CN111106968A - Method for constructing information communication intelligent dispatching command sand table - Google Patents

Abstract

The invention belongs to the technical field of information communication intelligent dispatching and commanding, and particularly relates to a method for constructing an information communication intelligent dispatching and commanding sand table. The invention collects the communication information to manage the online communication platform and version; arranging communication data, and taking the data as a driving source to realize automatic drawing; integrating the architecture diagram and the operation and maintenance data to provide one-stop information service; setting an incidence relation between the configuration object and the framework diagram, and establishing connection between the diagram and the framework diagram; an integrated theme application is built, and the operation and maintenance management efficiency is improved; and the lean management of asset configuration is completed by adopting an integrated mode of an asset configuration database and resource management. The intelligent regulation and control and lean management scene of the invention should run through the complete life cycle of IT operation and maintenance management, and play a fundamental role in each stage of planning and design, operation service, emergency treatment, analysis and optimization, etc., so as to meet the business requirements and improve the management efficiency.

Description

Method for constructing information communication intelligent dispatching command sand table

Technical Field

The invention belongs to the technical field of information communication intelligent dispatching and commanding, and particularly relates to a method for constructing an information communication intelligent dispatching and commanding sand table.

Background

In the information communication scheduling work, the operation and maintenance integrated scheduling operation support platform cannot provide flexible, visual and good visual effect system architecture display, and often needs to be specially designed and developed to perform simulation demonstration, and leaders cannot comprehensively and real-timely see the 'overview' and 'venation' of each layer of IT application through the platform, so that the system cannot assist decision makers to perform overall rapid decision analysis. The equipment assets in the data center are large in quantity and variety, the collection and global management complexity of asset information of the operation and maintenance integrated dispatching operation support platform is high, the equipment positioning and query are not friendly, the information transmission efficiency is low, and an effective information transmission means is lacked for the capacity condition of a machine room. The monitoring information is displayed in a simple text and form mode, and position sense and global sense are lacked, so that data center resources cannot be managed in an lean mode. Under the form background, the invention provides a method for intelligently regulating and controlling information communication based on big data and carrying out lean management to focus IT architecture diagram management and resource management and control, realizes centralized management of the IT architecture diagram through online technical research, comprehensively improves the accuracy and the use value of the IT architecture diagram by adopting digital-graphic linkage, effectively keeps the architecture information assets of the stock, helps an IT team establish a more intuitive, comprehensive and accurate IT environment with complex cognition, and improves the cognitive efficiency of IT management. Meanwhile, by combining a virtual reality technology, six-level full three-dimensional browsing and full mouse operation of a data center floor, a machine room, a machine cabinet group, a machine cabinet, equipment and a port are realized in a three-dimensional visual management environment, and the three-dimensional visual management environment is integrated with a monitoring management tool, so that an information communication intelligent regulation and control and lean management operation and maintenance management tool based on a big data technology is really created. The intelligent information communication regulation and control and lean management technology based on the big data technology can provide six key capabilities, namely centralized online management, data-driven automatic drawing, one-stop information presentation, flexible view combination and drilling, rich theme application and 3D resource management and control application.

Disclosure of Invention

The method for constructing the intelligent dispatching and commanding sand table for the information communication aims at the problems that faults and influence ranges in the technical field of intelligent dispatching and commanding for the information communication cannot be judged quickly, service architectures cannot be presented globally, resources of a data center cannot be managed in a lean mode and the like.

In order to achieve the purpose, the invention adopts the following technical scheme:

a method for constructing an information communication intelligent dispatching command sand table; comprises the following steps:

step 1, collecting communication information, and managing an online communication platform and a version in a centralized manner;

step 2, arranging communication data, and taking the data as a driving source to realize automatic drawing;

step 3, integrating the architecture diagram and the operation and maintenance data and providing one-stop information service;

step 4, setting the incidence relation between the configuration object and the framework diagram, and establishing the connection between the diagram and the framework diagram;

step 5, building an integrated theme application, and improving the operation and maintenance management efficiency;

and 6, completing lean management of asset configuration by adopting an asset configuration database and resource management integrated mode.

