TW201824166A - Service assembly system of software-defined drive cloud computing network component being worn by a client end for operation and establishing respective oriented input and output port interfaces and links - Google Patents

Abstract

This invention provides a service assembly system of a software-defined drive cloud computing network component. The system may be worn by a client end for operation, and is configured to establish respective oriented input and output port interfaces and links according to a timing sequence visual basic process program path, detect a gesture signal of the client end for operation, establish a scenario template process and an analysis model mold, scenario analysis and feedback template repeated-configuration process to provide the accuracy of process configuration, analyze a signal between a line card port of a device and a unit of an apparatus, operate media medium remote detection and integration for analytical judgment and perception, and execute data integration for prediction and diagnosis, calculate an unstructured data matrix of geometric vectors of a geodetic coordinate system geographic space, operate a vector layer and a vector feature of a geodetic coordinate projection system with a measuring scale, and drive input and output interfaces and links of host basic service units at different locations in different fields.

Description

   Software-defined drive cloud computing network component service assembly system   

The invention relates to a telecommunication supply and installation system, in particular to a cloud computing network element service assembly system driven by software definition.

The traditional system development product service network production equipment is developed for specific exclusive targets, making this type of equipment quite inflexible and extensible, and can only be applied to a specific target range. At present, telecommunications service providers build The traditional copper optical network system lacks a large-scale collaborative platform, reuse, flexible input and output interface (IO) interface, call dispatching ease of use, and collaboration and interoperability integration, etc., leading to field operations product services The performance and stability of the optical / copper network and the input and output interface connection of the module components are not good. The wiring and construction of the line and the obstacle detection and remote monitoring are subject to many restrictions. I encountered considerable difficulties in the integration of new product network services and R & D, but it couldn't continue to develop under the traditional existing structure, nor could it meet the development requirements of the domestic telecommunications industry in time to enter the diverse market of different customer groups with innovative product network services.

In summary, how to provide a solution that can solve the foregoing problems is a technical problem that needs to be solved in the art.

In order to solve the problems disclosed previously, 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 driving cloud computing network element service assembly system. The foregoing system includes a software logic coordination application module, a remote wearable control display device connected to the software logic coordination application 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 Port Auto-associated Transfer Module, Object Cross-Networking Intelligent Component Module, Behavior Analysis and Forecasting Module, Dimensional Geographic Topology Construction Module, Vector Ascension Feature Computing Module, Embedded Container Cross Service modules, fault-tolerant virtual data modules. The aforementioned software logic coordinated execution module is a coordinated configuration of the connected modules. The aforementioned remote-control wearable control display device is provided to be worn by an external end for operation. The aforementioned visualized product service analysis and design module is based on the sequential visual basic process flow path, establishes and maintains the continuous relationship between the module components and the basic execution unit, and the input and output port interfaces and links facing each space cube, and outputs the results. To at least one cloud virtualization device. The aforementioned gesture signal control module is used to detect the gesture signal of the user for operation. The aforementioned recursive stack unit self-learning production module is used to establish the scenario model process and analysis model modeling, and iteratively configures the model process with context analysis and feedback to provide the accuracy of the process configuration. The aforementioned dynamic accommodating line device card board port is automatically associated with the transfer module to analyze the signal between the device line card board port and the device unit. The aforementioned object cross-networking intelligent component module is used to operate media medium remote detection, integration analysis, judgment and perception. The aforementioned behavior analysis and prediction module performs data aggregation for prediction and diagnosis. The aforementioned dimensional geographic topology construction module drives the network service space equipment line topology layer feature to calculate the geospatial geometric vector unstructured data matrix of the geodetic coordinate system. The aforementioned vector ascension feature calculation module applies a set of data bits processed and transmitted by three-dimensional geometric multi-dimensional vector security encryption and compression to operate a vector layer and a feature of a scale geodetic projection system. The aforementioned embedded container cross-service module drives the input-output interface links of the host basic service units located in different areas and at different locations. The aforementioned fault-tolerant virtual data module provides at least one cluster of software and hardware units of a virtualized database to store the interaction data between the modules during the processing of the tracking process flow path.

In summary, the software definition-driven cloud computing network component service assembly system of the present invention provides a more convenient installation solution through the coordinated operation of various modules.

VM1 ~ VM3‧‧‧Virtual Machine

302 ~ 309‧‧‧Basic execution unit components

P1 ~ P16‧‧‧Installation process

102 ~ 115‧‧‧Installation procedure

301‧‧‧Process Controller

411 ~ 428‧‧‧Installation procedure

S101 ~ S111‧‧‧Construction process

1‧‧‧Software logic coordination execution module

2‧‧‧Remote wearable control display device

3‧‧‧Visual Product Service Analysis Design Module

4‧‧‧ Gesture Signal Control Module

5‧‧‧Recursive stacked unit self-learning production module

6‧‧‧Dynamic Containment Line Device Card Board Port Automatically Associated Transfer Module

7‧‧‧Object cross-connected intelligent component module

8‧‧‧ Behavior Analysis and Forecasting Module

9‧‧‧ Dimension Geography Topology Construction Module

10‧‧‧ Vector Ascension Feature Computing Module

11‧‧‧ Embedded Container Cross-Service Module

12‧‧‧ Fault Tolerant Virtual Data Module

13‧‧‧Cloud Database

FIG. 1 is a system block diagram of a software-defined drive cloud computing network component service assembly system according to an embodiment of the present invention.

FIG. 2 is an assembly path diagram of a visualized product service process produced by a software-defined drive cloud computing network component service assembly system of the present invention.

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

The following describes specific embodiments to illustrate the implementation of the present invention, but it is not intended to limit the scope of the present invention.

Please refer to FIG. 1, which is a system block diagram of a software-defined driving cloud computing network component service assembly system according to an embodiment of the present invention. The foregoing system includes a software logic coordinated execution module 1 and a remote control wearable control display device 2 connected thereto, 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 port automatic association transfer module 6. Object cross-networking intelligent component module 7. Behavior analysis and prediction module 8. Dimensional geotopology construction module 9. Vector elevation map calculation module 10. Software module for remote control wearable control display device 20.

The aforementioned software logic coordinated execution module 1 is a coordinated configuration of the connected modules. The aforementioned remote-control wearable control display device 2 is provided to be worn by an external user for operation. The aforementioned visual product service analysis and design module 3 establishes and maintains the continuous relationship between the module components and the basic execution unit, and the input and output port interfaces and links facing each of the spatial cubes according to the sequential visual basic process flow path, and outputs the results to At least one cloud virtualization device. The aforementioned gesture signal control module 4 is used to detect a gesture signal of a user terminal for operation. The aforementioned recursive stacking unit self-learning production module 5 is used to establish a scenario model process and analysis model modeling, and iteratively configures the model process with context analysis and feedback to provide accuracy of process configuration. The aforementioned dynamic accommodating line device card board port automatic association transfer module 6 is used to analyze the signal between the device line card board port and the device unit. The aforementioned object cross-networking intelligent component module 7 is used to operate media medium remote detection, integration, analysis, analysis, judgment and perception. The aforementioned behavior analysis and prediction module 8 performs data aggregation for prediction and diagnosis. The aforementioned dimensional geographic topology construction module 9 drives the network service space equipment line topology layer feature to calculate the geospatial geometric vector unstructured data matrix of the geodetic coordinate system. The aforementioned vector ascension feature calculation module 10 applies a set of data bits processed and transmitted by three-dimensional geometric multidimensional vector security encryption and compression to operate a vector layer and a feature of a scale-based coordinate projection system. The aforementioned remote-control wearable control display device 20 drives the input / output interface links of the host basic service unit located in different areas and different locations. The aforementioned remote-control wearable control and display device 21 is provided with at least one cluster of software and hardware units of a virtualized database to store the interaction data between the modules during the processing of the tracking program flow path. In addition, the fault-tolerant virtual data module 12 and the software logic coordinated execution module 1 can be connected to an external cloud database 13 to dynamically schedule the supply resources.

