CN109889358B - 3D visual IT monitoring management system - Google Patents

Abstract

The invention discloses a 3D visual IT monitoring management system, which comprises a 3D visual system and a monitoring module, wherein the monitoring module is used for monitoring the operation conditions among a machine room, a machine room unit, an equipment unit and a connecting link; the acquisition module is used for acquiring the monitoring data of the monitoring module in real time; storing the acquired monitoring data into a preset database, finding a safety level mark corresponding to a preset threshold value where the monitoring data is located, and storing the safety level mark into the database; loading a 3D engine module and a visualization engine module through a loading module, and respectively presenting monitoring data through the 3D visualization module, the GIS visualization module and a framework visualization module; and generating a safety grade data report by calling a safety threshold value contained in the 3D visualization module, the GIS visualization module and the framework visualization module, and carrying out alarm display on abnormal data points in the safety grade data report.

Description

3D visual IT monitoring management system

Technical Field

The invention relates to the technical field of electronic information, in particular to a 3D visual IT monitoring management system.

Background

At present, machine room networks are managed in a layered mode at the current stage, the machine room networks are managed in a layered mode at the current stage along with the fact that an intelligent developer is insufficient, the machine room networks are managed in a layered mode at the current stage along with the fact that the intelligent developer is insufficient, the corresponding information network operation and maintenance systems are in a state of being in service in a single industry in a variety, the corresponding information network operation and maintenance systems are in a state of being in service in the single industry in a variety, and the corresponding information network operation and maintenance systems are in service in the single industry in a variety, and effective decoupling cannot be achieved. The traditional information system is oriented to business requirements, the problem that massive information data cannot be subjected to effective analysis and utilization in repeated construction and waste is solved, the problem that massive information data cannot be subjected to effective analysis and utilization in future intensive large scheduling management mode requirements is solved, and the outstanding problems are as follows:

1) the existing information system and operation and maintenance support are generally based on a single service target, mostly data service targets, mostly databases, chart characters and two-dimensional network topology, only weak connection libraries, chart characters and two-dimensional network topology exist among different services, only weak connection exists among different services, visual management connection is difficult to realize, visual management and analysis are difficult to realize, and the data volume after intensive management is increased by the existing analysis, so that the production management requirements can not be met;

2) the communication resource system is based on manual table look-up, cannot meet the requirement of large-scale increase of the communication resource system under the intensive management background, and cannot meet the requirement of large-scale increase of service support capacity under the intensive management background;

3) the province and city departments of the existing alarm monitoring system are constructed dispersedly, cross-professional and cross-system correlation analysis application on the whole province level cannot be supported, and quick tracing and fault positioning of whole network alarm cannot be realized.

For a long time, due to the limitation of system implementation technology and operation and maintenance management concept, the system construction for supporting the operation and maintenance management of the machine room network operation and support machine room network basically takes professional functions as the center, so that a large number of professional operation and maintenance management systems, sub-function operation and maintenance management systems and sub-management domain operation and maintenance management systems are generated, a large number of operation and maintenance data islands are generated, a large number of operation and maintenance personnel are required to be configured for using the system, and the comprehensive benefit of a large number of scattered operation and maintenance data is severely restricted from being exerted. Meanwhile, with the introduction of a new network technology, the proposal of a new service requirement and the construction of a new operation and maintenance management system, operation and maintenance data can be continuously split and increased, precious data cannot be subjected to asset transformation, the income of the operation and maintenance support system is low, and even the phenomenon of informatization overload becomes increasingly prominent.

On the other hand, as the machine room network is distributed with a transmission network and a data network of the whole province, the management of machine rooms such as a large number of lines, equipment, transformer substations and the like is involved, once problems occur in the daily operation and maintenance process, the analysis and troubleshooting are carried out by means of a large number of geographic information, equipment information and monitoring systems and interconnection and intercommunication information, the information is dispersed in each tool at present, the network is presented in a topological form to effectively assist in analysis, the maintenance and management of the communication network architecture diagram is simultaneously a huge problem, the information quantity of one large diagram is large, the plurality of diagrams are difficult to search, in addition, a backup redundancy mechanism is arranged on each link and each port of each equipment, the related physical location and the supported service information are also different, so that the information of a plurality of latitudes needs to be integrated into one view, the method has practical importance and urgency for daily operation and maintenance management of the communication network.

