exchange transmission intra-office Machine room → measuring station → transmission equipment → hand hole connection → transfer box -> user building → total box → host end point construction area according to the serial number and Connection, circuit, coordination through software logic module 1 call dimension geographic topology construction module 9 path multi-scattering at least one effective multi-route with support for load dispersion, using software logic coordination function module 1 software definition modeling modeling to improve service assembly The quality and the user's astute data are dependent on the virtual resource security and stability isolation. The at least one virtual resource provides the service chain and the service load usage incremental pressure load in the life cycle of the subsequent service assembly operation process, through the multi-use experience and instant QOS (Quality Assurance) Feedback and implementation output to the remote control wearable control display device 2 consecutive multiple context-dependent seamless cross-network protocol signaling for smooth transfer between heterogeneous types of services, according to the object cross-connected smart component module 7 user environment context dependent Perceptual and operating device tolerance time range Completion of optical copper equipment line signal signaling control and data set matrix smoothing across multiple Sender/Receiver devices network service transfer, multi-style mobile device APP for remote remote control and command operation Input.

However, the startup, development, integration and implementation of emerging software definition services are complex and cumbersome, causing many factories, service providers, cloud application providers, heterogeneous functional effects equipment brands, multi-system and multi-platform services to integrate and supply many services. Problem issues. It takes a lot of time to discuss the use of module components with the new procurement system SI personnel, equipment vendors, or new interface systems, and optimize the specifications of the interface specifications. The discussion and communication research is time consuming, and it takes a lot of time and even Can not talk about the results, the multi-party camp awareness difference can not narrow the consensus and cross-organizational unit division of labor, definition. The self-learning production module 5 of the recursive stacking unit of the invention continuously drives the model components in an interactive and cooperative manner in the Restful/JSON/SOA next-generation protocol communication operation mode, and completes the multi-layer layer assembly to complete the service pre-installation program flow path. The Dimensional Geographic Topology Construction Module 9 drives the Atomic Basic Service Units scattered around the world and connected to each other through a multi-dimensional space map. The IDC (Data Center) cloud host clusters are used to complete the distributed network ring. Layout configuration and network driver settings are deployed to solve the long-standing problem of the development of the above-mentioned product service network.

The invention integrates the product service network through the module component and the service basic execution unit IO, and is applied to the application of the new generation network of the NFV digital product service for the ICT/IOT/cloud smart software to be customized. After the requirements specification and communication structure, the software logic coordination function module 1 and the visual product service analysis design management module 3 software modeling are used to build a large number of data models and related structures, and analyze a large number of multi-style structures and non-structural data. Inductive integration of the above model, analysis and operation to improve product service network assembly efficiency and stability, scalability, accelerated service delivery to at least one gesture remote mobile device receiving subject facet numerical data and display and operational signaling translation use At the same time, through the gesture signal control module 4, the program flow message is commanded to transmit or receive the control signal/signaling, and the interpretation and the timely feedback and induction are performed, and the product service assembly and assembly are preferentially completed in the increasingly competitive telecommunications cross-service market. And snowflake data structure storage and calling.

The product service network of the present invention uses hierarchical cutting and drilling analysis in the end-to-end communication communication layer, and assembles the basic services, sub-services, extension services, and associated services in the Request/Product/Network/Composite/Collaboration Layer. After the composite service, the group service, and the collaboration service are completed, the multi-style heterogeneous base execution unit from the IDC local cluster is assembled and assembled, and the service function assembly is delivered to the Virtual Device Layer gesture remote control terminal, and at least one terminal mobile device is used, and the operation is performed. The remote control wearable control display device 2 integrates various heterogeneous service assembly, scheduling, and access remote control wearable control display device 2 through cloud virtualization supply resource support operation, and achieves integration of virtual resources and physical resources across domain products. Used for cross-business product service network and cross-platform architecture module components integration and collaboration