To further explain, the aforementioned software logic coordination execution module 1 can be defined by software design logic according to the problem situation analysis and connected to the input and output interface (IO) of the associated software and hardware modules, and the assembly chain of application logic can be scheduled by small and large schedules. In accordance with the analysis and induction results, the design sequence is called one by one in series to complete the connection of the input and output interface, and the data required during the operation and access process flow calculation are stored in at least one virtual data storage array.

The aforementioned remote-control wearable control display device 2 applies at least one remote / near-end control chip that can receive remote thermal sensing and remote finger space motion-related signals to be worn on movable or non-movable objects or animals to drive the device to move. Act as a single key at the same time to trigger multiple consecutive display device actions

The aforementioned visual product service analysis and design module 3 is a visual analysis and design collaboration product service network, which implements the visual basic process flow path according to the time sequence, establishes and maintains the continuous relationship between the module components and the basic execution unit before and after, and each of the spatial cubes faces the input. The output interface interfaces and links, and outputs the result to at least one cloud virtualization device. Output the flow program path to the software logic coordination execution module 1 for subsequent calculations. Implement a visual graphic operation mode that can receive the input of the flow program path to connect the input end and the module unit.

The aforementioned gesture signal control module 4 performs a remote or near-end finger gesture to transmit a control signal to at least one object or animal, and is used to control the motion of at least one remote object or animal. The remote remote control continuously inputs or receives multiple signals for communicating with the hardware of the remote control device for signaling, passing messages or media. The processing unit is mounted on at least one mobile device device, and is responsible for 360-degree three-dimensional space and surrounding setting distance signal signaling / body movement finger gesture detection perception sending and receiving, video and audio photography, receiving and playing. It has the characteristics of being movable, and can also be fixed to the wall column, and has the protection against water pressure and water penetration.

The aforementioned recursive stacking unit self-learning production module 5 applies remote host location module component service containers and basic execution unit production and basic execution unit block connection interface and security and authority verification, using SOA- Based on Jason / Resultful communication protocol. Production software model, plastic modeling, modeling, brick setting management and application, used to establish the situation model flow (Pattern Driven Flow) and analysis model, using situation analysis and feedback to iterate the Refine model flow to enhance facts or events or Process hit rate accuracy.

The aforementioned dynamic receiving line equipment card board port automatic association transfer module 6 is responsible for optical and copper equipment line card board port connection box connection terminal automatic transfer (Cross Connection) and device unit signal analysis and translation link transmission and transmission and equipment circuit network Yuan's setting is activated. Perform at least one remote signaling and signal on the corresponding device line terminal. Use the rule base to dynamically control the Rack-Shelf-Slot terminal port of the equipment rack to dynamically connect the Cross Connection.

The aforementioned object cross-connected intelligent component module 7 is used to operate the media medium remote detection, aggregate cross-analysis, judgment and perception, and detect the real-time status and signal transmission of the transmission layer Node and the object or animal through the signal, and determine the object feedback signal. Performs detailed dynamic management of virtual or physical servers, directs configuration management, manages object or animal activities, and detailed communication actions for interaction and information management.

The aforementioned behavior analysis and prediction module 8 performs a large number of complex and irregular non-structured data collection and integration to further analyze the prediction, diagnosis, induction, and message, signaling, and stream feedback of the movement state or behavior of a moving body or object. It is further estimated that among the many choices, the behavior with the highest probability of occurrence is most suitable for the time point. Run a large number of unstructured or structured transformation data integration analysis and induction to improve the accuracy of situation problem solutions. Use spatial snowflake data structures for access, concatenation, data transfer, model serialization, and deserialization. Responsible for implementing classification models, regression models, classification matrices and discrete models, and anomaly detection models and function calculations. Responsible for the interpretation and determination of the characteristics of actions or behaviors during the execution of the program flow.

The aforementioned 9-dimensional geographic topology construction module 9 is a feature that drives the topological layers of the network service space equipment circuit to calculate the geo-spatial geometric vector unstructured data matrix of the geodetic coordinate system, and further calculates objects and objects based on spatial correlation nesting. Relationship between attributes. Calculate and analyze the jurisdiction energy of the area to be pre-constructed and the multi-point distribution process of at least one specific target three-dimensional space area jurisdiction area. Continue to calculate the accuracy of the above calculations and the objects themselves or the objects required to operate at the time of construction. Space vector data.

The aforementioned vector elevation feature calculation module 10 is a set of data bits processed or transmitted by three-dimensional geometric multi-dimensional vector security encryption and compression, which is used to operate vector layers and features with scaled geodetic projection system and calculate management elevation levels. Features are associated with them. Responsible for correlating and overlaying the operation data of the operating space stored in the multi-dimensional spatial facet data matrix, and analyzing the analysis of irregular three-dimensional spatial nesting coverage in the neighboring areas of the nodes. The real-time determination of the construction site status and receiving feedback Signaling, streaming, and optical copper carrier signals are transmitted to the software logic coordination execution module 1.

The aforementioned remote-control wearable control display device 20 drives the IO interface links of the basic service units of hosts in different fields and different locations, and uses remote cloud resources to assemble the basic service execution units one by one in sequence according to the sequence. Links are further assembled into Composite (composite) services. Through the connection of heterogeneous Composite services, further larger and more complete service operators are assembled. In this way, the extension and expansion are unlimited, in order to meet the specification requirements inserted midway.

The aforementioned remote-control wearable control display device 21 provides at least one cluster of software and hardware units of a virtualized database for storing tracking program flow path processing, analysis, feedback, transmission, calculation, and input / output data among the above modules. , Stored in the remote virtual storage array unit. Provides Fail-Over cluster array dispersion and recovery operations. Provides metadata storage and access control for module components, basic execution units and program flow calculations. Responsible for the transfer of encoding, hidden code and data between sensitive business operation and maintenance data units, automatically intercepting the transmission of identifiable data according to the characteristic values of the data, and automatically popping up the theme screen of the warning situation on at least one movable limb gesture remote control operation device Wait for the next step to determine the execution and operation of the instruction.

During the integration of products and services in the telecommunications field, the evolution of new products is extremely fast. Especially in the development and evolution of services, it is often encountered that the brands of optical copper cable line equipment terminal systems have different supply, maintenance, service, and inspection. Methods, and the systems, brands, platforms, third-party equipment installation and maintenance monitoring and inspection methods are different and very different. Each set takes about six months to one year to integrate and apply IO interfaces. The lack of a good architecture design is why the system R & D and the integration of new product services and networks promoted the development of the network. This problem has long been a problem in the field of optical copper cable products and services. At the same time, EMS equipment has large differences and costs. High, the R & D process requires a lot of labor costs and a lot of assistance from equipment manufacturers when the development process is a long time away.

The development of China's full-service ultra-wideband NFV / SDX services and the promotion of related new product services are the key industry development trends of ICT / IOT / smart cities / cloud applications / Internet of Things. The invention in this case pays attention to this trend. Hierarchy dynamic adjustment Flexible removable component module assembly service platform for controlling and real-time grasp of the area of responsibility Responsible for sending construction exchange, transmission network, core network, access network, user terminal environment, multi-purpose device touch remote control device, various links in real time The operation is based on the above-mentioned real-time information and the dynamic analysis of the parameter attribute set between the objects. The command and dispatch assigns the virtual cluster service host group to provide, assemble, switch, and time-sequence the module components and basic service units. The service status is isolated from the security, further ensuring the exclusive service quality of the Tanet (tenant), enhancing various types of multi-intelligent and exclusive services to benefit the target customer experience in different fields of different levels, and further based on the dynamic changes of the customer group environment, real-time control, Signaling, message, streaming and real-time analysis In order to ensure the best service experience of the gesture remote control terminal device, software logic is used to define the collaboration and drive the cloud virtual reality integration technology. Flexible On Demand (flexible demand for installation and opening) for installation.