Therefore, research on a communication intensive management system with provincial and local coordination is needed to be carried out, and a theoretical basis is laid for constructing an intensive communication operation and maintenance management framework. Meanwhile, a three-dimensional visualization scheme suitable for the field of machine rooms is selected by utilizing a three-dimensional modeling interactive linkage presentation technology, and the key technology research of the communication command cockpit is developed.

Disclosure of Invention

The invention aims to solve one or more of the defects and designs a 3D visual IT monitoring and management system.

In order to realize the purpose, the technical scheme is as follows:

A3D visualization IT monitoring management system comprises a 3D visualization system, wherein the 3D visualization system comprises a 3D visualization module, a GIS visualization module and a framework visualization module, the 3D visualization module, the GIS visualization module and the framework visualization module are respectively connected with a 3D engine module and a visualization engine module, the 3D visualization system is further provided with a loading module, a processing module and an interface module, and the interface module is connected with an equipment unit;

the monitoring module is used for monitoring the operation conditions among the machine room, the machine room units, the equipment units and the connecting links;

the acquisition module is used for acquiring the monitoring data of the monitoring module in real time;

storing the acquired monitoring data into a preset database,

finding a safety level mark corresponding to a preset threshold value where the monitoring data are located, and storing the safety level mark into the database;

the method comprises the steps that a 3D engine module and a visual engine module are loaded through a loading module, and monitoring data of a machine room, a machine room unit, an equipment unit and a connecting link are respectively displayed through the 3D visual module, a GIS visual module and a framework visual module; and

and generating a safety grade data report by calling a safety threshold value contained in the 3D visualization module, the GIS visualization module and the framework visualization module, and carrying out alarm display on abnormal data points in the safety grade data report.

Preferably, the 3D visualization module is configured to perform 3D visualization display and visualization operation on the operation conditions among the machine room, the machine room unit, the equipment unit, and the connection link.

Preferably, the GIS visualization module is configured to perform 3D visualization display and visualization operation on geographic information among the machine room, the machine room unit, the equipment unit, and the connection link.

Preferably, the framework visualization module is configured to perform 3D visualization display and visualization operation on the machine rooms, the machine room units, the equipment units, and the connection links of the different subsystems.

Preferably, the processing module includes object data processing, geographical data processing, and operational data processing.

Preferably, the object data processing is used for classifying, integrating and standardizing 3D scenes built by a virtual simulation technology.

Preferably, the geographic data processing is used for classifying, integrating and standardizing geographic information data among the machine rooms, the machine room units, the equipment units and the connecting links.

Preferably, the operation data processing is used for classifying, integrating and standardizing operation data and real-time monitoring among the machine room, the machine room units, the equipment units and the connecting links.

Preferably, the loading module is configured to import the machine room modeling data, the equipment unit modeling data, and the connection link data between the equipment units.

Preferably, the machine room modeling data is used for completely presenting the appearance of the building in the core place through virtual simulation, completing 3D modeling according to the real appearance of the building and managing the basic specification information of the building;

the machine room structure of the core place floor is completely presented through virtual simulation, 3D modeling is completed according to the actual building structure of the floor, and information and equipment placement conditions of all machine rooms can be simulated and managed through real identification; and

the core place machine room structure is completely presented through virtual simulation, 3D modeling is completed according to the actual building structure of the machine room, and information and equipment placement conditions of a real identification management machine room can be simulated;

the equipment unit modeling data is equipment information which is completely presented to a core machine room through virtual simulation, and the equipment information comprises ID information arranged in each independent equipment unit;

the connection link data is information data of the distribution frame, the front panel and the rear panel of the equipment and the port completely presented by virtual simulation, and visual management and information query of occupation conditions of the distribution frame, the front panel and the rear panel of the equipment and the port are realized;

completely presenting the physical connection relation among the devices by virtual simulation, wherein the physical connection relation comprises jumper inquiry and management, basic wiring inquiry and management and link inquiry and management; and

and presenting the equipment ID list according to the ID information of the equipment unit, and positioning the equipment according to the selected equipment.