The invention of the present invention further completes the analysis of the central and downstream data transmission and reception of the central office and the user, and integrates the vertical integration requirements of the middle and lower reaches, extends the assembly and forms a complete product service network system, and provides the streaming service, the value-added service, and the software control signaling. , object sensing signal feedback delivery and reception. Through the hierarchical attribute association chain integration, the hierarchical integration will apply the value-added service to at least one gesture remote control mobile terminal display, operation and signaling translation, and be applied to the optical and copper equipment line product service network. Maintenance and obstacle analysis and traffic alarms are not restricted by the location of mobile terminals and connected Internet access methods, drive circuits, and gesture operation terminals, effectively reducing customer complaints and improving quality and efficiency, and further improving traditional supply and maintenance. Many inconveniences such as restrictions on resource scheduling requirements, and an innovative reform and evolution of the field of composite multi-product service networks in the domestic telecommunications field, reducing the cost of product service development, improving the integration benefits, shortening the time to market, and solving the current conventional development of traditional architecture. The problem of breakthrough.

Please refer to the schematic description 2, which is a further detailed step-by-step operation flow chart of the software logic coordination function module 1 of the present invention, which is a detailed description of the construction process, and receives the input message by using the installed system product service network. After that, further enter the 103 unit visual product service analysis and implementation, 104 unit production results are output to the multi-dimensional space service map learning analysis, and the results are output to the 105 unit theme basic space map capital matrix arrangement, and the partial service execution unit is produced. At the same time, the execution unit is integrated into the execution unit, and further through the 106-unit object cross-perception operation result, the operation scheduling of the optical and copper equipment lines is further carried out, and then the 107-unit basic execution unit assembly operation is completed. Then, the above operation stores the result, and the 108 unit goes deeper into the scheduling and delivery content attribute association analysis and induction, and the 109 unit performs the multi-dimensional space operation, and the above-mentioned result attribute association is concatenated, and the 110 unit further predicts the service action and data corresponding to the service. Model induction operation, after the completion, there is no other error point, then 111 units are registered and released for service. The node 112 unit manufactures the module component and the basic service unit, and provides the software logic coordination function module 1 scheduling call and query use. The software logic coordination application module 1 of the present invention further relays the relay command generated during the conversion process by the command integration, and the command is used in the program flow to synchronously apply the vector ascending graph operation module 10 and the potential signal number. Control module, crop body cross-networking intelligent component module 7 output user behavior analysis and prediction module 8, using dynamic containment line device card board, automatic association handover module 6 to perform action and visual product service analysis design module 3 The sample plate process is output to the remote control wearable control display device 2, and after the spatial map cross-stacking and service unit assembly are completed in unit 113, the 114-unit verification flow program is further driven. The 115 unit is responsible for translating the signaling control vector ascending graph computing module 10, the gesture signal control module 4, the behavior analysis and prediction module 8, the object cross networking intelligent component module 7, and the dynamic housing during the process program application process. The line device card board, the automatic association handover module 6, and the visual product service analysis design module 3 complete the analysis, transmission, transmission and reception of the signal control signaling.

FIG. 5 is a flow chart of the implementation procedure for assembling and installing the line service of the optical and copper cable equipment according to the present invention, which is presented by an enumerated implementation list (schematic description 3), and is sequentially returned one by one through the sequence, and the field PHOSITA is provided. According to the map. The dimension geography topology construction module 9 uses the present invention to lock the construction target of the multi-level group, and then calculates the CO 101 of the production and output central exchange through the multidimensional geometric space vector matrix layer graph operation. Calculating 102 OLDF and 103 fiber optic cable connection box terminals with CO as the stereocenter point, and extending the 104 trunk cable from the line device connected in 103, the dimensional topology of the present invention is 9 Then, the object interleaving intelligent component module 7 IO is further connected to perform the stereoscopic spatial nesting operation of the map layer area, and the signalized signaling bidirectional line link and feedback is used to calculate the 105 photochemical junction box. The dimensional geography construction module 9 of the present invention is further extended to 105 Under the jurisdiction of the distribution cable assembly terminal vector matrix, the application of multi-dimensional space for multi-faceted nesting operations to produce its range of areas under the jurisdiction of 106 wiring optical line equipment terminal layer map and 107 road center line street hand hole map funding, through positioning 108 street profile cable area transfer box and 109 building area total box. After the production process is completed in the above program flow, the dimensional geographic top construction module 9 of the present invention further applies the end-to-end signal signaling full-line test construction of the device line terminal object by using the above model data, and if it is analyzed by signaling Then enter the construction process completion 111. Under the verification communication verification process, the dimension geomorphic construction module 9 drives the recursive calculation program, returns to the central exchange 101, and repeats the above process flow until the situational condition goal is reached. The signaling is correctly parsed and the end-to-end test is successful.