The invention deeply cultivates the international telecommunication forum product service network architecture and the telecommunication optical copper conversion transmission, exchange, broadband network, and access service fields, which is in line with international standards, and further implements cloud computing software-defined network components geospatial vector graphics technology R & D, driving modeling management based on software-defined logic, dynamic multi-level attribute extension association for registration and release of files, implementation of recursive topological software logical collaboration model, and dynamic invocation of software models to drive service provisioning information models and implement Refine Refine to improve performance, software logic defines coordination and expansion of flexibility and extensibility, applies hierarchical label attributes to associate software molding units, and establishes a product service network installation process based on software module component unit assembly and drive. The basic service unit of the present invention is registered and released for remote monitoring and tracking control. It is distributed and deployed in at least one cluster of virtual host storage arrays. Component module attributes of different locations and locations are connected in series and cooperated to implement six-sided stacking to extend the timing. IO interface one by one to assemble at least one module element (Component atomic), repeatedly use Component atomic, connect various types of Component atomic through aggregation, and simultaneously operate timing routing, serialization, and assembly expansion. Through repeated tuning analysis, analysis and performance optimization, we can further obtain Line equipment Refine Service Chain assembly effect. The invention is particularly suitable for telecommunication applications, product service network integration applications of remote wearable gesture control of moving objects.

The case of the present invention is to self-learn and produce module components through module components, and dynamically drive product services and terminal calls to the most appropriate sub-module components to produce Atomic sub-modules based on device gestures to remotely control the terminal device ’s behavior. Quickly complete multi-level heterogeneous module components, multi-level attributes, association and cooperation, learn to produce modules through module components, and build and integrate more powerful and complete sub-service module components in the telecommunications field. Self-defined communication through standard, shared, and reusable software The specification overcomes IO interface barriers and accelerates time to market.

The invention of commercial transactions in this case is further applied to emerging fields of ICT / IOT such as banks and autonomous driving of cars. Through the integration of big data analysis and machine learning robots, comprehensive data mining, advanced diagnosis of problem points, and speedy provision of end-to-end integration services for all Dedicated audiences for class goals. The comprehensive network and service performance can be improved. Integration benefits can be seen, more stable and flexible remote monitoring of quality, and comprehensive software definition-driven supervision of product and service visualization process flow paths, and further expandability and performance expansion and flexibility. Control the increase of bandwidth flow to meet the expansion requirements.

The present invention implements shared collaboration and interoperable, reusable software-defined specifications to overcome traditional obstacles in the past. The architecture of the present invention is further applicable to new fields of ICT / IOT / smart city / cloud virtualization / Internet of Things applications such as banking and auto driving. Through the product and service network cooperation and interoperability performance of the present invention to improve integration and comprehensive efficiency, the module components of the product and service network can be continuously stabilized for quality control, and a more detailed software-defined driver collaboration for the use of artificial intelligence in the new generation of telecommunications is completed. Interoperability alarm monitoring.

The present invention solves the current telecommunication exchange, transmission, core, and access areas. The utilization rate of the optical and copper equipment under the jurisdiction of the exchange bureau / supply line bureau / number bureau is relatively low, and the design and construction cannot be accurate and effective, and the high deployment cost and The inability to generate rewards has long been a problem. It is used for space optical and copper cable line equipment replacement, upgrade, maintenance, and obstacle determination, speeding up the efficiency of business operation and maintenance while further reducing the risk of errors and related input costs caused by human intervention and obstacles, and reducing manpower. Expenditure further reduces OPEX (operating expenses expenditure), flexibility and ease of use accelerate product component network virtual module.

The present invention uses software logic to coordinate the execution process of module 1 to define the software. The software-defined logic process uses Process Recusive Refine for evolution and performance improvement. It also connects and connects other related modules to complete product service network analysis and assembly through link calls. Save the dimension-oriented analysis results that are returned to the spatial dimension calculations again and again in at least one cloud virtualized dimension database, and further retrieve and analyze various heterogeneous topics and feed back advanced information to improve the system operation efficiency. Bundled product business, network, service development and allocation of resources.

This case is an in-depth evolution of the telecommunications field framework, and provides product and service specification models for the telecommunications field. Using years of in-depth experience in designing new generation telecommunications products and services related application design experience, it further develops SDX innovative services, full-service product services, and defines collaborative optical copper cables through software logic. Handover equipment molding, modeling, preservation, association, reuse and further optimization and improvement of its model library, the first time production system cooperation and interoperability composite product service communication specifications, applied to the current multi-variate heterogeneous brand IO agreement with large differences Assembly and integration of network service component units.

The present invention uses software logic to define collaborative modeling and cluster array hardware equipment to process a large number of non-structured structured service dimension data cross-analysis, reduce firmware, hardware updates, and other derivative problems, improve the accuracy of problem solving, and use execution Multi-level weighted foundation expansion and association of different levels of regional locations for installation files, resource files, and service files to establish information models, which are divided into customer group dimensions, product line dimensions, access network dimensions, backbone network dimensions, and core network dimensions , Transmission network dimension, terminal equipment dimension, and establish a model system structure through dimension and dimension orientation, and apply it to product service network supply and distribution construction, and then continue to increase the pattern and learning model Planning and refining the collection of rules to continuously strengthen the software logic model, improve model processing efficiency and accuracy. This model saves the rapid application of themes in the same field, reduces maintenance and repair costs, further improves productivity, and reduces human intervention. The risk of mistakes and the reduction of labor costs effectively increase ARPU.

The product service network hierarchy tree diagram is produced through product analysis, and the product service network basic execution unit is disassembled in a time-series manner. At the same time, the upstream and downstream relationships are assigned to associated block links, and the product service network hierarchy is completed by decomposing one by one. Tree. Then, the basic service execution unit is driven by stacking blocks to complete the product service network process factory assembly application path, and store parameter interface location and number and other parameter information in the cloud virtualization database for use / reuse. The results are fed back to the software logic coordination execution module 1 and stored in at least one remote-control wearable control display device 21. Perform product and service network assembly path analysis through basic IO module block IO interface stacking and linking, and repeat the above actions to adjust the block IO interface performance and protocols, and implement the goal of three-dimensional flexible assembly without changing the stacking method. . It is used to drive, connect and monitor the intelligent component module 7 for cross-networking of objects, and improves the vertical service provisioning method of specific target of SILO in the past.

Please refer to FIG. 2, which is an assembly path diagram of a visualized product service process produced by a software-defined drive cloud computing network component service assembly system of the present invention. The aforementioned system uses the Core Meta Data Driven Flow Controller (301) to assemble the module blocks of the basic execution unit elements (302 ~ 309) from bottom to top and from left to right, and sequentially call the interface position and The protocol operates and is stored in at least one cluster of virtualized data modules at the remote end, and is repeatedly assembled and disassembled and used more than once.

After the product service network is established, it can provide integrated products for quick access. The product service operation host is located in the virtual server of the remote cloud IDC machine room, and the multiple heterogeneous proton service execution units are located in different cloud IDC machine rooms. When the source demand is an online video and audio integrated streaming service, the system installation structure is based on the database hardware. On cloud and cloud hosts, it is very suitable to provide cloud products. The software logic coordinated implementation module 1 is used to perform cloud product catalogs, service catalogs, and basic executive component module catalogs to integrate content, streaming, interaction, broadband, transmission, and exchange services. The required sub-service basic execution unit functional elements complete the analysis, definition, and collaboration, and further self-learn the production module through recursive stacking units. 5 The dynamic tree-like hierarchical expansion of the data set analysis and design results is output to the software logic coordination execution module 1. Visual product service analysis and design module 3 Product business logic analysis, dynamically build augmentation service supply data through Composite Service Meta Data, and dynamically tag the group information module Linker to produce the specification blocks of product supply specifications. At the same time, according to the time sequence, the blocks and IOs are assembled one by one to provide installation specifications. Grid complete body.