Compared with the prior art, the invention has the beneficial effects that:

1) various monitoring indexes of systematic combing, various monitoring indexes of correlation with the management object in different systematic combing and various monitoring indexes of correlation with the management object in different control views, and the real-time state of the monitoring indexes to be presented can be flexibly selected;

2) the device object number can be used as a unique identifier, alarm events of a third-party system such as a network management system and the like can be effectively integrated, and a uniform alarm monitoring management interface is provided for operation and maintenance personnel.

Drawings

FIG. 1 is a block diagram of the system of the present invention;

fig. 2 is a monitoring flow chart of the 3D visualization IT monitoring management system of the present invention.

Detailed Description

The drawings are for illustrative purposes only and are not to be construed as limiting the patent;

the invention is further illustrated below with reference to the figures and examples.

Example 1

Referring to fig. 1, the present invention provides a 3D visualized IT monitoring management system, which comprises

The 3D visualization system comprises a 3D visualization module, a GIS visualization module and a framework visualization module, wherein the 3D visualization module, the GIS visualization module and the framework visualization module are respectively connected with a 3D engine module and a visualization engine module, the 3D visualization system is also provided with a loading module, a processing module and an interface module, and the interface module is connected with an equipment unit;

the monitoring module is used for monitoring the operation conditions among the machine room, the machine room units, the equipment units and the connecting links;

the acquisition module is used for acquiring the monitoring data of the monitoring module in real time;

storing the acquired monitoring data into a preset database,

finding a safety level mark corresponding to a preset threshold value where the monitoring data are located, and storing the safety level mark into the database;

the method comprises the steps that a 3D engine module and a visual engine module are loaded through a loading module, and monitoring data of a machine room, a machine room unit, an equipment unit and a connecting link are respectively displayed through the 3D visual module, a GIS visual module and a framework visual module; and

and generating a safety grade data report by calling a safety threshold value contained in the 3D visualization module, the GIS visualization module and the framework visualization module, and carrying out alarm display on abnormal data points in the safety grade data report.

The 3D visualization module is used for performing 3D visualization display and visualization operation on the operation conditions among the machine room, the machine room units, the equipment units and the connecting links.

The GIS visualization module is used for performing 3D visualization display and visualization operation on geographic information among the machine room, the machine room units, the equipment units and the connecting links.

The frame visualization module is used for performing 3D visualization display and visualization operation on the machine rooms, the machine room units, the equipment units and the connecting links of different subsystems.

The processing module comprises object data processing, geographic data processing and operation data processing.

And the object data processing is used for classifying, integrating and standardizing the 3D scene built by the virtual simulation technology.

The geographic data processing is used for classifying, integrating and standardizing geographic information data among the machine rooms, the machine room units, the equipment units and the connecting links.

The operation data processing is used for classifying, integrating and standardizing operation data and real-time monitoring among the machine room, the machine room units, the equipment units and the connecting links.

The loading module is used for importing machine room modeling data, equipment unit modeling data and connection link data among equipment units.

The machine room modeling data is used for completely presenting the appearance of a core place building through virtual simulation, completing 3D modeling according to the real appearance of the building and managing basic specification information of the building;

the machine room structure of the core place floor is completely presented through virtual simulation, 3D modeling is completed according to the actual building structure of the floor, and information and equipment placement conditions of all machine rooms can be simulated and managed through real identification; and

the core place machine room structure is completely presented through virtual simulation, 3D modeling is completed according to the actual building structure of the machine room, and information and equipment placement conditions of a real identification management machine room can be simulated;

the equipment unit modeling data is equipment information which is completely presented to a core machine room through virtual simulation, and the equipment information comprises ID information arranged in each independent equipment unit;

the connection link data is information data of the distribution frame, the front panel and the rear panel of the equipment and the port completely presented by virtual simulation, and visual management and information query of occupation conditions of the distribution frame, the front panel and the rear panel of the equipment and the port are realized;

completely presenting the physical connection relation among the devices by virtual simulation, wherein the physical connection relation comprises jumper inquiry and management, basic wiring inquiry and management and link inquiry and management; and

and presenting the equipment ID list according to the ID information of the equipment unit, and positioning the equipment according to the selected equipment.

