CN112367505B - Data center command system - Google Patents

Abstract

The application discloses a command system of a data center, which comprises: display terminal and command unit, command unit includes: the scene monitoring module is used for acquiring scene image information of the data center and transmitting the scene image information to the display terminal for displaying; the equipment monitoring module is used for acquiring the running state and data of the data center equipment and transmitting the running state and data to the display terminal for displaying; the work order monitoring module is used for acquiring the work order tasks of the data center and transmitting the work order tasks to the display terminal for displaying; and the operation module is used for sending a scene switching instruction to the scene monitoring module, sending an equipment switching instruction to the equipment monitoring module and sending a checking and operating instruction to the work order monitoring module. The method and the device solve the problems that in the related technology, the data center is not monitored in place in the operation process, the command operation is lack of timeliness, and the processing result cannot be effectively monitored.

Description

Data center command system

Technical Field

The application relates to the field of data processing, in particular to a data center command system.

Background

The monitoring of current data center based on data is supported by bottom acquisition system, and data center's basic equipment running state, trouble warning processing, communication modes such as personnel's dispatch are all traditional, and based on the traditional mode of top-down under the line, lack the promptness, the transparency can't effectively monitor the processing result.

Aiming at the problems that the monitoring is not in place, the command operation is lack of timeliness and the processing result cannot be effectively monitored in the operation process of the data center in the related technology, an effective solution is not provided at present.

Disclosure of Invention

The main purpose of the present application is to provide a data center command system, so as to solve the problems in the related art that the data center operation process is not properly supervised, the command operation lacks timeliness, and the processing result cannot be effectively monitored.

In order to achieve the above object, the present application provides a data center commanding system, including:

display terminal and command unit, command unit includes:

the scene monitoring module is used for acquiring scene image information of the data center and transmitting the scene image information to the display terminal for displaying;

the equipment monitoring module is used for acquiring the running state and/or data of the data center equipment and transmitting the running state and/or data to the display terminal for displaying;

the work order monitoring module is used for acquiring the work order tasks of the data center and transmitting the work order tasks to the display terminal for displaying;

and the operation module is used for sending a scene switching instruction to the scene monitoring module, sending an equipment switching instruction to the equipment monitoring module and sending a checking and operating instruction to the work order monitoring module.

Further, the device monitoring module includes:

the data acquisition unit is used for acquiring the operation data of the data center equipment;

the state acquisition unit is used for acquiring the running state of the data center equipment;

the processing unit is used for processing the operation data and the operation state of the data center equipment to generate a system diagram and sending the system diagram to the display terminal;

the operation module is connected with the data acquisition unit and the state acquisition unit.

Furthermore, the data center equipment comprises temperature and humidity monitoring equipment, heating and ventilating equipment, electrical equipment and a first cabinet.

Further, the scene monitoring module includes: the monitoring camera is arranged in a scene of the data center and used for acquiring scene image information of the data center in real time; and the image transmission unit is used for transmitting the scene image information to a display terminal for displaying.

Further, the work order monitoring module comprises: the work order obtaining unit is used for obtaining a task work order; and the work order transmission unit is used for transmitting the task work order to a display terminal for displaying.

The system further comprises a personnel monitoring module, a display terminal and a data center monitoring module, wherein the personnel monitoring module is used for acquiring position information of personnel in the data center and transmitting the position information to the display terminal for displaying; the personnel monitoring module comprises: the position acquisition unit is used for receiving the position information of the personnel in the data center and sending the position information to the display terminal for displaying; and the information acquisition unit is used for acquiring the patent capability information and the technical capability information of the personnel in the data center and sending the patent capability information and the technical capability information to the display terminal for displaying.

Further, the method also comprises the following steps: the emergency processing unit is used for monitoring the operation data and/or the state of the data center equipment and outputting a signal when the equipment is abnormal; the scene switching unit is used for receiving the signal sent by the emergency processing unit to control the display terminal to switch scene images; the personnel calling unit is used for receiving the output signal of the emergency processing unit and controlling the position acquisition unit and the information acquisition unit to display the personnel and information which can be extracted and adjusted at the periphery of the data center on the display terminal; and the notification unit is used for receiving the output signal of the emergency processing unit and sending a notification, and the display terminal displays the notification condition.

