CN113075950A

CN113075950A - Monitoring information display method and system, electronic equipment and storage medium

Info

Publication number: CN113075950A
Application number: CN202110346635.7A
Authority: CN
Inventors: 刘岩; 叶振豪; 邓彬; 何山; 武婕; 王冬; 王子滔; 佘伊伦; 陈栋
Original assignee: Shenzhen Power Supply Co ltd
Current assignee: Shenzhen Power Supply Co ltd
Priority date: 2021-03-31
Filing date: 2021-03-31
Publication date: 2021-07-06

Abstract

The invention discloses a monitoring information display method, a monitoring information display system, electronic equipment and a storage medium. The method comprises the following steps: acquiring a monitoring query request, wherein the monitoring query request comprises a query object identifier; determining the position information of the query object according to the query object identifier, and acquiring monitoring data corresponding to the query object; acquiring the environmental parameters of the actual environment where the query object is located according to the position information; constructing a three-dimensional environment model of the actual environment according to the environment parameters, wherein the three-dimensional environment model is consistent with the actual environment; and generating a three-dimensional monitoring information display interface according to the monitoring data and the three-dimensional environment model, and displaying the three-dimensional monitoring information display interface. According to the monitoring information display method, the monitoring information display system, the electronic equipment and the storage medium, the queried monitoring data can be visually displayed through the three-dimensional monitoring information display interface, the monitoring condition of the equipment can be quickly and visually obtained, and the searching efficiency is improved.

Description

Monitoring information display method and system, electronic equipment and storage medium

Technical Field

The invention relates to the technical field of monitoring, in particular to a monitoring information display method and system, electronic equipment and a storage medium.

Background

With the rapid development of services, the scale of a data center is also increasingly large and complex, and various infrastructure management objects under the data center need to be monitored and managed in order to ensure the normal operation of the whole data center. At present, the monitoring conditions of various types of equipment are recorded in a mode of collecting manual records usually, when managers need to check, a large amount of recorded data need to be searched, and the monitoring conditions of the equipment cannot be obtained quickly and intuitively.

Disclosure of Invention

The invention aims to provide a monitoring information display method and system, electronic equipment and a storage medium, so that the monitoring condition of the equipment can be quickly and intuitively obtained, and the searching efficiency is improved.

In order to achieve the above object, a first aspect of the present invention provides a monitoring information displaying method, including:

acquiring a monitoring query request, wherein the monitoring query request comprises a query object identifier;

determining the position information of the query object according to the query object identifier, and acquiring monitoring data corresponding to the query object;

acquiring the environmental parameters of the actual environment where the query object is located according to the position information;

constructing a three-dimensional environment model of the actual environment according to the environment parameters, wherein the three-dimensional environment model is consistent with the actual environment;

and generating a three-dimensional monitoring information display interface according to the monitoring data and the three-dimensional environment model, and displaying the three-dimensional monitoring information display interface.

Optionally, the actual environment comprises an information machine room environment, and the environment parameters comprise decoration environment parameters and equipment placement parameters;

the constructing of the three-dimensional environment model of the actual environment according to the environment parameters includes:

constructing an internal model of the three-dimensional information machine room according to the decoration environment parameters;

and adding a three-dimensional equipment model in the three-dimensional information machine room internal model based on the equipment placement parameters, wherein the three-dimensional equipment model is constructed according to the equipment appearance and the equipment size proportion of each piece of equipment actually placed in the information machine room.

Optionally, the actual environment includes an information machine room environment, and the environment parameters include used machine position positions and unused machine position positions;

and constructing a three-dimensional cabinet distribution interface of the information machine room according to the used machine position and the unused machine position, wherein the used machine position is marked in the three-dimensional cabinet distribution interface in a first form, and the unused machine position is marked in a second form.

Optionally, the method further comprises:

determining the machine position use proportion of the corresponding information machine room according to the used machine position and the unused machine position;

determining the space capacity distribution information of the information machine room according to the machine position use proportion;

and when a capacity resource query request is received while a three-dimensional cabinet distribution interface of the information machine room is displayed, displaying the spatial capacity distribution information of the information machine room.

Optionally, the generating a three-dimensional monitoring information display interface according to the monitoring data and the three-dimensional environment model includes:

acquiring data types contained in the monitoring data and a display template corresponding to each data type;

and generating interface display elements corresponding to the data types according to the display template, wherein the interface display elements comprise monitoring data under the corresponding data types.

Optionally, the method further comprises:

when the monitoring data of the query object is detected to change, acquiring the changed data type;

and updating the monitoring data contained in the interface display element corresponding to the changed data type.