At the same time, the situation, trajectory and history are stored in the remote control wearable control display device 21, and when the same condition situation exceeds the set probability, it will automatically call out and bring out the applicable associated block model mold, and strengthen the flexibility and ductility through the full software logic definition assembly And reuse, real-time, dynamic, hierarchical recursive integration module to assemble product services and value-added services. The object cross-connected component sensing module 7 senses at least one remotely connected device, usage context, service content, and LBS mobile location of the service target object, and actively pushes messages to at least one remotely connected device. Provide the next best problem solving and service delivery to ensure that the service is not interrupted due to the rapid movement of at least one remotely connected device, and that the service is not affected by changing at least one remotely connected device Availability. By implementing the visual product and service analysis design module 3, it is possible to conduct criteria design, management, and update. On the one hand, it fully integrates different node resource service execution component modules within the enterprise, and also external embedded component modules. The development and integration of the full software-defined network for the development of product and service networks promotes faster and more efficient, reaching the goals that were not possible with traditional service installation methods in the past. It solves the problem that components can only be used for a specific purpose for a long time, and cannot cooperate. Difficulties in the agreement.

After a number of customers in different fields request product and service, the domain designer uses the visual product service analysis and 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. Each service station in the center produces a combined service from the service library, rule database, and learning library according to the domain designer. Each service station uses the cloud service foundation to execute the unit catalog through the product catalog and service catalog group, and the scheduling standard Specifications are concatenated and linked to complete the product service network delivery process path map.

The operation of the above software-defined NFV (Network Function Virtualization) service architecture is based on the integration of BPM (Business Process Management) business core processes, the use of business business logic, the use of integrated management, and the call to visual product service analysis and design modules. 3 Definition, modeling, and modeling The service basic execution unit uses the service capabilities of a variety of heterogeneous industry field service basic execution units to drive in parallel and sequentially through an active control connection. Through asynchronous processing and comprehensive analysis, a large amount of matrix data is calculated to obtain the results, and the execution results are passed to BPM business core, BPM business core operation analysis and processing command signaling control Atomic service execution units in various fields, establish sender and receiver packet routing Session (connection dedicated channel), coordinate operation and deal with heterogeneous product service network Field business logic, complete Multi-Device end-to-end one-stop product service path process assembly and installation.

Multi-dimensional analysis of product service network specification dismantling requirements Centralized data analysis of the service host form, location and quantity, function, and IP location and geographic location of the corresponding sub-services and basic service units required for the product service, and then calculating the The location and network service paths of various heterogeneous service hosts are coordinated by software logic to implement module 1. Control the call connection behavior, analyze the user's environment location, and request detailed packet header and agreement action behaviors to further monitor the request connection path. The status of the packet transmission. The analysis of the header of the filtering agreement analyzes and executes the request service, and generates the signaling, data, audio and video streams, and error checking required for the task operation. The dimensional geotopology construction module 9 analyzes the ownership based on the correlation of the foregoing operations, and applies The virtual-real integrated resource management designates at least one local virtual server resource and physical resource Hybrid, which is responsible for continuously correspondingly tracking the virtual private network, dynamic On Demand serving the Tanet customer, and simultaneously starting the object cross-networking intelligent component module 7 for a large number of networks. The circuit component factor detection is used to further adjust the network quality capability based on the measurement results.

Using the object cross-connected intelligent component module 7 to sense the user's environmental network quality, while monitoring network bandwidth appetite and instantaneous flow and Burst Peak (very short-time burst peak), real-time monitoring of interactive dynamic management The connection behavior and vector ascension feature calculation module 10 controls the calculation of the information bit rate per unit time, uses the module component execution unit to dynamically adjust the locality, and encrypts it by using a secure encryption operation method that mixes the reference bits of the stereo image frame in units. transfer. Passed to the BPM business core, the BPM business core calculates and processes the signalling control to coordinate various types of sub-service units, establishes a routing session between the sender and receiver, processes business logic in the product area, and completes a one-stop product service path process for assembly and installation.

The software logic coordinated implementation module 1 further calls the behavior analysis analysis and prediction module 8 through the above-mentioned dimensional model analysis and induction, predicts that the IO interface block method is smoothly transformed into a standard SOA-Based Restful / Jason suite at the same time, and the suite is based on the calling sequence Output to the remote wearable control display device 20, and remotely operate the above-mentioned package to exchange the agreed communication and control signals, so as to improve the performance of multi-heterogeneous system operation, interoperability and cooperation, and speed up the product service network to complete the body link assembly. The invention improves the traditional communication specifications that were difficult to maintain in the past, which is the main difficulty of the current research and development, and reduces the IO handshacking time between systems and reduces the error rate, which greatly helps the development of related industries in the telecommunications field. Especially today, with the rapid change and evolution of multiple business products and service behaviors, the launch of the open and diverse heterogeneous system platform and equipment interoperability and cooperation IO communication derived from the launch of telecommunications business-to-product services that accelerate the processing of complex and huge amounts of information is of great benefit.

Please refer to Figure 2. Inject the following basic execution unit components: 302 service perception, 303 optical cable signal, 304 signaling control, 305 copper signal unit into PlatForm1, 307 containment dispatch, 308 line transfer, and 306 layered traffic matrix into PlatForm2 ; 309 Topological space telescopic injection into PlatForm3, and at the same time establish a process path as shown in the figure, and assemble service units to complete the function of optical copper cable service installation. The service architecture provided by this system invention is introduced with the development of new technology and new service basic execution units. If more suitable component modules are produced and updated sub-service basic execution units are established, or will Function revision and upgrade, or in response to market needs or customer needs or planned function enhancements, the present invention maintains the relative positions of the collaborative blocks facing I / O and implements a visual product service analysis design model by registering sub-service basic execution units. Group 3 links correspond to relationships. The invention is to provide a new generation of network, services, and applications across the digital products that operate across a wide range of products and services. The product service network evolves rapidly. A cluster of fault-tolerant decentralized network service resources is integrated and controlled. Flexible assembly is easy to disassemble and reassemble. Virtualization integration. The implementation will reduce the amount of investment and build a cost-effective integration structure more efficiently, which will help the cooperation and integration of digital applications in key industries in China. Reaching other related heterogeneous cross-domain fusion of distributed heterogeneous multi-network product application services software-defined elastic expansion, which achieves the agreement between the network, fixed network, and open platform architecture, significantly solves the long-standing existing problem that traditional methods cannot effectively integrate and cooperate in the past.

Please refer to Annex 1, which is a schematic diagram of the operation process of the present invention. First, through the designer 411, through the network analysis and design unit 412, the product service network data is inserted into the dimensional geographic topological construction module 9 and the visual product service is used to analyze the design module 3 and the dimensional geographic topological construction module 9 Establish a communication and related logic service model, including data modeling → process modeling → topology modeling → related modeling → service modeling → supply resource modeling → composite component assembly modeling, and analysis of BPM business coordination management process , Through the dimensional geographic topology construction module 9 to search and locate the construction site and the best assembly path from the location of at least one cluster service host to the real-time dynamic position of the signal terminal device (Device) and the pipeline equipment lines, coordinated by software logic The execution module 1 and the remote wearable control display device 21 are driven by data rules to dynamically calculate one or more spatial resource operation combinations. The visual product service analysis design module 3 is used to produce the visual product service network execution unit assembly sequence operation path flow. This path map can be further refined and refined, and the result is output to the remote wearable control display device 20.

After completion, BPM (Business Process Management) stores all the parameters required for operation in the recursive stacking unit self-learning production module 5 to create a Software Defined Logical Modeling Constructor. When BPM is running, it will continuously produce dependent parameters and structured or unstructured data at the same time. Through real-time data topics and specific one or more rule calculations, the feedback analysis and the iterative calculation of the pattern drive flow will be performed. , Adjust the sequence assembly path and its connection, association, I / O interface, and further store these results to the remote wearable control display device 21 for the next step. Please refer to Attachment 1. The core of BPM business transfer will further perform problems during the execution of sub-services and basic services. According to the problem design, a problem-driven model flow (Pattern Driven Flow) will be established, and Recursive Deep Learning Modeling will be used.