And the warning module is used for carrying out warning reminding and warning information collection statistics based on the triggering of the warning condition and displaying the warning information through the display terminal.

Further, the alarm module comprises:

the real-time alarm reminding unit is used for displaying through the display terminal based on the triggering of the alarm service;

the service zero report high risk reminding unit is used for displaying through the display terminal based on the triggering of the zero report service;

the weather disaster early warning unit is used for butting central weather forecast interface data based on a city where the data center is located, pushing abnormal weather under the current data center in real time and displaying the abnormal weather through the display terminal;

the system is connected with the real-time warning and reminding unit, the service zero-alarm high-risk warning unit and the weather disaster early warning unit, counts the triggered warning and displays the warning through the display terminal.

Further, the method also comprises the following steps: the fatigue monitoring module is used for acquiring fatigue information of commanders and reminding when preset conditions are reached; the remote robot operation module is used for sending an operation instruction to the remote robot; and the voice recognition module is used for acquiring the voice information of the commander, converting the voice information into instruction information and transmitting the instruction information to the terminal.

Further, the fatigue monitoring module comprises: the eye monitoring camera is used for acquiring eye activity information of personnel on the command seat; and the eye movement processing unit is used for receiving the glasses movement information for analysis, and outputting and reminding when an abnormal result is obtained.

Further, the emergency scene switching module automatically switches to a response circle mode in an emergency scene based on a specific service scene, and intensively monitors the notification object, the notification progress, the current emergency disposal process and the real-time field personnel resource monitoring.

In this embodiment of the present application, by providing a display terminal and a command unit, the command unit includes: the scene monitoring module is used for acquiring scene image information of the data center and transmitting the scene image information to the display terminal for displaying; the equipment monitoring module is used for acquiring the running state and data of the data center equipment and transmitting the running state and data to the display terminal for displaying; the work order monitoring module is used for acquiring the work order tasks of the data center and transmitting the work order tasks to the display terminal for displaying; the operation module is used for sending a scene switching instruction to the scene monitoring module, sending an equipment switching instruction to the equipment monitoring module and sending a checking and operation instruction to the work order monitoring module, so that the purposes of uniformly monitoring equipment operation, scenes and work order tasks in a data center and timely issuing instruction information are achieved, the technical effects of improving the timeliness and instruction transmission real-time performance of data center supervision are achieved, and the problems that the supervision is not in place in the operation process of the data center in the related technology, the command operation is lack of timeliness and the processing result cannot be effectively monitored are solved

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, serve to provide a further understanding of the application and to enable other features, objects, and advantages of the application to be more apparent. The drawings and their description illustrate the embodiments of the invention and do not limit it. In the drawings:

FIG. 1 is a schematic structural diagram according to an embodiment of the present application;

FIG. 2 is a schematic diagram of a device monitoring module according to an embodiment of the present application;

FIG. 3 is a schematic structural diagram of a scene monitoring module according to an embodiment of the present application;

FIG. 4 is a schematic diagram of a work order monitoring module according to an embodiment of the present application;

FIG. 5 is a schematic structural diagram of an alarm module according to an embodiment of the present application;

FIG. 6 is a schematic structural diagram of an emergency treatment module according to an embodiment of the present application;

the system comprises a command unit 1, an equipment monitoring module 2, a data acquisition unit 21, a processing unit 22, a data center equipment 23, a state acquisition unit 24, a scene monitoring module 3, a monitoring camera 31, an image transmission unit 32, a display terminal 4, a work order monitoring module 5, a work order acquisition unit 51, a work order transmission unit 52, an operation module 6, a personnel monitoring module 7, an information acquisition unit 71, a position acquisition unit 72, an early warning module 8, a real-time 81 warning and reminding unit, a service zero report and reminding unit 82, a weather disaster warning and reminding unit 83, a warning data statistics unit 83, an emergency handling module 9, a scene switching unit 91, a notification unit 92, an emergency processing unit 93 and a personnel calling unit 94.

Detailed Description

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only partial embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged under appropriate circumstances such that embodiments of the application described herein may be used.

In this application, the terms "upper", "lower", "inside", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings. These terms are used primarily to better describe the present application and its embodiments, and are not used to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation.

Moreover, some of the above terms may be used to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meaning of these terms in this application will be understood by those of ordinary skill in the art as appropriate.