Optionally, the query object includes a cold and hot channel of an information machine room, and the monitoring data includes airflow direction of the cold and hot channel;

the generating of the three-dimensional monitoring information display interface according to the monitoring data and the three-dimensional environment model comprises the following steps:

determining the flow direction of cold air flow and the flow direction of hot air flow according to the flow direction of the cold and hot channels;

constructing a first dynamic arrow of a first color in the three-dimensional environment model according to the flow direction of cold air, and constructing a second dynamic arrow of a second color in the three-dimensional environment model according to the flow direction of hot air, wherein the first dynamic arrow is used for indicating the flow direction of the cold air, and the second dynamic arrow is used for indicating the flow direction of the hot air.

A second aspect of the present invention provides a monitoring information display system, including:

the query module is used for acquiring a monitoring query request, and the monitoring query request comprises a query object identifier;

the data acquisition module is used for determining the position information of the query object according to the query object identifier and acquiring the monitoring data corresponding to the query object;

the environment acquisition module is used for acquiring the environment parameters of the actual environment where the query object is located according to the position information;

the construction module is used for constructing a three-dimensional environment model of the actual environment according to the environment parameters, and the three-dimensional environment model is consistent with the actual environment;

and the interface generating module is used for generating a three-dimensional monitoring information display interface according to the monitoring data and the three-dimensional environment model and displaying the three-dimensional monitoring information display interface.

A third aspect of the present invention provides an electronic device, comprising a memory and a processor, wherein the memory stores a computer program, and the computer program, when executed by the processor, causes the processor to implement the method according to the first aspect.

A fourth aspect of the invention proposes a computer-readable storage medium having stored thereon a computer program which, when executed by a processor, implements the method according to the first aspect.

The monitoring information display method and system, the electronic device and the storage medium have the following beneficial effects:

the method comprises the steps of obtaining a monitoring query request which comprises a query object identifier, determining position information of the query object according to the query object identifier, obtaining monitoring data corresponding to the query object, obtaining environmental parameters of an actual environment where the query object is located according to the position information, constructing a three-dimensional environment model of the actual environment according to the environmental parameters, keeping the three-dimensional environment model consistent with the actual environment, generating a three-dimensional monitoring information display interface according to the monitoring data and the three-dimensional environment model, displaying the three-dimensional monitoring information display interface, rapidly finding needed monitoring data, visually and truly displaying the monitoring data through the three-dimensional monitoring information display interface, and improving the finding efficiency and the management efficiency.

Additional features and advantages of the invention will be set forth in the description which follows.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is an application scenario diagram of a monitoring information display method according to an embodiment of the present invention.

Fig. 2 is a system architecture diagram of a monitoring information presentation method according to an embodiment of the present invention.

Fig. 3 is a flowchart of a monitoring information presentation method according to an embodiment of the present invention.

Fig. 4 is a flowchart of constructing an internal model of a three-dimensional information room according to an embodiment of the present invention.

Fig. 5 is a flowchart showing capacity resources of an information room in an embodiment of the present invention.

FIG. 6 is a flow diagram for presenting monitoring data according to a presentation template in one embodiment of the invention.

FIG. 7 is a block diagram of monitoring information presentation in one embodiment of the invention.

FIG. 8 is a block diagram of an electronic device in one embodiment of the invention.

Detailed Description

Various exemplary embodiments, features and aspects of the present disclosure will be described in detail below with reference to the accompanying drawings. In addition, in the following detailed description, numerous specific details are set forth in order to provide a better understanding of the present invention. It will be understood by those skilled in the art that the present invention may be practiced without some of these specific details. In some instances, well known means have not been described in detail so as not to obscure the present invention.

Fig. 1 is an application scenario diagram of a monitoring information presentation method in an embodiment. As shown in fig. 1, the display terminal 10 establishes a communication connection with the server 20, and the connection may include, but is not limited to, a wired connection, a Wireless Fidelity (Wi-Fi), a bluetooth, and other Wireless connections. The server 20 may perform data collection and monitoring on each data center, and collect various information, such as current, voltage, temperature, and the like, of one or more electric devices 30 distributed in each information machine room of each data center, where the electric devices 30 may include a cabinet, a network device, an air conditioner, and the like, and may also be various sensors, such as a temperature sensor, a humidity sensor, and the like, but is not limited thereto.