Please refer to the schematic description 4, which is a multi-dimensional spatial space nesting operation driving group group space operation dependent matrix construction procedure flow of the dimensional geographic topping construction module of the present invention, and the three-dimensional space digitalized street equipment layer map is applied. For each type of heterogeneous equipment line, the clustering construction path is the core calculation center. The dimension of the geology topology construction module 9 uses the software and definition and a large number of data structure transformation input analysis to build a multi-dimensional analysis of the molding model. For the connected Cube relationship attribute, through the above analysis model and structural and non-structural multi-dimensional data analysis induction transformation, the software definition logic management module cooperates to construct the best construction procedure flow path, which is the multi-dimensional space of the overall responsibility area. The data signal range calculates all the targets to be constructed, so that the traditional work order construction method without rules can be used to analyze and calculate the series computing power of the system cluster of the present invention, and the hierarchical structure of the geodetic system can be used to analyze the spatial network of the earth. Inter-crossing attribute association with the best solution, and then achieve more Efficiency saves time, manpower, fairness, timely and accurate assignment of construction energy load and more flexibility to meet the construction needs of the construction, the implementation steps are described as:

(a) The latitude and longitude data input of the target installation site and the large-scale structured conversion data of the responsible area of the three-dimensional multi-dimensional space data are analyzed and summarized, and the intersection of the road center line is generated and the label is embedded in the street matrix. The network creates a set of connection points at the center line of the road, and connects the connection points and associated nodes to all the targets to be applied.

(b) further implementing the road center line intersection point space network assembly production process and the media medium circuit loop, calculating the belonging area spatial stereoscopic street profile matrix, and outputting the output to at least one remote virtualized data storage array

(c) applying the crop body cross-networking intelligent component module 7 to sense the immediate state feedback of the nearby nearby objects, applying the above-mentioned responsibility area range street matrix matrix to produce the dimensional stereo weight matrix, and linking the above-mentioned association sets to establish an association, and output storage At least one remote virtualized data storage array

(d) calculating the latitude and longitude of the target to be applied in the multidimensional spatial weight matrix and calculating the construction energy load in the area of responsibility area, linking the relevant construction energy, and outputting the output to at least one remote virtualized data storage array

(e) Nesting all the target positions to be applied and the starting point of the multi-dimensional space weight matrix and the administrative area and the operating unit map layer matrix, and using the stereo space data to calculate the positive coordinate system of the X-axis positive horizontal line. The projection angle is counter-clockwise depending on the earth projection coordinate system, and the construction information to be dispatched in the regional responsibility area is immediately distributed according to the angle obtained above.

(f) According to the various types of group construction responsibility area, the card board and the core line detailed optical cable connection box data sorting vector map is delivered to the construction output to at least one portable moving gesture remote control multi-point signal control device to display and receive information feedback, The capital layer is further displayed according to the construction path, the center line of the road and the position of the adjacent terminal of the adjacent equipment line of the street profile. One less mobile gesture remote control multi-point signal control device, and the three-dimensional multi-dimensional matrix layer map is developed for proofreading, construction, feedback, finger sensing, signaling transmission, and signal delivery.

(g) scheduling a multi-dimensional stereo lifting map of the target group of the construction group, correlating the total box map layer map and signing, and receiving the state, signaling, signal, image, feedback of the at least one portable moving gesture remote control multi-point signal control device, Completion of the software logic coordination function module 1 driving responsibility area to send construction process program operation.