Further, the specific method for collecting the communication information and centrally managing the online communication platform and the version in step 1 is as follows: the method comprises the steps of acquiring a data transmission rule by monitoring the flow of data, analyzing a data source and a destination by combining a big data technology, collecting parameter information of data transmission and distributing weight; the IT architecture diagrams scattered in different departments and different personnel are uniformly transferred to a system for centralized management according to information weight, the centralized management of different versions of the same diagram is realized by using a strong integrated management function, and a user can very conveniently check the version evolution history of the IT architecture diagrams and can trace back to a certain specific version of the history; on the basis of centralized management of the IT architecture diagrams, the method provides convenient and fast architecture diagram searching capability for users, and the users can search the needed architecture diagrams by one key in a CI mode, so that the IT architecture diagrams can be reached by the users.

Still further, the specific method for arranging the communication data in step 2 and using the data as a driving source to realize automatic drawing includes: the method comprises the steps of positioning and acquiring data streams regularly, determining data flow characteristics through qualitative and quantitative analysis, distributing data flow weight according to the characteristics, distributing bandwidth according to the weight, and ensuring that important data are updated preferentially and fed back to a visual view; and according to the feedback result, a real-time changing visual view can be automatically generated by combining the configuration parameters of the prefabricated template. The information in the framework diagram approaches to the real data, even completely conforms to the real data, thereby directly improving the usability of the IT framework diagram.

Furthermore, the specific method for providing a one-stop information service by integrating the architecture diagram and the operation and maintenance data in the step 3 is as follows: the architecture diagram and the operation and maintenance data are organically integrated, various operation and maintenance data which are originally dispersed in different departments, different tools and different systems for configuration, alarm, performance, work orders and plans are gathered on the architecture diagram, one-stop information service is provided for IT operation and maintenance work in a digital-diagram linkage mode, an IT architecture is clear and visible, the operation and maintenance data are accessible, accurate and credible, and therefore the use scene of the architecture diagram can be effectively expanded, and the use value of the architecture diagram is improved. The defects that information on a traditional IT framework is often only provided with icons, connecting lines, brief text labels and the like are overcome.

Furthermore, the step 4 sets the association relationship between the configuration object and the framework graph, and the specific method for establishing the connection between the graph and the framework graph is as follows: and (3) setting the relationship between the configuration object and the framework diagram as an additional attribute according to the various operation and maintenance data information obtained in the step (3) and a relationship mode, storing the additional attribute, visualizing the additional attribute by using a knowledge graph, analyzing deep-level relation between the relationships by using big data and a machine learning method, obtaining the relation weight between the objects, connecting the graph and the diagram according to the weight, and labeling the connection attribute.

Furthermore, an integrated theme application is built in the step 5, and a specific method for improving the operation and maintenance management efficiency is as follows: the method has the advantages that various operation and maintenance information of configuration, performance, alarm and work orders dispersed in different management tools are gathered based on the architecture diagram, real-time operation and maintenance information is dynamically presented on the architecture diagram in a digital-graph linkage mode, a user can see detailed configuration information on the diagram, the latest index state and alarm events can be grasped clearly, fault units can be positioned quickly and accurately for communication scheduling personnel, and operation and maintenance efficiency is improved. The IT architecture is combed around the core application, the calling relations of all levels of IT components and cross-application systems depended on by the system are clearly reflected, an access relation architecture diagram from the global business to the specific business, a dependency relation architecture diagram from a basic resource layer to an application access layer and an operation and maintenance situation overview diagram from macroscopic operation and maintenance to the specific resource are formed, the fault influence analysis and fault positioning management capabilities are improved, and the business global situation is presented through the application panoramic wall. And showing the layout and the equipment of the data center machine room in a panoramic form, and realizing lean management of the equipment in a monitoring scene. The capacity management of a data center machine room with a cabinet as a unit is realized, the capacity information of the cabinet such as space, electric power, bearing and the like is counted and displayed, and the capacity information is integrated with a monitoring system, so that the real-time monitoring of the performance and the alarm of equipment is realized. Thereby improving the operation and maintenance management efficiency.