The display terminal 10 may obtain the monitoring query request and obtain the query object identifier according to the monitoring query request. The display terminal 10 may determine the location information of the query object according to the query object identifier, and acquire the monitoring data corresponding to the query object according to the query object identifier. In some embodiments, information such as the location distribution of each information room of the data center and the equipment distribution in each information room may be stored in the display terminal 10 in advance, and the display terminal 10 may perform searching according to the query object identifier to obtain the location information of the query object. The display terminal 10 may transmit the query object identification to the server 20 to acquire the monitoring data corresponding to the query object from the database of the server 20. The display terminal 10 may obtain an environmental parameter of an actual environment in which the query object is located according to the location information, and construct a three-dimensional environment model of the actual environment according to the environmental parameter, where the three-dimensional environment model is consistent with the actual environment. And generating a three-dimensional monitoring information display interface according to the monitoring data and the three-dimensional environment model, and displaying the three-dimensional monitoring information display interface. In some embodiments, the display terminal 10 may be a PC (Personal Computer), a notebook Computer, or the like, which is not limited herein.

Fig. 2 is a system architecture diagram of a monitoring information presentation method in one embodiment. As shown in fig. 2, the system architecture includes a three-dimensional visual interactive exhibition, a three-dimensional visual functional layer, a server, a database, a data gateway, a monitoring management system, and various devices. The monitoring management system can collect various information of various devices such as network equipment, air conditioners, power distribution cabinets, sensors and the like, and uploads the information to the server through the data gateway, and the server can store the collected information in the database. The display terminal can acquire data such as monitoring data and environmental parameters from the server, a three-dimensional monitoring information display interface is established through the three-dimensional visual functional layer, and the three-dimensional monitoring information display interface is displayed through the three-dimensional visual interaction display layer, so that the monitoring data can be visually displayed.

As shown in fig. 3, in an embodiment, a monitoring information displaying method is provided, which is applicable to the display terminal, and the method includes the following steps:

step 310, a monitoring query request is obtained, where the monitoring query request includes a query object identifier.

In some embodiments, the data center may include one or more buildings, each of which may include one or more information rooms, one or more devices disposed in the information rooms, the devices may include cabinets, power distribution cabinets, and the like, and may further include network devices disposed in the cabinets, and in some embodiments, the devices may further include various sensors disposed in the information rooms, such as a temperature sensor, a humidity sensor, and the like, but are not limited thereto. The server can collect the data of each equipment in the information machine room in real time, and the data collected by different equipment can be different, for example, the server can collect the voltage, power, current and other operation data of equipment such as a cabinet and a power distribution cabinet, and can collect the temperature detected by the temperature sensor and the humidity detected by the humidity sensor. The server can store the data of each device in a database and monitor the data of each device.

The display terminal 30 may display a 3D (three-dimensional) visualization interface through which data of each device is visually presented. The display terminal receives a monitoring query request triggered by a manager, wherein the monitoring query request comprises a query object identifier, and the query object identifier can be used for identifying a query object. The query object refers to a monitoring object which the manager needs to view. The query object may include, but is not limited to, a data center, an information room of the data center, equipment in the information room, and the like, and may also be a specific data category, such as temperature data, humidity data, monitoring video data, and the like.

And step 320, determining the position information of the query object according to the query object identifier, and acquiring the monitoring data corresponding to the query object.

The display terminal can position the query object according to the query object identifier and determine the position information of the query object. In one mode, the server may store map data in advance, and the map data may record buildings included in the entire data center, information room information distributed on each floor in each building, and the like. The information machine room identification corresponding to the query object can be determined according to the query object identification, the information machine room identification can be an information machine room number or name and the like, and the information machine room is positioned according to the information machine room identification, so that the position information of the query object can be obtained. For example, the cabinet a to be queried may be determined to be installed in the 03 information room, and if the 03 information room is located on floor 2 of floor 7, it may be determined that the cabinet a is located on floor 2 of floor 7. In other embodiments, the display terminal can also obtain the position coordinates of the query object in the information machine room, so as to more accurately determine the position information of the query object.

The display terminal obtains the query object and can send an access request to the server. The server can store a large amount of monitoring data, and after receiving the access request, the server can inquire the monitoring data of the object in the database according to the access request. The monitoring data of different query objects may be different in types, for example, the monitoring data of the data center may include fire monitoring data, personnel monitoring data, and the like of the data center, the monitoring data of the information room may include capacity monitoring data, temperature monitoring data, and the like, and the monitoring data of the equipment may include power monitoring data, voltage monitoring data, and the like, but is not limited thereto.

And step 330, acquiring the environmental parameters of the actual environment where the query object is located according to the position information.