Furthermore, the terms "disposed," "provided," "connected," "secured," and the like are to be construed broadly. For example, "connected" may be a fixed connection, a detachable connection, or a unitary construction; can be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements or components. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

In addition, the term "plurality" shall mean two as well as more than two.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

As shown in fig. 1 to 5, an embodiment of the present application provides a data center command system, including:

display terminal 4 and commander unit 1, commander unit 1 includes:

the scene monitoring module 3 is used for acquiring scene image information of the data center and transmitting the scene image information to the display terminal 4 for displaying;

the equipment monitoring module 2 is used for acquiring the running state and/or data of the data center equipment 23 and transmitting the running state and/or data to the display terminal 4 for displaying;

the work order monitoring module 5 is used for acquiring the work order tasks of the data center and transmitting the work order tasks to the display terminal 4 for displaying;

and the operation module 6 is used for sending a scene switching instruction to the scene monitoring module 3, sending an equipment switching instruction to the equipment monitoring module 2, and sending a checking and operating instruction to the work order monitoring module 5.

In this embodiment, the display terminal 4 includes a display screen, and displays scene image information of the data center, an equipment running state, data, and a work order task in real time through the display screen, the scene monitoring module 3 is composed of a monitoring camera 31 and an image transmission unit 32, the monitoring camera 31 is installed in a plurality of scenes of the data center, and can perform scene configuration on cameras of different angles in the plurality of scenes through data configuration, so as to acquire image information of each scene of the data center in real time, and transmit the image information to the display terminal 4 through the image transmission unit 32 for display, and a user can send a scene switching instruction to the scene monitoring module 3 through the operation module 6, so as to call out image information of a specified monitoring scene, and can switch a currently monitored campus, or select only a single data center for monitoring;

the device monitoring module 2 includes: a data acquisition unit 21, configured to acquire operation data of the data center equipment 23; a state acquisition unit 24 configured to acquire an operation state of the data center device 23; the processing unit 22 is used for processing the operation data and the operation state of the data center equipment 23 to generate a system diagram and sending the system diagram to the display terminal 4; the operation module 6 is connected to the data acquisition unit 21 and the status acquisition unit 24.

The data acquisition unit 21 is connected with each operating device of the data center to acquire operating data of the devices in real time, the data includes core parameters, the state acquisition unit 24 is connected with each operating device of the data center to acquire operating states of the devices in real time, and the devices of the data center include temperature and humidity monitoring devices, heating and ventilation devices, electrical devices and first cabinets. For the duration of UPS/HVDC in the electrical equipment, the operation parameters of a cold water host machine, a freezing pump, a secondary freezing pump, a cooling tower, a cold storage tank, a freezing main pipe, temperature and humidity key measuring points and a precision air conditioner are used as core equipment monitoring of a data center, can be independently monitored and are independently displayed on a display terminal 4, for example, when the display terminal 4 adopts at least three display screens, the operation state and data of the equipment are displayed by one display screen and can be positioned in the middle of the equipment so as to be conveniently checked by a commander in time, and other operation states and data are displayed by the other display screen;

in order to facilitate the director to visually check the operation state and data of each device, the received device operation data and operation state are used for producing a system diagram through the processing unit 22, the system diagram of the corresponding device is displayed on the display terminal 4, and the system diagram comprises a temperature and humidity monitoring main diagram, a heating and ventilation monitoring main diagram, an electrical monitoring main diagram, a column head cabinet monitoring main diagram and the like. And the free monitoring combined mode that the upper layer overview, the middle layer switching and the bottom layer see the operation state details is realized.

As shown in fig. 1 to 5, the work order monitoring module 5 includes: a work order obtaining unit 51 for obtaining a task work order; the work order transmission unit 52 is used for transmitting the task work order to the display terminal 4 for displaying, the work order acquisition unit 51 acquires all work order tasks under the data center, the work order tasks can be led in from a database and can also be input by a user, the work order transmission unit 52 transmits all the work order tasks to the display terminal 4 for displaying, and a commander can send viewing and operating instructions to the work order monitoring module 5 through the operation module 6, so that all the work order tasks of the data center can be viewed in real time, the real-time progress of the work order tasks can be followed, and the operation of the flow nodes can be realized.