The method specifically comprises the following steps:

1) spatial statistics visualization: statistical distribution statistics of the spatial capacity of the machine room cabinets is supported in a 3D visual environment, and the use conditions of U bits of the related cabinets, such as used U bits and residual U bits, can be distinguished according to different colors; and the visual rendering expression of the distribution diagram of the machine room cabinet space is supported.

2) Power statistics visualization: the method supports the statistics of rated power distribution of the machine room cabinets in a 3D visual environment, and can distinguish the power of the related cabinets according to different colors; and the visual rendering of the power distribution diagram of the machine room cabinet is supported.

3) Visualization of bearing statistics: support in the visual environment of 3D to computer lab bearing distribution statistics, can be with the bearing state of every rack in the current computer lab of histogram mode visual representation, make things convenient for the administrator to know the computer lab overall arrangement in real time and carry out effective adjustment.

4) Machine position statistics visualization: and (3) the situations of the used machine positions and the rest machine positions in the current machine room environment are visualized in a 3D visualization environment.

5) Monitoring and visualizing: the visual monitoring tool that will help the core place to integrate dispersion realizes monitoring tool, monitoring data's value maximize, really changes monitoring data island phenomenon, establishes unified monitoring information interface, twists back the data that leads to because two-dimensional information density is not enough simultaneously and report form flooding situation to the condition of 3D form with each side of core place condition expression directly perceived, promotes the control management level conscientiously.

The visual system supports the butt joint with the IT equipment monitoring system, completes the visual presentation of the monitoring data and the alarm information, and can realize that the monitoring picture of the network management monitoring system can be directly popped up by clicking equipment.

The device performance monitoring information management refers to performance data information monitored by a management device through a 3D view. The current performance information index of the equipment is obtained through the unique ID of the equipment, and the performance data information of all indexes of the current equipment is checked on an equipment monitoring information panel. And clicking the monitoring equipment, displaying an information panel, selecting a monitoring button, and checking out a performance monitoring page.

The machine room equipment alarm information requires that all alarm information of the machine room can be checked on a 3D interface of the machine room in real time. The types of the main management alarm devices are two types: and the alarm of the individual equipment directly appears on the equipment, and an alarm icon and an equipment color change prompt are clicked, or the alarm equipment is used for managing detailed alarm information. The equipment in the cabinet gives an alarm, an alarm icon and a cabinet color change prompt appear on the belonging cabinet, the alarm icon or the alarm equipment is clicked to manage detailed alarm information, in the alarm state, the double-click cabinet enters the cabinet, the alarm equipment has the equipment color change prompt, the equipment is clicked, and a detailed alarm information interface can be checked.

6) Visualization of the communication framework: the visualized expectation of the communication architecture provides an architecture analysis management platform, and comprehensive analysis and management of configuration data, topological view, monitoring data and the like of a power grid communication object are achieved.

7) End-to-end monitoring visualization: the method comprises the steps of systematically managing the incidence relation among configuration objects of each layer, getting through technical barriers in each professional field, connecting a transmission network to a business application to an IT infrastructure to Geographic Information (GIS), and forming an end-to-end IT visual management model formed by the business application, a system platform, a network, the infrastructure and a physical environment to the GIS.

8) Visualization of monitoring data: the integration of monitoring data is mainly divided into alarm data and performance data, the alarm data reflects the current state of each logic node, alarm events of network architecture, IT components and infrastructure are visually reflected in real time through an end-to-end view, the alarm events are associated with the view and objects, and concerned alarm events can be flexibly defined on different monitoring pages. The performance data refers to various monitoring indexes of systematic combing and the incidence relation between the monitoring indexes and the management object, and real-time operation parameters of the monitoring indexes to be presented can be flexibly selected in different monitoring views.