After the position information of the query object is determined, the display terminal can acquire the environment parameters according to the position information, and the environment parameters can be used for describing the actual environment where the query object is located, for example, describing the information machine room environment of an information machine room, the park environment of a data center, and the like. The environmental parameters may be different for different actual environments. For example, the environmental parameters of the information room environment may include decoration environmental parameters and device placement parameters, where the decoration environmental parameters may be used to represent the decoration conditions of the information room, such as the wall color of the information room, the number and placement positions of offices, and decorations (such as emergency lights, signs, sockets, etc.) on the wall, and the device placement parameters may be used to determine the placement position, placement mode, etc. of each device in the information room; the environmental parameters of the campus environment of a data center may include building parameters, greening parameters, etc., where the building parameters may be used to describe various buildings of the campus, such as the distribution of the buildings, the building appearance, the floor area, height, etc., and the greening parameters may be used to represent the greening conditions within the campus, such as the type of trees planted, the floor area, etc. It is understood that the environmental parameter may be other data, and the above list is only used for illustrating the present application, but not limited to the above data.

And 340, constructing a three-dimensional environment model of the actual environment according to the environment parameters, wherein the three-dimensional environment model is consistent with the actual environment.

The display terminal can construct a three-dimensional environment model of the actual environment according to the environment parameters, so that the constructed three-dimensional environment model restores the real actual environment, and the visualization of the actual environment where the query object is located is realized.

And 350, generating a three-dimensional monitoring information display interface according to the monitoring data and the three-dimensional environment model, and displaying the three-dimensional monitoring information display interface.

The display terminal can generate interface display elements according to the monitoring data, and the interface display elements are superposed in the three-dimensional environment model, so that a 3D monitoring information display interface is generated. The manager can intuitively acquire the required monitoring information through the displayed 3D monitoring information display interface, and can intuitively acquire the actual environment where the monitored object is located. The display terminal can also acquire monitoring data from the server in real time so as to update the monitoring data displayed in the 3D monitoring information display interface in real time.

In the embodiment of the application, a monitoring query request is obtained, the monitoring query request comprises a query object identifier, the position information of the query object is determined according to the query object identifier, monitoring data corresponding to the query object is obtained, the environment parameter of the actual environment where the query object is located is obtained according to the position information, a three-dimensional environment model of the actual environment is established according to the environment parameter, the three-dimensional environment model is consistent with the actual environment, a three-dimensional monitoring information display interface is generated according to the monitoring data and the three-dimensional environment model and displayed, the required monitoring data can be quickly found, the monitoring data can be visually and truly displayed through the three-dimensional monitoring information display interface, and the searching efficiency and the management efficiency can be improved.

As shown in fig. 4, in an embodiment, the monitoring information displaying method further includes the following steps:

and 402, constructing an internal model of the three-dimensional information machine room according to the decoration environment parameters.

In some embodiments, the actual environment may include an information room environment, and the environmental parameters may include decoration environmental parameters and equipment placement parameters. The display terminal can acquire the corresponding information machine room identification according to the query object identification, and acquire the equipment data, the decoration environment parameter and the equipment placement parameter in the corresponding information machine room according to the information machine room identification. The device data may include a device identifier, optionally, the device identifier may be information such as a device number and a device name, and the device data may further include a device appearance of each device and a device size ratio, where the device appearance may include a shape and a color of the device, and the device size ratio may be a length, a width, and a height ratio of the device. The equipment arranged in the information machine room can comprise power utilization equipment such as a power distribution cabinet, a cabinet and network equipment, and can also comprise various sensors such as a temperature sensor and a humidity sensor, but is not limited to the above.

The decoration environment parameters can be used for representing the decoration conditions of the information machine room, such as the color of the walls of the information machine room, the number and the placement positions of offices, and decorations (such as emergency lamps, indication boards, sockets and the like) on the walls. The display terminal can establish the inside model of 3D information computer lab according to fitment environmental parameter, and this inside model of 3D information computer lab can really restore the inside environment of information computer lab in the reality, including the setting of various details such as wall paper, emergency light, sign.

And 404, adding a three-dimensional equipment model in the three-dimensional information machine room internal model based on the equipment placement parameters, and constructing the three-dimensional equipment model according to the equipment appearance and the equipment size proportion of each piece of equipment actually placed in the information machine room.

In one embodiment, the display terminal can construct a 3D device model of each device in the information room, and can construct a 3D device model consistent with the device appearance and the size ratio in the real environment according to the device appearance and the device size ratio, so as to truly restore the 3D device model. In some embodiments, the same devices may exist in the information machine room, for example, 5 same power distribution cabinets exist in the information machine room, and the same devices correspond to different device identifiers, respectively, the display terminal may classify the same devices in the information machine room, and after a 3D device model is constructed according to the device appearance and the device size ratio of the devices of the same class, the 3D devices may be copied to obtain a plurality of the same device models.