From the above, it can be seen that the present embodiment implements complete data center service full coverage, highly integrated basic device operation, transaction work order basis, core data parameter early warning, highest-level security measures such as real-time positioning of logistics personnel, and instruction transmission real-time property, information feedback symmetry, avoiding information islanding, and achieving the purpose of uniformly monitoring the device operation, scene, work order tasks in the data center and issuing instruction information in time in an instruction stream transmission manner from a bottom layer to a high layer and from the high layer to the bottom layer, thereby achieving the technical effects of improving the timeliness of data center supervision and instruction transmission real-time property, and further solving the problems that the supervision is not in place in the data center operation process in the related technology, the command operation lacks timeliness, and the processing result cannot be effectively monitored.

As shown in fig. 1 to fig. 6, the system further includes a local system service monitoring module, where the local system service monitoring module includes a network monitoring module, and is configured to obtain network information of the data center, and display the network information through the display terminal 4, so as to ensure reliability of a network path from a single point to T2 and from the single point to T3; the business monitoring module is used for acquiring the access control information and the server information of the data center and displaying the access control information and the server information through the display terminal 4; and the data monitoring module is used for monitoring the API interface and the database. The system also comprises an emergency scene monitoring module 3 which is used for automatically switching to a response circle mode in an emergency scene based on a specific service scene, and monitoring a notification object, a notification progress, a current emergency disposal process, real-time field personnel resources and the like in a centralized manner.

The system also comprises a personnel monitoring module 7, which is used for acquiring the position information of personnel in the data center and transmitting the position information to the display terminal 4 for displaying; the people monitoring module 7 comprises: the position acquisition unit 72 is used for receiving the position information of the data center personnel and sending the position information to the display terminal 4 for displaying; the information acquisition unit 71 is configured to acquire the patent capability information and the technical capability information of the data center personnel and send the patent capability information and the technical capability information to the display terminal 4 for displaying, so that the in-place situation of the supervision personnel can be truly and reliably achieved, and the position information of the data center personnel can be acquired by position signal transmitting equipment worn by the personnel.

As shown in fig. 1 to 6, the apparatus further includes: the emergency processing unit 93 is used for monitoring the operation data and/or the state of the data center equipment 23 and outputting a signal when the equipment is abnormal; a scene switching unit 91, configured to receive the signal sent by the emergency processing unit 93 to control the display terminal 4 to switch scene images; the personnel calling unit 94 is used for receiving the output signal of the emergency processing unit 93 and controlling the position acquisition unit 72 and the information acquisition unit 71 to display personnel and information which can be extracted and adjusted around the data center on the display terminal 4; and the notification unit 92 is configured to receive the output signal of the emergency processing unit 93 and send a notification, and the display terminal 4 displays the notification, the emergency processing unit 93, the scene switching unit 91, the personnel calling unit 94, and the notification unit 92 are integrated into the emergency handling module 9, and the emergency handling module 9 is a part of the command unit 1.

The emergency processing unit 93 monitors the running data and/or state of the data center equipment 23 in real time, and performs emergency processing when the data and/or state is abnormal, for example, when the equipment is shut down, the power supply is interrupted, and the like, the emergency processing unit 93 sends an emergency signal to the scene switching unit 91, the scene switching unit 91 controls the display terminal 4 to switch the display scene to the scene where the corresponding equipment is located, and obtains the information of the field processing process in real time, including the actual operation content of field processing personnel, the operation reality and the corresponding processing scheme, so as to ensure that the field is symmetrical to the information of a first-line team and a second-line team, and the specific scene is highlighted through the display terminal 4;

the personnel calling unit 94 receives the signal of the emergency processing unit 93, calls the personnel, which can be optionally adjusted, around the current data center through the position obtaining unit 72, matches the information of the corresponding personnel through the information obtaining unit 71, the information includes patent capability and technical capability, then displays the information on the display terminal 4, ensures that the mobility of the personnel can be put into necessary field problem upgrading at any time, and the notification unit 92 receives the signal of the emergency processing unit 93, notifies the technical layer, the leader layer and the client layer of the corresponding scene, wherein the notification mode can be telephone notification, and displays the notification conditions, including the answered conditions, on the display terminal 4. The display terminal 4 monitors the member information of the current on-duty team in real time, including the condition of the current technical team personnel, the current technical personnel specialty, the actual position where the current personnel say, and the like. In the embodiment, the problem that the current personnel are covered can be solved actually, and the personnel skills can ensure that the personnel line with the logistics personnel in place is 100% safe.