Furthermore, the step 6 adopts an integration mode of asset configuration database and resource management, and the specific method for completing lean management of asset configuration is as follows: integrating and coding the alarm data, the performance data and the work order data into a space vector; and classifying the space vectors by adopting logistic regression analysis, and performing further detailed classification in each category by using a deep learning framework Caffe. And according to the classification result, the intrinsic relation between the data can be obtained. And then, carrying out limited coding, determining the criticality of the contact, and recording the criticality in a relational database. When the data volume of the relational database reaches the degree N, the basic configuration information of each infrastructure, cabinet and equipment in the cabinet can be brought into the big data analysis NDC server in a mode of integrating other asset configuration databases or resource management systems, so that the related configuration information can be found through any physically visible equipment, and the related equipment can also be found through any piece of configuration information, thereby completing asset configuration lean management.

Compared with the prior art, the invention has the following advantages:

the current problems that faults and influence ranges cannot be judged quickly, service architectures cannot be presented comprehensively, and data center resources cannot be managed in an lean mode are solved, an intelligent regulation and control and lean management scene needs to run through the complete life cycle of IT operation and maintenance management, the basic effect is played in each stage of planning and designing, operation service, emergency treatment, analysis and optimization and the like, service requirements are met, and management efficiency is improved.

The traditional drawing tool mainly draws the architecture diagram in a manual mode, is low in efficiency, and has the larger problem that the architecture diagram and operation and maintenance data are split. Today, the IT environment is continuously and rapidly updated, the phenomenon of information asynchronism often occurs in the same data, information in the framework diagram is seriously lagged behind real data, and even completely separated from the real data, so that the usability of the IT framework diagram is directly influenced. The intelligent information communication regulation and control and lean management application based on the big data technology provides strong data-driven generation of the architecture diagram, views can be automatically generated according to configuration and templates, the topological relation in the views can be updated in real time according to data changes, and the topology architecture diagram based on the latest data of a user is provided in time. The data-driven automatic drawing capability greatly improves the production efficiency of the IT architecture diagram, and more importantly, the architecture diagram drawn by the information communication intelligent control and lean management application based on the big data technology is linked by a plurality of diagrams, the diagrams are always consistent with actual operation and maintenance data, and the accuracy and the credibility of the IT architecture diagram are guaranteed from the production source of the architecture diagram. Information on a traditional IT framework is limited and thin, and often only icons, connecting lines, brief text labels and the like exist. The intelligent information communication regulation and control and lean management application based on the big data technology can organically integrate the architecture diagram and the operation and maintenance data, and can converge various operation and maintenance data which are originally dispersed in different departments, different tools and different systems, such as configuration, alarm, performance, work orders, plans and the like onto the architecture diagram, so that one-stop information service is provided for IT operation and maintenance work in a digital-graph linkage mode, the IT architecture is clear and visible, the operation and maintenance data is accessible, accurate and credible, the use scene of the architecture diagram can be effectively expanded, and the use value of the architecture diagram is improved. The architecture diagram can play a more important role, such as in capacity planning, fault analysis, management coverage analysis, etc. Based on the requirement analysis of the core application carding IT framework, researching and designing various levels of IT components which clearly reflect the dependence of the system and the calling relation of the cross-application system; researching and designing an access relation architecture diagram from the global service to the specific service; researching and designing a dependency architecture diagram from a basic resource layer to an application access layer; researching and designing an overview of operation and maintenance situation from macro operation and maintenance to specific resources; research and design improve the fault influence analysis and fault positioning management capability; research designs present business global situation through the application of panoramic walls ("sand tables").