After the 3D information machine room internal model is built, the corresponding 3D equipment model can be added into the 3D information machine room internal model according to the equipment placement parameters of the information machine room, so that the position of the 3D equipment model in the 3D information machine room internal model is consistent with the placement position of the equipment in the information machine room in the real environment. The inside environment of information computer lab is looked over to managers accessible 3D visual interface, through show in 3D visual interface with the real environment in keep unanimous information computer lab fitment environment, the equipment of putting, the appearance of each 3D equipment model, the size ratio all keeps with real equipment, managers can be more directly perceived, learn the overall arrangement in the information computer lab fast, and each equipment distribution situation, can only look for the equipment of interest through the model, and need not seek one by one, the efficiency of management is improved.

In the embodiment of the application, the three-dimensional information machine room internal model can be constructed according to actual environmental parameters, a more visual and real three-dimensional visual interface of the information machine room is displayed, and the management efficiency and the operation experience can be improved.

and 402, constructing a three-dimensional cabinet distribution interface of the information machine room according to the used machine position and the unused machine position.

In one embodiment, the actual environment may comprise an information room environment and the environmental parameters may comprise used and unused machine locations. The server can monitor the capacity resources of each information machine room of the data center, and the more the empty machine positions of the information machine rooms are, the larger the residual available capacity space of the information machine rooms is, and the lower the occupancy rate of the capacity resources is. The server may obtain data of devices belonging to the same information machine room, where the data of the devices may include machine location information corresponding to the devices in the information machine room, such as machine location numbers corresponding to the devices, and optionally, multiple devices may correspond to the same machine location number. The used machine position and the unused machine position in the information machine room can be determined according to the data of the equipment belonging to the same information machine room. The server can store internal maps of all information machine rooms, the positions of all machine positions are recorded in the internal maps, and the corresponding machine position positions in the internal maps can be found according to the machine position numbers corresponding to all devices in the same information machine room, so that the used machine position positions in the information machine room can be determined, and the rest machine position positions are unused machine position positions.

The display terminal can acquire the corresponding information machine room identification according to the query object identification, and acquire the used machine position and the unused machine position of the information machine room from the server according to the information machine room identification. The 3D cabinet distribution interface of the information machine room can be generated according to the used machine position and the unused machine position of the information machine room, and the used machine position and the unused machine position can be marked in the 3D cabinet distribution interface. As one approach, used and unused machine positions of an information machine room in the 3D cabinet distribution interface may be marked in a first form and a second form, respectively. The first form is different from the second form, for example, the used machine position and the unused machine position can be marked by different colors, different marking patterns can be added, and the marking form is not limited herein.

And step 404, determining the machine position use proportion of the corresponding information machine room according to the used machine position and the unused machine position.

The display terminal can determine the machine position use proportion according to the used machine position quantity and the total machine position quantity in the information machine room, and the machine position use proportion can be obtained by dividing the used machine position quantity by the total machine position quantity.

And 406, determining the space capacity distribution information of the information machine room according to the machine position use ratio.

The display terminal can determine the space capacity distribution information of the information machine room according to the machine position use proportion of the information machine room, and the space empty distribution information can be used for describing the capacity resource condition of the information machine room.

And 408, when the three-dimensional cabinet distribution interface of the information machine room is displayed, and the capacity resource query request is received, displaying the space capacity distribution information of the information machine room.

The display terminal can display a 3D cabinet distribution interface of the information machine room, managers can trigger a capacity resource query request, and the display terminal displays space capacity distribution information of the information machine room according to the capacity resource query request. The equipment distribution information, the capacity resource occupation information, the available machine position information and the like in the information machine room can be visually obtained through the displayed 3D cabinet distribution interface, and the machine position use of the information machine room is conveniently managed.

In the embodiment of the application, the capacity resource condition of the information machine room can be displayed rapidly and visually, and the management efficiency can be improved.

As shown in fig. 6, in an embodiment, the step of generating a three-dimensional monitoring information display interface according to the monitoring data and the three-dimensional environment model includes the following steps:

step 602, obtaining data types included in the monitoring data and a display template corresponding to each data type.

The monitoring data may include a variety of different data types, for example, monitoring the environment of the information room, the monitoring data may include the temperature, humidity, airflow, etc. types of the information room, monitoring the environment of the campus, the monitoring data may include the people coming in and going out of the campus, video monitoring, etc., but is not limited thereto. Different data categories can correspond to different display templates and can be displayed according to different display templates. For example, information room temperature may be displayed in the form of a 3D panel, information room humidity may be displayed in the form of a 3D bubble, airflow may be displayed in the form of dynamic 3D arrows, and so on.