The invention provides a production assembly system specification and a service module component which can be applied to the complex and inter-transportation cooperation relationship between the multi-heterogeneous systems and the Multi-Cloud Integration product service network supply and resource scheduling provisioning application to create security. Quickly and stably complete the multi-system heterogeneous brand licensing agreement platform architecture. With the construction of molding molds and design construction more and more powerful and complete, telecommunications field communication specifications evolved, efficiency-enhanced block-related IO interface, providing flexible and rapid integration deployment standards, sharing, security, de-identification, codec Optimize the key IO communication protocol specifications, further eliminate the multi-party differences to accelerate the operation of the product service network supply and resource scheduling settings, improve the integration efficiency of module components and reduce the cost of operation and maintenance.

The invention is further applied to the banking and financial derivative products, automobile automation, ICT integrated product services, smart city Internet of things IOT field, and national machine key disaster early warning field, and provides a new generation of digital innovation and cross-field. Product service application, on the one hand, fast and effective integration of network services to provide End to End One-Stop Service, on the other hand, more efficient hierarchical dynamic On Demand management of light, copper multi-heterogeneous equipment line design, construction, layout, Registration, virtualization, and cross-collaboration. Through the implementation of One-Stop software to define the SDX integrated product service network performance improvement, more flexible implementation and multi-quality advanced control, to achieve the goal of Software Defined Component, increase product service network architecture integration The scalability and expansion flexibility of the application will be very beneficial to China's drive and development of the product service network in the new generation of telecommunications applications after the complete legal regulations, leading the current technology in this field to international cooperation.

The invention provides a forward-looking, flexible and easy-to-integrate mutual-operation cooperation mechanism architecture, which is suitable for installing various brands, systems, platforms, and optical and copper line equipment terminals, handover links and related system operations, and is easier to integrate into third-party cooperation vendors. The solution is applicable to multi-style business development applications in the domestic telecommunications field, especially the full-service product development and system flexible architecture integration in the telecom field. The invention is particularly suitable for use in ICT integration services, smart home smart city IOT development, national key capital communication disaster prevention Project development research, content delivery network (CDN, Content Delivery Network), multimedia video on demand (MOD, Video On Demand) service provider transfer system process for collaborative use, compared to the current technology communication system devices in the field and The data model of the method provides the more flexible, efficient, easy-to-use, stable and expandable product service network architecture, and is applied to the ultra-high-speed broadband network service industry, which is an important broadband, switching, transmission, aggregation, access, gateway network service. Process configuration, scheduling, analytical actuarial, supply, maintenance, inspection, At the same time, the alarms are calculated and analyzed through hierarchical multi-dimensional weights. The central point is concentrated on a single secure entry IO access point, which further enhances the cross-domain service integration and maintenance and quality barrier analysis of the above-mentioned telecommunications product service network. Estimating the efficiency of induction, it can further save the considerable power and face the problem, especially suitable for the assembly and integration of product network services in heterogeneous multi-virtual network environment, in line with the formulation and implementation of the future regulations in China As well as the adoption of IPV6, we will be able to further develop the overall operational integration and synergy, and lead the country's industrial services and linkage applications in this field to international standards and international collaboration.

The above detailed description is specific to one of the possible embodiments of the present invention, The present invention is not intended to limit the scope of the invention, and the equivalents and modifications of the invention are intended to be included in the scope of the invention.