Drawings

Fig. 1 is a T3D plug-in diagram.

Detailed Description

Example 1

The scheme is applied to a local area network information communication system for simulation test:

the invention relates to a multi-platform information communication intelligent dispatching command technology, in particular to a platform management integration technology based on a big data technology, which comprises the following specific steps:

step 1, acquiring a data transmission rule by monitoring data flow, analyzing a data source and a data destination by combining a big data technology, collecting parameter information of data transmission and distributing weight. The IT architecture diagrams scattered in different departments and different personnel are uniformly transferred to a system for centralized management according to the information weight, the centralized management of different versions of the same diagram is realized by using a strong integrated management function, and a user can very conveniently check the version evolution history of the IT architecture diagrams and can trace back to a certain specific version of the history. On the basis of centralized management of the IT architecture diagrams, the method provides convenient and fast architecture diagram searching capability for users, and the users can search the needed architecture diagrams by one key in a CI mode, so that the IT architecture diagrams can be reached by the users.

And 2, positioning and acquiring data streams regularly, determining data flow characteristics through qualitative and quantitative analysis, distributing data flow weights according to the characteristics, distributing bandwidth according to the weights, and ensuring that important data are updated preferentially and fed back to a visual view. And according to the feedback result, a real-time changing visual view can be automatically generated by combining the configuration parameters of the prefabricated template. The information in the framework diagram approaches to the real data, even completely conforms to the real data, thereby directly improving the usability of the IT framework diagram.

And 3, organically integrating the architecture diagram with the operation and maintenance data, converging various operation and maintenance data which are originally dispersed in different departments, different tools, different systems and the like on the architecture diagram, providing one-stop information service for IT operation and maintenance work in a digital-graph linkage mode, enabling an IT architecture to be clear and visible, enabling the operation and maintenance data to be accessible, accurate and credible, and therefore effectively expanding the use scene of the architecture diagram and improving the use value of the architecture diagram. The defects that information on a traditional IT framework is often only provided with icons, connecting lines, brief text labels and the like are overcome.

And 4, setting the relationship between the configuration object and the frame diagram according to a certain relationship mode according to the information obtained in the step 3, storing the relationship as an additional attribute, visualizing the additional attribute by using a knowledge graph, analyzing deep-level relationship between the relationships by using big data and a machine learning method, obtaining the relationship weight between the objects, connecting the graph and the diagram according to the weight, and labeling the connection attribute.

And step 5, various operation and maintenance information such as configuration, performance, alarm, work orders and the like scattered in different management tools are gathered based on the architecture diagram, real-time operation and maintenance information is dynamically presented on the architecture diagram in a digital-graph linkage mode, a user can see detailed configuration information on the diagram, the latest index state and alarm events can be grasped clearly, fault units can be positioned quickly and accurately for communication scheduling personnel, and operation and maintenance efficiency is improved. The IT architecture is combed around the core application, the calling relations of all levels of IT components and cross-application systems depended on by the system are clearly reflected, an access relation architecture diagram from the global business to the specific business, a dependency relation architecture diagram from a basic resource layer to an application access layer and an operation and maintenance situation overview diagram from macroscopic operation and maintenance to the specific resource are formed, the fault influence analysis and fault positioning management capabilities are improved, and the business global situation is presented through the application panoramic wall. And showing the layout and the equipment of the data center machine room in a panoramic form, and realizing lean management of the equipment in a monitoring scene. The capacity management of a data center machine room with a cabinet as a unit is realized, the capacity information of the cabinet such as space, electric power, bearing and the like is counted and displayed, and the capacity information is integrated with a monitoring system, so that the real-time monitoring of the performance and the alarm of equipment is realized. Thereby improving the operation and maintenance management efficiency.