And 604, generating interface display elements corresponding to each data type according to the display template, wherein the interface display elements comprise monitoring data under the corresponding data type.

After the display terminal acquires the monitoring data, 3D interface display elements can be generated according to the display templates corresponding to the monitoring data, and the 3D interface display elements can contain corresponding monitoring data. For example, if the temperature of the information room is 23 ℃ (celsius), a 3D panel containing a 23 ℃ value may be generated.

In one embodiment, the display terminal can obtain the latest monitoring data of the query object from the server in real time, when the monitoring data is detected to be changed, the changed data type can be obtained, and the monitoring data contained in the 3D interface display element corresponding to the changed data type is updated, so that the latest monitoring data can be displayed. In some embodiments, the 3D interface display element may further display a change condition of the monitoring data, for example, the information room temperature that changes at different times may be displayed in a manner of a line graph.

In the embodiment of the application, the monitoring data can be displayed according to different display templates, so that the monitoring data can be displayed in a more intuitive mode, and the management efficiency can be improved.

In one embodiment, the query object may include a hot and cold aisle of the information room, and the monitoring data may include airflow direction of the hot and cold aisle. The server can acquire the data of the cold and hot channels in the information machine room in real time through the sensor and obtain corresponding airflow directions including the cold airflow direction and the hot airflow direction. The display terminal determines that the query object is a cold and hot channel of the information machine room, and can acquire the airflow direction of the cold and hot channel in the information machine room from the server. A first dynamic arrow of a first color may be constructed according to a cold airflow direction, and a second dynamic arrow of a second color may be constructed according to a hot airflow direction, wherein the first dynamic arrow may be used to indicate the cold airflow direction, and the second dynamic arrow may be used to indicate the hot airflow direction. When the airflow direction changes, the corresponding arrow direction can also change in real time, so that the airflow direction is consistent with the airflow direction in the real environment.

In one embodiment, the query object may comprise a water leakage sensing rope of the information room, and the monitoring data may comprise water leakage parameters. Each information machine room of the data center can be provided with a water leakage induction rope which can be used for detecting the water leakage condition in the information machine room. When detecting that the information machine room leaks, the coordinates with the water leakage can be uploaded to the server and then sent to the display terminal by the server. The display terminal can display the wiring of the water leakage induction rope in the 3D monitoring information display interface, when the coordinate of water leakage is received, the water leakage position is determined according to the coordinate, and the water leakage position can be marked in the 3D monitoring information display interface, for example, the water leakage position is marked in an amplifying mode, or a water leakage graph is added at the water leakage position. The manager can visually check the position of water leakage through the 3D visual interface, and can maintain more quickly.

In the embodiment of the application, dynamic visualization of the monitoring data can be realized, the monitoring data is synchronous with the actual situation, various monitoring data can be displayed more directly, and monitoring and management efficiency is improved.

In one embodiment, a monitoring information display method is provided, which includes the following steps:

step (1), a monitoring query request is obtained, wherein the monitoring query request comprises a query object identifier.

And (2) determining the position information of the query object according to the query object identifier, and acquiring the monitoring data corresponding to the query object.

And (3) acquiring the environmental parameters of the actual environment where the query object is located according to the position information.

And (4) constructing a three-dimensional environment model of the actual environment according to the environment parameters, wherein the three-dimensional environment model is consistent with the actual environment.

In one embodiment, the actual environment comprises an information machine room environment, and the environment parameters comprise decoration environment parameters and equipment placement parameters; constructing a three-dimensional environment model of an actual environment according to environment parameters, comprising: constructing an internal model of the three-dimensional information machine room according to the decoration environment parameters; and adding a three-dimensional equipment model in the three-dimensional information machine room internal model based on the equipment placement parameters, and constructing the three-dimensional equipment model by referring to the equipment appearance and the equipment size proportion of each piece of equipment actually placed in the information machine room.

In one embodiment, the actual environment comprises an information room environment, and the environment parameters comprise used machine position positions and unused machine position positions; constructing a three-dimensional environment model of an actual environment according to environment parameters, comprising: and constructing a three-dimensional cabinet distribution interface of the information machine room according to the used machine position and the unused machine position, wherein the used machine position is marked in the three-dimensional cabinet distribution interface in a first form, and the unused machine position is marked in a second form.