Please refer to Annex 5 for an example. According to the behavioral analysis and prediction module 8, the active parameter numerical quantification uses a multi-dimensional three-dimensional model to calculate the relationship coefficient and trend line trend and regional induction convergence analysis. It uses W weight calculation analysis and further uses SVM support vector machine (Support Vector Machine) Machine) establishes an operation model responsible for applying classification models, regression models, and anomaly detection models and function calculations, and then numerically quantifies the three XYZ axes to represent the situation problems of different facets, and deepens the three-dimensional model based on the problem situation analysis to gather inputs A large number of data sets to further diagnose the convergence area, key points, and obstacles of the problem, and use the model of the model to establish the active self-completion problem classification and induction, data input diagnosis, context analysis, and the best solution for wired conditions (Self-Trigger Solving ) To quickly analyze the problem situation of the induction process. Through the parameter matrix and inductive analysis and area convergence, verification operations, determine the cause of the problem and the best solution behavior for problem processing and diagnosis, and apply it to various multi-point construction of the area responsible for optical and copper cable equipment. Problems with Cross Connection, process procedures, corrections, corrections or cancellations, greatly reducing the human and investment costs of manual intervention and erroneous dispatch, secondary dispatch, and repeated dispatch, and improving real-time feedback analysis of the software-defined product service network application execution phase Monitoring mastery and intelligent judgment accuracy, reducing OPEX costs of maintenance and operation manpower required for this product line, using intelligently enhanced models to mold large amounts of data input analysis and multi-generation SDX integration applications of new generation product service networks as recursive stacking units Self-learning production module 5 problem processing, the establishment of the pattern drive (Pattern Driven Flow) is more and more complete, the accuracy is further improved, the scope of automatic intelligent processing is getting larger and larger, the accuracy will also be greatly improved, priority is cited This pattern flow (Pattern Driven Flow) actively completes problem diagnosis, mold building, Analysis of feedstock input, system solutions produced with processing solutions. As the model process becomes more complete, the reliability of this intelligent computing assistance will be significantly improved.

Please refer to Annex 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 extended data links through a multivariate independent variable vector matrix and a dependent variable to form a node and a multi-node (Multi- Node) cross relationship, each node can extend and further access at least one node, through the attributes are related to each other, and the associated attributes are linked to the Node data structure, the normalization of storage and restructuring The data is stored in at least one virtual storage array of the remote wearable control display device 21, and the unstructured data is stored in at least one constellation snowflake data mining structure model storage array. The cube structure data structure is used to achieve multiple hierarchical interlevel attributes. Correlation, use a large amount of data ETL (Extract-Transform-Load) to convert, integrate and improve the quality of large amounts of data, and use the core event data table as the center point to radially extend the related derived data to converge business rules and processing logic Correlation improves access efficiency, greatly reducing the need for data integration The low performance caused by the material table enhances the rapid judgment and definition of the data exploration range for exploration, analysis, induction, and problem diagnosis. Through rapid integrated analysis and multi-angle model optimization to facilitate the sharing of multi-dimensional information, the data is further fed back. To software logic coordinated execution module 1 and recursive stacking unit self-learning production module 5

The invention manages events by driving events and controlling events through an intelligent event management module. In order to achieve process problem analysis and diagnosis, software logic coordinated implementation module 1 and recursive stacking unit self-learning production module 5 software-defined mold modeling to judge and analyze self-discovery and self-solving goals, reduce personnel intervention and then perform problem analysis. Investing in human power costs required for diagnosis. In the present invention, product service requests and access methods of heterogeneous Internet access environments from different user terminals from different parties are classified by tags and attributes according to the hierarchy and attributes, and subsequent analysis is provided. The homogeneous requests are collectively provided by a virtual server group with a specific function. Design management module analysis 3 translation into service, content, network, quality, agreement, customer, obstacle, connection address, connection device, connection level, connection level and other types of parameter rule sets, dynamically dispatched through virtualized resources Application and behavior analysis and prediction module 8 Operational data analysis Real-time calculation of the connection Session connection and environment real-time status and dependent feedback, and then through a large number of situational data collection and analysis further deduced Recursive stacking unit self-learning production model Group 5 expects the conditions to be established, the use status and actions, and the use requirements. It then continues to direct this request to request the execution unit and further establish and refine the learning criteria and execution rule criteria data through the recursive stack unit self-learning production module 5.

The present invention uses the object cross-connected intelligent component module 7 to perceive and detect the environment location and a large amount of space energy status of the object, and feeds it back to the dimensional geotopological construction module 9 and the vector elevation feature calculation module. 10 monitoring can switch between different types of line equipment to connect heterogeneous signals, access through different types of terminal equipment. The system automatically and recursively senses and monitors the user terminal line device, and dynamically calculates the port number, connection point, and line terminal of the walking path from the user's network, measurement station, manhole, and transfer box to the user network, using software-defined analysis (Software Defined Analysis), to deploy related heterogeneous component module collection groups and perform subsequent assembly links, use heterogeneous components to call each other's functions in series, connect and assemble stacked Atomic services to form composite services, and then assemble into more and more complex aggregates. Continuously using assembly links, Atomic services are deployed and executed on a software-defined design content-aware (content-aware) virtual cluster server, which is expanded and implemented as a remote wearable control display device 21 to assign and superimpose at least one cloud virtual resource server according to real-time requirements.

The present invention implements a dimensional geographic topology construction module 9 space operation call dynamic containment line equipment card board port automatic association transfer module 6 uses multi-dimensional space data calculation to perform dynamic line automatic transfer between Rack-Shelf terminal versions (Cross Connect ) Operation, when setting the time scale at the time of opening the network, it is called to use a large amount of multi-dimensional data to design and build the optical copper equipment pipeline circuit resource library. Hierarchical space operation is used to search for the most suitable two-end office equipment, card board, The circuit and even its hierarchical dynamic terminal board positions are used to achieve the minimum consumable wire terminal accommodation and minimum Cross Connect. Through remotely associated flexible assembly and telescoping assembly, the construction staff can reduce the construction energy cost and complete the configuration on the work order. Assigned work item tasks.

Through this mechanism, the accuracy of the construction is improved and the cost of physical wires is reduced, which is actually applied to the digital fusion broadband software-defined integration service. The vector elevation map calculation module 10 uses the geometric vector matrix calculation module to correspond to the dimensional space map data. The calculation service delivers the master-slave multi-node delivery path, and records the equipment, card version, and line used on the path. And other data, and then projected to the earth's second-degree sub-division coordinate system through the dimensional geographic topology school construction module 9 multi-dimensional geographic topology module, using the multi-dimensional geographic topology module and dynamic containment transfer to complete the network connection The content-aware skills of analyzing and analyzing the content with the image, associating and overlaying the required graphics layers to complete the integration of dependent resources for product service delivery

The software logic coordinated application module 1 of the present invention further dispatches the recursive stacking unit self-learning production module 5 and applies the drill-down learning module to the problem situation as the center point diffusion correlation operation, recording each encounter situation and condition, and the model application. Build and integrate the above structure, self-driven conversion through the above module, input a large amount of data according to the aforementioned Pattern Driven Flow, and use it as a model judgment to further reduce the probability of misjudgments and errors. This method is effective Save considerable operation and maintenance costs. The invention implements recursive stacking unit self-learning production module 5 drive service network container carrier operation and configuration settings, each operation must extend the association record, track the results impact key (1) 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 Modular component (10) Refine Vector Matrix, with the accumulation of the sample process quantity collection matrix and the establishment of empirical rule model modeling and induction, the accuracy is improved through repeated refinement of the output, and the core obstacles to more than 80% of the problem cases are properly and correctly analyzed Points, key points, and problem points, without the need for human intervention and judgment, the plant body cross-connected component sensing module 7 outputs to the behavior analysis and prediction module 8 to summarize, and further converges the results and more accurately hits the situation. Then, it will implement the dynamic containment line equipment card board port automatic association transfer module 6 to complete the automatic transfer of the line equipment of the office and the dimensional geotopology construction module 9 production construction drawings and multi-target construction Dispatching, dispatching manpower classes more properly and efficiently, saving considerable manpower expenditures for operation and maintenance. By improving the accuracy of application, reducing the rate of dispatching construction errors and reducing cost waste, it greatly helps to reduce the daily operation and maintenance costs of corporate business. At the same time, the results and process-dependent signals, signaling, trace streams and information are written to the remote wearable control display device 21 corresponding to at least one cluster of virtualized data array hardware units, while storing structured, unstructured, and streaming data and Model process.