And 6, integrating and coding the alarm data, the performance data and the work order data into a space vector. These vectors are classified using logistic regression analysis. In each category, a deep learning framework Caffe is used for further detailed classification. According to the classification result, the internal relation between the data can be obtained or obtained. And carrying out limited coding on the contacts, determining the criticality of the contacts, and recording the criticality in a relational database. When the data volume of the relational database reaches a certain degree N, the basic configuration information of each infrastructure, cabinet and equipment in the cabinet can be brought into the big data analysis NDC server in a mode of integrating other asset configuration databases or resource management systems, so that the related configuration information can be found through any physically visible equipment, and the related equipment can also be found through any piece of configuration information, thereby completing the lean management of asset configuration.

Example 2

The scheme is applied to the local area network information communication system for online use:

the invention relates to a multi-platform information communication intelligent dispatching command technology, in particular to a platform management integration technology based on a big data technology, which comprises the following specific steps:

step 1, acquiring a data transmission rule by monitoring data flow, analyzing a data source and a data destination by combining a big data technology, collecting parameter information of data transmission and distributing weight. The IT architecture diagrams scattered in different departments and different personnel are uniformly transferred to a system for centralized management according to the information weight, the centralized management of different versions of the same diagram is realized by using a strong integrated management function, and a user can very conveniently check the version evolution history of the IT architecture diagrams and can trace back to a certain specific version of the history. On the basis of centralized management of the IT architecture diagrams, the method provides convenient and fast architecture diagram searching capability for users, and the users can search the needed architecture diagrams by one key in a CI mode, so that the IT architecture diagrams can be reached by the users.

And 2, positioning and acquiring data streams regularly, determining data flow characteristics through qualitative and quantitative analysis, distributing data flow weights according to the characteristics, distributing bandwidth according to the weights, and ensuring that important data are updated preferentially and fed back to a visual view. And according to the feedback result, a real-time changing visual view can be automatically generated by combining the configuration parameters of the prefabricated template. The information in the framework diagram approaches to the real data, even completely conforms to the real data, thereby directly improving the usability of the IT framework diagram.

And 3, organically integrating the architecture diagram with the operation and maintenance data, converging various operation and maintenance data which are originally dispersed in different departments, different tools, different systems and the like on the architecture diagram, providing one-stop information service for IT operation and maintenance work in a digital-graph linkage mode, enabling an IT architecture to be clear and visible, enabling the operation and maintenance data to be accessible, accurate and credible, and therefore effectively expanding the use scene of the architecture diagram and improving the use value of the architecture diagram. The defects that information on a traditional IT framework is often only provided with icons, connecting lines, brief text labels and the like are overcome.

And 4, setting the relationship between the configuration object and the frame diagram according to a certain relationship mode according to the information obtained in the step 3, storing the relationship as an additional attribute, visualizing the additional attribute by using a knowledge graph, analyzing deep-level relationship between the relationships by using big data and a machine learning method, obtaining the relationship weight between the objects, connecting the graph and the diagram according to the weight, and labeling the connection attribute.

And step 5, various operation and maintenance information such as configuration, performance, alarm, work orders and the like scattered in different management tools are gathered based on the architecture diagram, real-time operation and maintenance information is dynamically presented on the architecture diagram in a digital-graph linkage mode, a user can see detailed configuration information on the diagram, the latest index state and alarm events can be grasped clearly, fault units can be positioned quickly and accurately for communication scheduling personnel, and operation and maintenance efficiency is improved. The IT architecture is combed around the core application, the calling relations of all levels of IT components and cross-application systems depended on by the system are clearly reflected, an access relation architecture diagram from the global business to the specific business, a dependency relation architecture diagram from a basic resource layer to an application access layer and an operation and maintenance situation overview diagram from macroscopic operation and maintenance to the specific resource are formed, the fault influence analysis and fault positioning management capabilities are improved, and the business global situation is presented through the application panoramic wall. And showing the layout and the equipment of the data center machine room in a panoramic form, and realizing lean management of the equipment in a monitoring scene. The capacity management of a data center machine room with a cabinet as a unit is realized, the capacity information of the cabinet such as space, electric power, bearing and the like is counted and displayed, and the capacity information is integrated with a monitoring system, so that the real-time monitoring of the performance and the alarm of equipment is realized. Thereby improving the operation and maintenance management efficiency.