The schematic descriptions 1 to 6 mentioned in the above detailed description are as follows:

1‧‧‧Software Logic Coordination Module

2‧‧‧Remote wearable control display device

3‧‧‧Visual Product Service Analysis Design Module

4‧‧‧ gesture signal control module

5‧‧‧Returning to the stacking unit self-learning production module

6‧‧‧Dynamic containment line equipment card board 埠 automatic associated handover module

7‧‧‧Object cross-connected smart component module

8‧‧‧ Behavior Analysis and Prediction Module

9‧‧‧Dimension Geography Topology Construction Module

10‧‧‧Vector Ascending Graph Algorithm

11‧‧‧Embedded container cross-service module

12‧‧‧Fault-tolerant virtual data module

13‧‧‧Cloud database

Claims (9)

A software definition driving cloud computing network component service assembly system comprises: a software logic coordination application module, and a coordinated configuration of a connected module; a remote control wearable control display device, connecting the software logic coordination application module, providing external use end Dressing for operation; visualizing product service analysis design module, connecting the software logic coordination application module, establishing and maintaining the continuous relationship between the module component and the basic execution unit and the input of the space cube according to the timing visual basic process program path Outputting the interface and the link, and outputting the result to at least one cloud virtualization device; the gesture signal control module is connected to the software logic coordination function module for detecting the gesture signal of the use end for operation; The unit self-learning production module is connected to the software logic coordination application module for establishing a situation template process and analyzing the model mold, and configuring the template process by the situation analysis and feedback to provide the accuracy of the process configuration; the dynamic receiving line The device card board automatically associates the transfer module. The software logic coordination function module is configured to analyze the signal between the device line card board and the device unit; the object cross-networking intelligent component module is connected to the software logic coordination application module for operating the media medium remote detection and rectification Analysis and judgment; behavior analysis and prediction module, connect the software logic coordination application module, perform data aggregation for prediction and diagnosis; dimension geographic topology construction module, connect the software logic coordination application module, drive network service Space equipment line topology layer sign to calculate the geospatial geometry vector of the earth coordinate system The unstructured data matrix; the vector ascending graph algorithm module is connected to the software logic coordination application module, and is configured to process the data bit set processed by the stereo geometric multidimensional vector security encryption compression to operate the scaled earth coordinate projection system vector layer. And an image symbol; an embedded container cross-service module, connected to the software logic coordination application module, driving input and output interface links of host basic service units located in different fields and different locations; and fault-tolerant virtual data module, connecting the software logic coordination The application module provides at least one cluster virtualized database software and hardware unit to store the interactive data between the modules during the tracking process flow path processing. The software definition driving cloud computing network component service assembly system according to claim 1, wherein the remote control wearable control display device receives at least one of the heat sensing operation information and the finger space operation information from the use end. The software definition driving cloud computing network component service assembly system according to claim 1, wherein the visual product service analysis design module receives the visual graphics operation information input by the flow program path for operation. The software defined as described in claim 1 drives a cloud computing network component service assembly system, wherein the recursive stacking unit self-learning production module communicates using an SOA-based Jason/Resultful communication protocol. The software defined as described in claim 1 drives the cloud computing network component service assembly system, wherein the dynamic accommodating line device card board 埠 automatic association handover module analyzes the line card board of the device of the optical cable and the copper cable line. . The software defined as described in claim 1 drives a cloud computing network component service assembly system, wherein the object The cross-connected smart component module detects the instant feedback status of the transport layer node and the object through the signal to determine the object feedback signal. The software definition driving cloud computing network component service assembly system according to claim 1, wherein the behavior analysis prediction module provides at least one of a classification model, a regression model, a classification matrix or a discrete model to perform data aggregation for performing Prediction and diagnosis. The software defined as described in claim 1 drives the cloud computing network component service assembly system, wherein the dimension geographic topology construction module further calculates the attribute relationship between the object and the object according to the spatial association nesting, and calculates and analyzes the pre-construction. The responsibility area governs the energy and at least one specific target three-dimensional space area governs the multi-point dispatching process, and continuously calculates the accuracy of the above calculation and the object or the connected space vector data between the objects required to be constructed at the construction time. . The software definition driving cloud computing network component service assembly system according to claim 1, wherein the vector ascending graph computing module is stored in a multidimensional spatial spatial data matrix operating space operation data nesting comparison and Attribute association, adjacent area node ring domain analysis of irregular three-dimensional space nesting cover operation, instant determination of construction site status and acceptance of feedback signaling, streaming, optical copper carrier signals and transmission to the software logic coordination application module.