The dimensional geographic topological construction module 9 of the present invention further performs the dynamic adjustment of the port line construction, calculates its latitude and longitude address and height after confirming the construction target location point, calculates the supply line and number office, and then calculates the office work in time. Available resources and the best construction splicing point location. Through the real-time sending and feedback of perceived messages, the construction algorithm is used to send construction messages to mobile phone workers. ONU / OLT optical copper conversion is integrated for installation. In the middle pipe sensing element, the available port in the receiving pipe space has been reduced to the previous warning threshold. At this time, the construction location and configuration data are transmitted to the construction personnel's mobile device. The present invention implements a vector ascension feature calculation module 10 to associate optical cables and copper cables with vector ascension diagrams, pipelines, and pipe-in-pipe information, and uses spatial geometric data calculation techniques to place light, copper terminal plates, and junction boxes. , Weak current box, ONU, OLT, optical splitter in series with Cross ConnectionT connection information, through the object cross-networking intelligent component module 7 to detect the latest terminal board feedback to the software logic coordination implementation module 1 to control the critical value of the equipment and send out Timely network element trap alarm, link dispatching resources and dispatch construction energy and output control signals to the dynamic containment line equipment card board port auto-associated transfer module 6 for transmitting messages to the remote construction destination mobile terminal device gesture signal control module 4, through optical coupling, light separation, light switching to change the control of physical hardware equipment facilities. Solve the long-standing problems of the current low utilization rate of optical copper equipment, the uneven distribution of construction, the inaccurate construction costs, and the high cost of installation and immediate feedback. The invention is applied to the control signal of the optical signal of the object network, the control signal of the copper cable circuit, the transmission of the media data or stream of the medium carrier, and the provision of product services and service delivery.

Please refer to Annex 1. The present invention is based on the framework of the International Telecommunications Forum ’s telecommunications field. The company ’s telecommunications field specifications and frameworks are developed through software-defined cooperative interoperability operations to establish models to further optimize and improve the model library. Copper telecommunications products serve network communication specifications to meet the needs of improving the inflexible communication specifications that previously lacked efficiency and quality. For the complicated telecommunications business transformation products and services, the launch of a multi-system platform and equipment to interoperate and communicate with each other will greatly help the dilemma, save a lot of time and investment costs, use software-defined three-dimensional space model modeling, and set up the above system communication specifications.

Use remote wearable control display device 20 to build a model through multi-dimensional hierarchical massive unstructured subject-type data integration analysis to re-integrate each product service, sub-service, value-added application composite bundled service to assemble the data structure, and output the results of multi-dimensional analysis To the behavior analysis and prediction module 8 to perform program flow path operation behavior analysis and prediction, the output is more valuable and feedback to the software logic coordination and execution module 1, adjust and formulate the equipment pipeline circuit card board port multi-style design and construction strategy development marketing forecast and potential Guest module, more accurate estimation of regional user service scheduling to ensure performance quality, precise equipment construction module, and further called remote wearable control display device 21 for parameter, communication, signaling, media media, non-structured data storage

Please refer to Figure 3, continue the above module implementation, and synchronize the output of the results to the software logic and coordinate the implementation module 1. Automatically associate the transfer module 6 by dynamically containing the line device card board port. Scheduling rules and guidelines dynamically arrange and lock the exchange and transmission office. Computer room → Measuring platform → Transmission equipment → Manhole connection → Transfer box-> Customer building → Head box

Connections, lines, coordinated execution module 1 through software logic, call Dimension Geography Topology construction module 9 Path multi-scattering, at least one effective multiple route, with load dispersion, use software logic to coordinate operation module 1 Software-defined mold modeling to improve service assembly The quality and the user's sensitive data depend on the virtual resources for safe and stable isolation. The at least one virtual resource provides subsequent service assembly operations. The service chain and service load usage increase the pressure load during the life cycle of the service, through multiple use experiences and real-time QOS (quality assurance). Feedback and production output to the remote wearable control display device 20. Contexts depend on multiple consecutive times. Seamless cross-network protocol signaling smoothly transfers between heterogeneous services. Cross-networking intelligent component module 7 Depends on user environment context. Sensing and operation device within the tolerance time range to complete the optical copper equipment line signal signaling control and data set matrix smooth transfer across multiple Sender / Receiver device network services, multi-style mobile device APP for remote control and command operation Enter.

However, the start-up, development, integration, and implementation of emerging software-defined services are complicated and tedious, which has led to the establishment of a large number of factories, service providers, cloud application providers, heterogeneous function effect equipment brands, and multi-system and multi-platform service integration. Issues. It takes a lot of time to discuss the use of module components, optimize the interface specifications, and custom specifications with the newly purchased brand SI personnel, equipment vendors, or new interface systems. The discussion and communication research is time-consuming and takes a lot of time. The results are inconclusive, and there is a big difference in the perception of multi-party camps, which cannot narrow the consensus and the division and definition of cross-organizational units. The recursive stacking unit self-learning production module 5 of the present invention continuously drives model elements in an interactive and cooperative manner based on the Restful / JSON / SOA new generation protocol communication operation format, and is established through multi-level layer assembly to complete the service pre-installation process flow path. Dimensional Geographic Topology Construction Module 9 drives the monitoring of Atomic basic service units scattered in various places but connected to each other in the cloud through scaled multi-dimensional spatial map-driven data, and uses IDC (data center) cloud host clusters in various places to complete a decentralized network environment. Configuration settings and network-driven settings are deployed to solve the long-standing problems in the development of the aforementioned product service network.

The present invention completes a product service network through modular components and service basic execution unit IO interface superposition assembly, and is applied to the application of ICT / IOT / cloud intelligent software-defined NFV digital product service next-generation network to master customization After the requirements specifications and communication structure, the first time to implement software logic to coordinate the implementation of module 1 and visual product service analysis design management module 3 software modeling to build a large number of data models and related structures, through a large number of multi-style structure, non-structure data analysis Inductively integrate the above models, and analyze and improve the product service network assembly efficiency, stability, and scalability. Speed up service delivery to at least one gesture. Remotely control the mobile device to receive numerical data on the subject facet and translate the display and operation signaling. At the same time, the gesture signal control module 4 is used to orchestrate the command of the program flow information to transmit or accept control signals / signals and interpret and make timely feedback and induction. In the increasingly competitive telecommunications cross-service market, it is preferred to complete product service assembly and installation. 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 information communication delivery layer, and separately assembles the basic services, sub-services, extended services, associated services, and services in the Request / Product / Network / Composite / Collaboration Layer. After the composite service, group service, and collaboration service are completed, the multi-style heterogeneous basic execution units from the IDC cluster host groups are assembled and produced, and the service functions are assembled and delivered to the Virtual Device Layer gesture remote control terminal. At least one terminal is used by the mobile device for operation. Remote wearable control display device 20 integrates various heterogeneous services through cloud virtualization to provide resources to support virtual and physical operations. Assemble, schedule, and access remote wearable control display device 21 to achieve the goal of cross-domain product network service integration of virtual resources and physical resources. For cross-business product service network integration and cross-platform architecture module components

The invention of this case further completes the analysis of data signaling transmission and reception between the client and the client, and summarizes the requirements for vertical integration of upstream, midstream, and downstream, extending the assembly and forming a complete product service network system, providing streaming services, value-added services, and software control signaling. 3. Delivery and reception of object sensing signal feedback. Through the integration of hierarchical attribute association links, the hierarchical integration delivers application value-added services to at least one gesture remotely controlled mobile device terminal display, operation, and signaling translation, and is applied to the installation of optical and copper cable equipment service network Maintenance and obstacle analysis and inspection and traffic alarms are not restricted by the location of the mobile terminal and the way of connecting to the Internet, driving circuits, gesture operation terminals, effectively reducing customer complaints, improving quality and efficiency, and further improving the traditional supply and maintenance There are many inconveniences such as the limitation of resource scheduling requirements, and an innovative reform and evolution of the country's telecommunications field of multiple and diversified product service networks, reducing the cost of product and service development, increasing the integration efficiency, shortening the time to market, and solving the problem of the current traditional traditional architecture development methods. Breakthrough problems.