And 6, integrating and coding the alarm data, the performance data and the work order data into a space vector. These vectors are classified using logistic regression analysis. In each category, a deep learning framework Caffe is used for further detailed classification. According to the classification result, the internal relation between the data can be obtained or obtained. And carrying out limited coding on the contacts, determining the criticality of the contacts, and recording the criticality in a relational database. When the data volume of the relational database reaches the degree N, the basic configuration information of each infrastructure, cabinet and equipment in the cabinet can be brought into the big data analysis NDC server in a mode of integrating other asset configuration databases or resource management systems, so that the related configuration information can be found through any physically visible equipment, and the related equipment can also be found through any piece of configuration information, thereby completing asset configuration lean management.

As shown in fig. 1, an integrated operation and maintenance integrated scheduling operation support platform (SG-I6000) automatically generates an architecture diagram, develops using C + +, and reports the rendering performance of a core rendering engine. JavaScript is used as a scripting language at the logic script layer, a browser is used for carrying out JavaScript development and debugging, a JavaScript V8 engine built in T3D can be used for issuing and running to achieve the running speed of the top-level script, the rendering performance of a core rendering engine is guaranteed at the same time, the JavaScript is used as the scripting language at the logic script layer, the browser can be used for carrying out JavaScript development and debugging, the JavaScript V8 engine built in T3D can be used for issuing and running to achieve the running speed of the top-level script.

TABLE 1 comparison of usage results of different domains

From the comparison, the invention has good practicability. The technology can improve the operating efficiency of the information communication system platform no matter in a local area network or the Internet. The effects of intelligent regulation and control and lean management of information communication based on big data technology are determined by the management operation surface presented to a user to a great extent, new technologies such as intelligent regulation and control, lean management and intelligent analysis are incorporated into a management system, the viscosity of the system is enhanced, and the use effect is ensured.

Aiming at the problems that faults and influence ranges cannot be judged quickly, service architectures cannot be presented comprehensively and data center resources cannot be managed in an lean mode at present, an intelligent regulation and control and lean management scene should run through the complete life cycle of IT operation and maintenance management, and the intelligent regulation and control and lean management scene plays a basic role in each stage of planning and design, operation service, emergency treatment, analysis and optimization and the like, deals with service requirements and improves management efficiency.

Claims (7)

1. A method for constructing an information communication intelligent dispatching command sand table is characterized by comprising the following steps: comprises the following steps:

step 1, collecting communication information, and managing an online communication platform and a version in a centralized manner;

step 2, arranging communication data, and taking the data as a driving source to realize automatic drawing;

step 3, integrating the architecture diagram and the operation and maintenance data and providing one-stop information service;

step 4, setting the incidence relation between the configuration object and the framework diagram, and establishing the connection between the diagram and the framework diagram;

step 5, building an integrated theme application, and improving the operation and maintenance management efficiency;

and 6, completing lean management of asset configuration by adopting an asset configuration database and resource management integrated mode.

2. The method for constructing the intelligent dispatching command sand table for information communication according to claim 1, wherein the method comprises the following steps: the specific method for collecting the communication information and managing the online communication platform and the version in a centralized manner in the step 1 is as follows: the method comprises the steps of acquiring a data transmission rule by monitoring the flow of data, analyzing a data source and a destination by combining a big data technology, collecting parameter information of data transmission and distributing weight; and uniformly migrating the IT architecture diagrams scattered in different departments and different hands of individuals to a system for centralized management according to the information weight.