9) And (4) alarm visualization: the alarm events of an application system, an IT component and infrastructure are visually reflected in real time, the alarm events are associated with views and objects, and the concerned alarm events can be flexibly defined on different monitoring pages.

10) Visualization of monitoring indexes: various monitoring indexes are systematically combed, and the association relation between the monitoring indexes and the management object can flexibly select the real-time state of the monitoring indexes to be presented in different monitoring views.

It should be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (4)

1. A3D visualization IT monitoring management system is characterized by comprising a 3D visualization module, a GIS visualization module and a framework visualization module, wherein the 3D visualization module, the GIS visualization module and the framework visualization module are respectively connected with a 3D engine module and a visualization engine module, the 3D visualization system is also provided with a loading module, a processing module and an interface module, and the interface module is connected with an equipment unit;

the system also comprises a monitoring module used for monitoring the operation conditions among the machine room, the machine room units, the equipment units and the connection links;

the acquisition module is used for acquiring the monitoring data of the monitoring module in real time; storing the acquired monitoring data into a preset database, finding a safety level mark corresponding to a preset threshold value where the monitoring data is located, and storing the safety level mark into the database; the method comprises the steps that a 3D engine module and a visual engine module are loaded through a loading module, and monitoring data of a machine room, a machine room unit, an equipment unit and a connecting link are respectively displayed through the 3D visual module, a GIS visual module and a framework visual module; generating a safety grade data report by calling a safety threshold value contained in the 3D visualization module, the GIS visualization module and the framework visualization module, and carrying out alarm display on abnormal data points in the safety grade data report;

the 3D visualization module is used for performing 3D visualization display and visualization operation on the operation conditions among the machine room, the machine room units, the equipment units and the connecting links;

the GIS visualization module is used for performing 3D visualization display and visualization operation on geographic information among the machine room, the machine room units, the equipment units and the connecting links;

the framework visualization module is used for performing 3D visualization display and visualization operation on the machine rooms, the machine room units, the equipment units and the connecting links of different subsystems;

the processing module comprises object data processing, geographic data processing and operation data processing;

the loading module is used for importing machine room modeling data, equipment unit modeling data and connection link data among equipment units;

the machine room modeling data is used for completely presenting the appearance of a core place building through virtual simulation, completing 3D modeling according to the real appearance of the building and managing basic specification information of the building; the machine room structure of the core place floor is completely presented through virtual simulation, 3D modeling is completed according to the actual building structure of the floor, and information and equipment placement conditions of all machine rooms can be simulated and managed through real identification; the core place machine room structure is completely presented through virtual simulation, 3D modeling is completed according to the actual building structure of the machine room, and information and equipment placement conditions of a real identification management machine room can be simulated;

the equipment unit modeling data is equipment information which is completely presented to a core machine room through virtual simulation, and the equipment information comprises ID information arranged in each independent equipment unit;

the connection link data is information data of the distribution frame, the front panel and the rear panel of the equipment and the port completely presented by virtual simulation, and visual management and information query of occupation conditions of the distribution frame, the front panel and the rear panel of the equipment and the port are realized; completely presenting the physical connection relation among the devices by virtual simulation, wherein the physical connection relation comprises jumper inquiry and management, basic wiring inquiry and management and link inquiry and management; presenting an equipment ID list according to the ID information of the equipment unit, and positioning the equipment according to the selected equipment;

the method specifically comprises the following steps:

1) spatial statistics visualization: statistical distribution statistics of the spatial capacity of the machine room cabinets is supported in a 3D visual environment, and the use conditions of U bits of the related cabinets, such as used U bits and residual U bits, can be distinguished according to different colors; the visual rendering expression of the distribution diagram of the machine room cabinet space is supported;

2) power statistics visualization: the method supports the statistics of rated power distribution of the machine room cabinets in a 3D visual environment, and can distinguish the power of the related cabinets according to different colors; the visual rendering expression of the distribution diagram of the machine room cabinet power is supported;