Please refer to Annex 2, which is a flow chart of the further detailed operation procedure of the software logic coordinated application module 1 of the present invention. It is a further detailed description of the construction procedure. It is installed using the completed system product service network. After receiving the input message, , Further into the 103 unit visual product service analysis implementation, 104 unit production results are output to multi-dimensional space service map learning analysis, and the results are output to 105 unit theme basic space map data matrix arrangement and deployment, production system partial service execution unit, At the same time, the execution unit integration is injected, and the calculation results of the optical and copper cable circuit ports are further processed through the 106-unit object cross-sensing calculation results, and then the 107-unit basic execution unit assembly operation is completed. Then, the results of the above operations are stored. Unit 108 further performs in-depth analysis of scheduling and delivery of content attribute associations. Unit 109 performs multi-dimensional spatial operations to concatenate the result attributes. At the same time, unit 110 further predicts the behaviors and data corresponding to the service. The model is inductively calculated. After completion, there are no remaining errors. Unit 111 will register and publish the service and link 112 units to produce module components and basic service units. It will provide software logic to coordinate the implementation of module 1 for scheduling and querying. The software logic coordinated execution module 1 of the present invention further uses a relay command generated during the conversion process of the command integration translator. The command is used in the program flow to synchronize the execution of the vector upsampling feature calculation module 10 and the potential signal. Control module, cross-connected intelligent component module of crop plant 7 outputs user behavior analysis and prediction module 8, and uses dynamic containment line equipment card board port to automatically associate the transfer module 6 to perform actions and visual product service analysis and design module 3 to produce The sample making process is output to the remote wearable control display device 20, and after unit 113 completes the spatial map data cross-folding and service unit assembly, it further drives the unit 114 verification process program. Unit 115 is responsible for translating the signaling control vector upscaling feature calculation module 10, gesture signal control module 4, behavior analysis and prediction module 8, object cross-networking intelligent component module 7, dynamic containment during the execution of the process program. Line equipment card board port auto-associated handover module 6, visual product service analysis design module 3, completes the analysis, transmission, transmission and reception of signal control signaling.

Figure 5 is a flowchart of the implementation process of the optical and copper cable equipment line service assembly and installation implementation of the present invention, which is presented by an enumeration implementation list (Annex 3), and the implementation is sequentially returned through the sequence, providing the field PHOSITA based on Make according to the picture. Dimensional Geographic Topology Construction Module 9 uses the present invention to lock one group of construction targets in a multi-level group, and then through the multi-dimensional geometric space vector matrix layer feature calculation, first calculates the production and output central exchange bureau CO 101, and further Calculate 102 OLDF and 103 fiber optic cable connection box terminals by using CO as the three-dimensional center point to associate adjacent space vector matrix maps. Extend the 104 mainline fiber optic cables from the line equipment connected in 103. The geographic topological construction module 9 Then, it is further cross-connected with the object. The smart component module 7 IO interfaces the construction of the three-dimensional spatial telescopic construction of the map layer area, and uses signal signaling to bidirectionally link and feedback to calculate the 105 photochemical transfer box. The dimensional geographic topological construction module 9 of the present invention then further performs a multi-dimensional three-dimensional space and multi-directional telescoping operation on the 105-terminal distribution optical cable set terminal vector matrix to produce a range region jurisdiction 106 distribution optical cable circuit equipment terminal layer. Map materials and hand hole map materials for the centerline of the 107th street, through the positioning of the fiber optic cable area of the 108th street and the box of the 109 building. After the above-mentioned program flow is completed, the dimensional geographic topological construction module 9 of the present invention uses the above model data to further implement the equipment line terminal object end-to-end signal signaling full line test construction 110, if it is analyzed by signaling Then enter the construction process to complete 111. Under the failure of the test communication order verification process, the Dimension Geography Topology Construction Module 9 drives the recursive calculation procedure, returns to the Central Exchange Bureau 101, and repeats the above procedure until the situation conditions are reached. 2. The signaling is parsed correctly and the end-to-end test is successful.

Please refer to Annex 4, which is the dimensional geographic topological construction module of the present invention. 9 Multi-dimensional three-dimensional spatial nesting operation-driven area group spatial operation dependent matrix-based construction program flow. The three-dimensional space digitalized street profile equipment layer map is applied to Various types of heterogeneous equipment lines take the group construction path as the core calculation center. The dimensional geographic topology construction module 9 of the present invention uses software and definitions and a large amount of data structured transformation input analysis. Molding mold multi-dimensional angle analysis summarizes many aspects. Connected Cube relationship attributes, through the above analysis model and structural and non-structural multi-dimensional data analysis and induction conversion, apply software-defined logical management modules to coordinate the best construction procedure flow of construction, based on the three-dimensional spatial data of the overall responsibility area The signal range calculates all the construction targets to be constructed, so that the traditional work order dispatching method with no rules at present can be analyzed and calculated through the system clustering series computing capability of the present invention, and the hierarchical coordinate analysis of the spatial coordinate system of the earth coordinate system and the multi-dimensional multi-point space Cross-attribute correlation best solution to achieve more efficiency The purpose of saving time and manpower, distributing construction energy load more quickly and accurately, and meeting construction requirements more flexibly, the implementation steps are described one by one as follows:

(a) Input the latitude and longitude data of the target installation address to be applied, and simultaneously produce three-dimensional multi-dimensional spatial data. Responsible area ring area. A large number of structured transformation data are analyzed and summarized. An intersection set is generated with the road centerline and labels are embedded in the street profile matrix. A set of connection points is made by overlaying line terminal equipment on the centerline of the road, and connecting these connection points and associated nodes to all targets to be implemented.

(b) Further implement the production process and media medium circuit loop of the space road network at the intersection of the center line of the road, calculate the spatial matrix of the three-dimensional range of the area of responsibility, and output and store it in at least one remote virtual data storage array

(c) The crop plant cross-connected intelligent component module 7 senses the real-time status feedback of nearby objects, uses the above-mentioned responsibility area range street profile matrix to produce a dimensional three-dimensional weight matrix, and connects the above-mentioned association set to establish an association, and outputs storage Virtualize a data storage array on at least one remote

(d) Calculate the latitude and longitude of the target to be applied in the multi-dimensional three-dimensional space weight matrix and calculate the construction energy load in conjunction with the responsibility area of the jurisdiction area, link the relevant construction energy, and output and store it in at least one remote virtualized data storage array

(e) Nesting all target positions to be applied with the starting point of the above-mentioned multi-dimensional solid space weight matrix and the matrix layer of the administrative area and operating unit graphics layer, using the solid space data to calculate the projection coordinate system that is clamped by the positive horizontal line of the X axis is positive The projection angle is counter-clockwise and depends on the second degree of the Die projection coordinate system, and according to the angle obtained above, the required construction information for the construction of the area responsible area and the connection are dispatched in real time.

(f) According to the construction responsibility area of various groups, the detailed vector cable data of the card board port and the cable connection box data is sorted and delivered to the construction output to at least one portable gesture remote control multi-point signal control device to display and accept information feedback. The data layer further overlays the relative position of the center line of the road and the relative coordinates of the line terminal board ports of adjacent street equipment according to the construction path. It is further displayed on at least one portable gesture remote control multi-point signal control device to expand the three-dimensional multi-dimensional matrix layer map. It can be used for proofreading, construction, feedback, finger induction, signal transmission, and signal transmission.