3. The method for constructing the intelligent dispatching command sand table for information communication according to claim 1, wherein the method comprises the following steps: the specific method for arranging the communication data in the step 2 and taking the data as a driving source to realize automatic drawing comprises the following steps: the method comprises the steps of positioning and acquiring data streams regularly, determining data flow characteristics through qualitative and quantitative analysis, distributing data flow weight according to the characteristics, distributing bandwidth according to the weight, and ensuring that important data are updated preferentially and fed back to a visual view; and according to the feedback result, a real-time changing visual view can be automatically generated by combining the configuration parameters of the prefabricated template.

4. The method for constructing the intelligent dispatching command sand table for information communication according to claim 1, wherein the method comprises the following steps: the specific method for integrating the architecture diagram and the operation and maintenance data in the step 3 to provide one-stop information service comprises the following steps: the architecture diagram and the operation and maintenance data are organically integrated, various operation and maintenance data which are originally dispersed in different departments, different tools and different systems for configuration, alarm, performance, work orders and plans are gathered on the architecture diagram, and one-stop information service is provided for IT operation and maintenance work in a digital-graph linkage mode.

5. The method for constructing the intelligent dispatching command sand table for information communication according to claim 1, wherein the method comprises the following steps: the step 4 of setting the incidence relation between the configuration object and the framework diagram, and the specific method of establishing the connection between the diagram and the framework diagram is as follows: and (3) setting the relationship between the configuration object and the framework diagram as an additional attribute according to the various operation and maintenance data information obtained in the step (3) and a relationship mode, storing the additional attribute, visualizing the additional attribute by using a knowledge graph, analyzing deep-level relation between the relationships by using big data and a machine learning method, obtaining the relation weight between the objects, connecting the graph and the diagram according to the weight, and labeling the connection attribute.

6. The method for constructing the intelligent dispatching command sand table for information communication according to claim 1, wherein the method comprises the following steps: in the step 5, an integrated theme application is built, and the specific method for improving the operation and maintenance management efficiency is as follows: the method comprises the steps that various operation and maintenance information of configuration, performance, alarm and work orders which are dispersed in different management tools are gathered based on an architecture diagram, real-time operation and maintenance information is dynamically presented on the architecture diagram in a digital-graph linkage mode, an IT architecture is combed around a core application, an access relation architecture diagram from a global service to a specific service, a dependency relation architecture diagram from a basic resource layer to an application access layer and an operation and maintenance situation overview diagram from macroscopic operation and maintenance to specific resources are formed, fault influence analysis and fault positioning management capabilities are improved, and a service global situation is presented through an application panoramic wall; showing the layout and equipment of a data center machine room in a panoramic form, and realizing lean management of the equipment in a monitoring scene; the capacity management of a data center machine room with a cabinet as a unit is realized, the capacity information of the cabinet such as space, electric power, bearing and the like is counted and displayed, and the capacity information is integrated with a monitoring system, so that the real-time monitoring of the performance and the alarm of equipment is realized.

7. The method for constructing the intelligent dispatching command sand table for information communication according to claim 1, wherein the method comprises the following steps: the specific method for completing lean management of asset allocation by adopting an asset allocation database and resource management integrated mode in the step 6 is as follows: integrating and coding the alarm data, the performance data and the work order data into a space vector; classifying the space vectors by using logistic regression analysis; in each category, a deep learning framework Caffe is used for further detailed classification; according to the classification result, the internal relation between the data can be obtained, then limited coding is carried out, the key degree of the relation is determined, and the key degree is recorded in a relational database; when the data volume of the relational database reaches the degree N, the basic configuration information of each infrastructure, cabinet and equipment in the cabinet can be brought into the big data analysis NDC server in a mode of integrating other asset configuration databases or resource management systems, and asset configuration lean management is completed.

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