In one embodiment, the method further comprises: determining the machine position use proportion of the corresponding information machine room according to the used machine position and the unused machine position; determining space capacity distribution information of an information machine room according to the machine position use proportion; when the three-dimensional cabinet distribution interface of the information machine room is displayed, when a capacity resource query request is received, the space capacity distribution information of the information machine room is displayed.

And (5) generating a three-dimensional monitoring information display interface according to the monitoring data and the three-dimensional environment model, and displaying the three-dimensional monitoring information display interface.

In one embodiment, the step of generating a three-dimensional monitoring information display interface according to the monitoring data and the three-dimensional environment model includes: acquiring data types contained in monitoring data and a display template corresponding to each data type; and generating interface display elements corresponding to each data category according to the display template, wherein the interface display elements comprise monitoring data under the corresponding data category.

In one embodiment, the method further comprises: when the monitoring data of the query object is detected to change, acquiring the changed data type; and updating the monitoring data contained in the interface display element corresponding to the changed data type.

In one embodiment, the query object comprises a cold and hot channel of the information machine room, and the monitoring data comprises airflow flow directions of the cold and hot channel; generating a three-dimensional monitoring information display interface according to the monitoring data and the three-dimensional environment model, wherein the three-dimensional monitoring information display interface comprises the following steps: determining the flow direction of cold air flow and the flow direction of hot air flow according to the flow direction of the cold and hot channels; and constructing a first dynamic arrow of a first color in the three-dimensional environment model according to the flow direction of the cold air flow, and constructing a second dynamic arrow of a second color in the three-dimensional environment model according to the flow direction of the hot air flow, wherein the first dynamic arrow is used for indicating the flow direction of the cold air flow, and the second dynamic arrow is used for indicating the flow direction of the hot air flow.

As shown in FIG. 7, in one embodiment, a monitoring information presentation system 600 is provided, the system 600 including a query module 610, a data acquisition module 620, an environment acquisition module 630, a construction module 640, and an interface generation module 650.

The query module 610 is configured to obtain a monitoring query request, where the monitoring query request includes a query object identifier.

And the data obtaining module 620 is configured to determine location information of the query object according to the query object identifier, and obtain monitoring data corresponding to the query object.

The environment obtaining module 630 is configured to obtain an environment parameter of an actual environment where the query object is located according to the location information.

And the building module 640 is configured to build a three-dimensional environment model of the actual environment according to the environment parameters, where the three-dimensional environment model is consistent with the actual environment.

And the interface generating module 650 is configured to generate a three-dimensional monitoring information display interface according to the monitoring data and the three-dimensional environment model, and display the three-dimensional monitoring information display interface.

In one embodiment, the actual environment comprises an information machine room environment, and the environment parameters comprise decoration environment parameters and equipment placement parameters.

The building module 640 is further configured to build a three-dimensional information machine room internal model according to the decoration environment parameters, add a three-dimensional device model to the three-dimensional information machine room internal model based on the device placement parameters, and build the three-dimensional device model according to the device appearance and the device size ratio of each device actually placed in the information machine room.

In one embodiment, the actual environment comprises an information room environment and the environmental parameters comprise used machine location and unused machine location.

The constructing module 640 is further configured to construct a three-dimensional cabinet distribution interface of the information room according to the used machine location position and the unused machine location position, where the three-dimensional cabinet distribution interface adopts a first form to mark the used machine location and adopts a second form to mark the unused machine location.

In one embodiment, the monitoring information presentation system 600 includes a ratio determination module and a capacity determination module in addition to the query module 610, the data acquisition module 620, the environment acquisition module 630, the construction module 640 and the interface generation module 650.

And the proportion determining module is used for determining the machine position use proportion of the corresponding information machine room according to the used machine position and the unused machine position.

And the capacity determining module is used for determining the space capacity distribution information of the information machine room according to the machine position use ratio.

The interface generating module 650 is further configured to display the spatial capacity distribution information of the information room when receiving the capacity resource query request when displaying the three-dimensional cabinet distribution interface of the information room.

In one embodiment, the interface generation module 650 includes a template acquisition unit and an element generation unit.

And the template acquisition unit is used for acquiring the data types contained in the monitoring data and the display template corresponding to each data type.

And the element generating unit is used for generating interface display elements corresponding to each data type according to the display template, and the interface display elements contain monitoring data under the corresponding data type.

In an embodiment, the element generating unit is further configured to, when it is detected that the monitoring data of the query object changes, obtain a changed data category, and update the monitoring data included in the interface display element corresponding to the changed data category.

In one embodiment, the query object comprises a cold and hot aisle of the information room, and the monitoring data comprises airflow direction of the cold and hot aisle.