3) visualization of bearing statistics: the method supports statistics of the machine room bearing distribution condition in a 3D visual environment, can visually represent the bearing state of each cabinet in the current machine room in a histogram mode, and is convenient for an administrator to know the machine room layout in real time and carry out effective adjustment;

4) machine position statistics visualization: the method comprises the following steps of (1) observing the situations of used machine positions and residual machine positions in the current machine room environment in a 3D visualization environment;

5) monitoring and visualizing: the monitoring visualization helps the core place to integrate the scattered monitoring tools, the value maximization of the monitoring tools and the monitoring data is realized, the islanding phenomenon of the monitoring data is really changed, a unified monitoring information interface is established, meanwhile, the data and report flooding condition caused by insufficient density of two-dimensional information is twisted, the conditions of all aspects of the core place are visually expressed in a 3D form, and the monitoring management level is practically improved;

the visual system supports the butt joint with the IT equipment monitoring system, completes the visual presentation of the monitoring data and the alarm information, and can realize that the monitoring picture of the network management monitoring system can be directly popped out by clicking equipment;

the equipment performance monitoring information management refers to performance data information monitored by the management equipment through a 3D view; acquiring the current performance information index of the equipment through the unique ID of the equipment, and checking the performance data information of all indexes of the current equipment on an equipment monitoring information panel; clicking the monitoring equipment, displaying an information panel, selecting a monitoring button, and checking out a performance monitoring page;

the machine room equipment alarm information requires that all alarm information of the machine room is checked on a 3D interface of the machine room in real time; the types of the main management alarm devices are two types: the alarm of the individual device directly shows an alarm icon and a device color change prompt on the device, and the alarm icon is clicked or the alarm device is managed to manage detailed alarm information; the equipment in the cabinet gives an alarm, an alarm icon and a cabinet color change prompt appear on the belonging cabinet, the alarm icon or the alarm equipment is clicked to manage detailed alarm information, in the alarm state, the double-click cabinet enters the cabinet, the alarm equipment gives the equipment color change prompt, the equipment is clicked, and a detailed alarm information interface can be checked;

6) visualization of the communication framework: the visual expectation of the communication architecture provides an architecture analysis management platform to realize the comprehensive analysis and management of configuration data, topological view, monitoring data and the like of a communication object of a management power grid;

7) end-to-end monitoring visualization: systematically combing the incidence relation among all layers of configuration objects, getting through technical barriers in all professional fields, connecting a transmission network to a business application to an IT infrastructure to Geographic Information (GIS), and forming an end-to-end IT visual management model consisting of the business application, a system platform, a network and infrastructure, and a physical environment to the GIS;

8) visualization of monitoring data: the integration of monitoring data is mainly divided into alarm data and performance data, the alarm data reflects the current state of each logic node, alarm events of a network architecture, an IT component and infrastructure are visually reflected in real time through an end-to-end view, the alarm events are associated with the view and an object, and the concerned alarm events can be flexibly defined on different monitoring pages; the performance data refers to various monitoring indexes of systematic combing and the incidence relation between the monitoring indexes and the management object, and real-time operation parameters of the monitoring indexes to be presented can be flexibly selected in different monitoring views;

9) and (4) alarm visualization: the alarm events of an application system, an IT component and infrastructure are visually reflected in real time, the alarm events are associated with views and objects, and the concerned alarm events can be flexibly defined on different monitoring pages;

10) visualization of monitoring indexes: various monitoring indexes are systematically combed, and the association relation between the monitoring indexes and the management object can flexibly select the real-time state of the monitoring indexes to be presented in different monitoring views.

2. The 3D visualization IT monitoring and management system of claim 1, wherein the object data processing is used for classifying, integrating and standardizing 3D scenes built by virtual simulation technology.

3. The 3D visualization IT monitoring and management system of claim 1, characterized in that the geographic data processing is used for classifying, integrating and standardizing geographic information data among machine rooms, machine room units, equipment units and connection links.

4. The 3D visualization IT monitoring management system of claim 1, characterized in that the operation data processing is used for classifying, integrating and standardizing operation data and real-time monitoring among machine rooms, machine room units, equipment units and connection links.

Images