(g) Scheduling a multi-dimensional stereo elevation map of the target group of the construction group, associating the link to the graphic layer feature map of the total box, and receiving the above-mentioned at least one portable gesture remote control multi-point signal control device status, signaling, signal, image, feedback, Complete the software logic coordinated execution module 1 responsible area to send the construction process program operation calculation.

The output assembly system specifications and service module components implemented by the present invention can be applied to misaligned and complex interoperable cooperative relationships between multi-heterogeneous systems and Multi-Cloud Integration product service network installation and resource scheduling provisioning application to create security Quickly and steadily complete the multi-system heterogeneous interbrand agreement cooperation platform architecture. With the development of more and more complete molds and design structures, the evolution of communication specifications in the telecommunications field, and the efficiency of the block-associated IO interface, it provides flexible and rapid integration of deployment standards, sharing, security, de-identification, codec Optimize the key IO communication protocol specifications to further eliminate divergences to speed up the operation of the product service network installation and resource scheduling provisioning settings, improve the integration efficiency of module components and reduce operating and maintenance costs.

The invention is further applied to the commercial transfer of telecommunications applications in banking financial derivative products, automotive automation, ICT integration products and services, smart city Internet of Things IOT field, SINOMACH key disaster early warning field, and provides a new generation of digital innovation and cross-field development. Product service applications, on the one hand, quickly and efficiently integrate network services to provide End to End One-Stop Service, and on the other hand, more efficient hierarchical dynamic On Demand management of the design, construction, layout, and deployment of optical and copper multiple heterogeneous equipment circuits. Registration, virtualization, and cross-cooperation between virtual and physical. By implementing the One-Stop software-defined SDX integration product service network performance improvement, more flexible implementation and advanced control of multiple quality, to achieve the goal of Software Defined Component, increase the scalability and expansion flexibility of product service network architecture integration It will be very beneficial for China to drive and develop the product and service network of the new generation of telecommunication applications after the regulations are complete and complete, leading the current technology in this field to international cooperation.

The invention provides a forward-looking, flexible, diversified, and easy-to-integrate interoperability cooperation mechanism architecture. It is applied to the installation of various brands, systems, platforms, and optical and copper circuit equipment terminal ports and connections and related system operations. It is easier to integrate third-party cooperative vendors. The solution is suitable for multi-style business development applications in the country's telecommunications field, especially for full-service product research and development and system elastic architecture integration in the telecommunications field. The invention is particularly suitable for ICT integration services, smart home smart city IOT development, and national key telecommunications disaster prevention Planning development research, content delivery network (CDN, Content Delivery Network), multimedia on demand (MOD, Multimedia On Demand) service provider system conversion process for installation and collaborative use, compared with the current prior art communication system devices and The data model of the method, the present invention provides a more flexible, efficient, easy-to-use, stable and scalable product service network architecture, which is applied to important broadband, switching, transmission, aggregation, access, and gateway network services in the ultra-high-speed broadband network service industry. Process configuration, scheduling, analysis and actuarial, supply, maintenance, inspection, In addition, through the hierarchical multi-dimensional weight calculation and analysis, compared with the central point, it is concentrated on a single secure entrance IO access point, which further improves the cross-domain service integration and maintenance and quality obstacle analysis of the above-mentioned telecommunication product service network. Inductive performance can be estimated, so it can further save considerable person power and time to face problems. It is especially suitable for the integration and integration of product network services in heterogeneous multiple virtual and real network environments. And the adoption of IPV6 will further exert the overall operation and integration synergy, and lead China's industrial services and related applications in this field to international convergence and international collaboration.

The above detailed description is a specific description of a feasible embodiment of the present invention, but this embodiment is not intended to limit the patent scope of the present invention. Any equivalent implementation or change that does not depart from the technical spirit of the present invention should be included in Within the scope of the patent in this case.

Claims (9)

    A software-defined drive cloud computing network component service assembly system includes: a software logic coordinated execution module for coordinated configuration of connected modules; a remote wearable control display device connected to the software logic coordinated execution module to provide an external user end Wear to operate; visualize product and service analysis and design modules, connect the software logic to coordinate and implement the modules, follow the sequence of the visual basic process sequence, establish and maintain the continuous relationship between the module components and the basic execution unit, and the input of each space cube. Output port interface and link, and output the result to at least one cloud virtualization device; gesture signal control module, connected to the software logic coordination execution module, to detect the gesture signal of the user for operation; return to the stack The unit self-learns the production module, and connects the software logic to coordinate the implementation module, which is used to establish the scenario model process and analysis model modeling, and to repeatedly configure the model process with context analysis and feedback to provide the accuracy of the process configuration; dynamic containment lines The device card port is automatically associated with the transfer module. Connect the software logic coordination execution module to analyze the signal between the device's circuit card board port and the device unit; the object cross-networking intelligent component module is connected to the software logic coordination coordination module to operate the media medium distance detection and integration transfer Analysis, judgment and perception; behavior analysis and prediction module, connected to the software logic coordination execution module, performing data aggregation for prediction and diagnosis; dimensional geographic topology construction module, connected to the software logic coordination coordination module, to drive network services Space equipment circuit topology layer features to calculate geospatial geometric vector non-structural data matrix of geodetic coordinate system; vector elevation feature computing module, connected to the software logic coordinated execution module, and implemented three-dimensional geometric multidimensional vector security encryption Process the set of data bits to manipulate the vector layers and features of the projection system with scale geodetic coordinates; the embedded container cross-service module, connect the software logic to coordinate the implementation module, and drive the input of the host basic service unit in different areas and different locations Output interface links; and fault-tolerant virtual assets Module, connected to the application software for coordinating logic module based at least provide a cluster virtualization hardware and software database unit for storing program flow path tracking process, the interaction between the module data.         The software-defined drive cloud computing network component service assembly system according to claim 1, wherein the remote wearable control display device receives at least one of the thermal sensing operation information and the finger space operation information from the user for operation.         The software-defined drive cloud computing network component service assembly system according to claim 1, wherein the visualized product service analysis and design module receives visual graphic operation information inputted by a flow program path for operation.         The software-defined-driven cloud computing network component service assembly system described in claim 1, wherein the recursive stack unit self-learning production module uses SOA-based Jason / Resultful communication protocol for communication.         The software-defined drive cloud computing network component service assembly system as described in claim 1, wherein the dynamically accommodating line device card board port auto-associated transfer module analyzes the device line card board port of the optical cable and copper cable device line .         The software-defined drive cloud computing network component service assembly system described in claim 1, wherein the physical cross-connected intelligent component module detects the real-time status and signal transmission of the transmission layer nodes and objects through signals to determine the object feedback signals.         The software-defined driven cloud computing network component service assembly system according to claim 1, wherein the behavior analysis and 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 Prediction and diagnosis.         The software-defined drive cloud computing network component service assembly system as described in claim 1, wherein the dimensional geographic topology construction module further calculates the attribute relationship between objects based on the spatial correlation overlay, and calculates and analyzes the pre-construction Responsible area jurisdiction energy and at least one specific target three-dimensional space area jurisdiction responsibility area multi-point distribution process procedure, and continuously calculates the accuracy of the above calculation and the object itself or the space vector data between the objects needed to operate at the time of construction .         The software-defined driving cloud computing network component service assembly system as described in claim 1, wherein the vector elevation feature computing module compares and compares the operation data of the operation space stored in the multidimensional three-dimensional space facet data matrix with Attribute correlation, analysis of adjacent three-dimensional nodes, and analysis of irregular three-dimensional spatial overlay calculations in real time to determine the status of the construction site in real time and receive feedback signaling, streaming, and optical copper carrier signals and transmit them to the software logic to coordinate the execution module.