The interface generating module 650 is further configured to determine a cold airflow direction and a hot airflow direction according to the airflow directions of the cold and hot channels, construct a first dynamic arrow with a first color in the three-dimensional environment model according to the cold airflow direction, and construct a second dynamic arrow with a second color in the three-dimensional environment model according to the hot airflow direction, where the first dynamic arrow is used to indicate the cold airflow direction, and the second dynamic arrow is used to indicate the hot airflow direction.

FIG. 8 is a block diagram of an electronic device in one embodiment. As shown in fig. 8, electronic device 800 may include one or more of the following components: a processor 810 and a memory 820, the memory 820 may store one or more applications, the one or more applications may be configured to be executed by the one or more processors 810, the one or more programs configured to perform the methods as described above.

Processor 810 may include one or more processing cores. The processor 810 interfaces with various interfaces and circuitry throughout the electronic device 800 to perform various functions and process data of the electronic device 800 by executing or executing instructions, programs, code sets, or instruction sets stored in the memory 820 and invoking data stored in the memory 820. Alternatively, the processor 810 may be implemented in hardware using at least one of Digital Signal Processing (DSP), Field-Programmable Gate Array (FPGA), and Programmable Logic Array (PLA). The processor 810 may integrate one or more of a Central Processing Unit (CPU), a Graphics Processing Unit (GPU), a modem, and the like. Wherein, the CPU mainly processes an operating system, a user interface, an application program and the like; the GPU is used for rendering and drawing display content; the modem is used to handle wireless communications. It is understood that the modem may not be integrated into the processor 810, but may be implemented by a communication chip.

The Memory 820 may include a Random Access Memory (RAM) or a Read-Only Memory (Read-Only Memory). The memory 820 may be used to store instructions, programs, code sets, or instruction sets. The memory 820 may include a stored program area and a stored data area, wherein the stored program area may store instructions for implementing an operating system, instructions for implementing at least one function (such as a touch function, a sound playing function, an image playing function, etc.), instructions for implementing the various method embodiments described above, and the like. The stored data area may also store data created during use by the electronic device 800, and the like.

It is understood that the electronic device 800 may include more or less structural elements than those shown in the above structural block diagrams, and is not limited thereto.

In an embodiment, a computer-readable storage medium is also provided, on which a computer program is stored, which, when being executed by a processor, carries out the method as described in the above embodiments.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by a computer program, which can be stored in a non-volatile computer-readable storage medium, and can include the processes of the embodiments of the methods described above when the program is executed. The storage medium may be a magnetic disk, an optical disk, a Read-Only Memory (ROM), or the like.

Any reference to memory, storage, database, or other medium as used herein may include non-volatile and/or volatile memory. Suitable non-volatile memory can include read-only memory (ROM), Programmable ROM (PROM), Electrically Programmable ROM (EPROM), Electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM), which acts as external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms, such as Static RAM (SRAM), Dynamic RAM (DRAM), Synchronous DRAM (SDRAM), double data rate SDRAM (DDR SDRAM), Enhanced SDRAM (ESDRAM), synchronous Link (Synchlink) DRAM (SLDRAM), Rambus Direct RAM (RDRAM), direct bus dynamic RAM (DRDRAM), and bus dynamic RAM (RDRAM).

Having described embodiments of the present invention, the foregoing description is intended to be exemplary, not exhaustive, and not limited to the embodiments disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the described embodiments. The terminology used herein is chosen in order to best explain the principles of the embodiments, the practical application, or improvements made to the technology in the marketplace, or to enable others of ordinary skill in the art to understand the embodiments disclosed herein.

Claims

1. A monitoring information display method is characterized by comprising the following steps:

2. The method of claim 1, wherein the actual environment comprises an information room environment, and the environmental parameters comprise decoration environmental parameters and equipment placement parameters;

3. The method of claim 1, wherein the actual environment comprises an information room environment, and the environmental parameters comprise used machine location and unused machine location;

4. The method of claim 3, further comprising:

5. The method of claim 1, wherein generating a three-dimensional monitoring information presentation interface based on the monitoring data and the three-dimensional environment model comprises:

6. The method of claim 5, further comprising:

7. The method of claim 1, wherein the query object comprises a hot and cold aisle of an information room, and the monitoring data comprises airflow direction of the hot and cold aisle;

8. A monitoring information presentation system, comprising:

9. An electronic device comprising a memory and a processor, the memory having stored therein a computer program that, when executed by the processor, causes the processor to carry out the method of any of claims 1 to 7.

10. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the method according to any one of claims 1 to 7.