As shown in fig. 1 to 5, the system further includes an early warning module 8, which performs alarm reminding and alarm information collection statistics based on triggering of alarm conditions, and displays the alarm reminding and the alarm information collection statistics through the display terminal 4. The alarm module includes: the real-time alarm reminding unit 81 displays the alarm service through the display terminal 4 based on the triggering of the alarm service; the service zero report high risk reminding unit is used for displaying through the display terminal 4 based on the triggering of the zero report service; the weather disaster early warning unit is used for butting central weather forecast interface data based on a city where the data center is located, pushing abnormal weather under the current data center in real time and displaying the abnormal weather through the display terminal 4; and the warning device is connected with the real-time warning and reminding unit 81, the service zero-alarm high-risk warning and weather disaster early warning unit, counts the triggered warning and displays the warning through the display terminal 4. When the display terminal 4 adopts three display screens, the triggering of the alarm module is prompted by the middle screen, and the prompting mode can be screen flashing and the like. And setting a mutual monitoring module of the main and standby data centers according to the service management requirement, wherein the mutual monitoring module is used for realizing a mutual monitoring mechanism of the main and standby data centers and carrying out mutual standby monitoring and reminding on the core service of the standby data center.

Further comprising: a command seat; the fatigue monitoring module is used for acquiring fatigue information of commanders and reminding when preset conditions are reached; the remote robot operation module is used for sending an operation instruction to the remote robot; and the voice recognition module is used for acquiring the voice information of the commander, converting the voice information into instruction information and transmitting the instruction information to the terminal.

The fatigue degree monitoring module comprises: the eye monitoring camera is used for acquiring eye movement information of personnel on the command seat, can track eyeball movement, and prompts after data analysis of blinking times, and can be installed on the display terminal or other positions where the eyes of the command personnel can be monitored; and the eye movement processing unit is used for receiving the glasses movement information for analysis, and outputting and reminding when an abnormal result is obtained.

The remote robot operation module comprises a robot operation rod arranged on a command seat, a voice recognition and interaction control module can be arranged on the command seat and can automatically recognize commands of a commander and control the business scene in combination with the business scene, a gravity sensor and a vibration generator are arranged on the command seat, the weight characteristics of the commander are tracked, legal identities are identified and intelligent vibration prompts are given in combination with the business scene, an intelligent lamp strip is arranged at the lower end of the command seat and can automatically switch the colors of the lamp strip in combination with the business scene, and the serious and high-risk events are warned, the identity verification module comprises a face recognition camera and a fingerprint recognition module, the face recognition camera can be arranged on a touch screen and used for legally verifying the identity of the commander in combination with the business scene, and the fingerprint recognition module can be arranged on the armrest of the command seat, the video command conference system is characterized by further comprising head-mounted video glasses, wherein the head-mounted video glasses are used for conducting secondary identity verification when important matters or core equipment are operated in combination with a service scene, a video command conference working mode can be established by field personnel in real time in combination with the service scene, and experts remotely intervene to conduct troubleshooting and quick positioning in person, so that an optimal solution is provided.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (7)

1. A data center command system, comprising:

display terminal and command unit, command unit includes:

the scene monitoring module is used for acquiring scene image information of the data center and transmitting the scene image information to the display terminal for displaying;

the equipment monitoring module is used for acquiring the running state and data of the data center equipment and transmitting the running state and data to the display terminal for displaying;

the work order monitoring module is used for acquiring the work order tasks of the data center and transmitting the work order tasks to the display terminal for displaying;

the operation module is used for sending a scene switching instruction to the scene monitoring module, sending an equipment switching instruction to the equipment monitoring module and sending a checking and operating instruction to the work order monitoring module; and the number of the first and second groups,

the command seat is provided with an identity verification module for verifying identity and a remote robot operation module for sending an operation instruction to a remote robot;

the fatigue monitoring module is used for acquiring fatigue information of commanders and reminding when preset conditions are reached;

the fatigue degree monitoring module comprises: the eye monitoring camera is used for acquiring eye movement information of personnel on the command seat, can track eyeball movement, prompts after data analysis of blinking times, and can be installed on the display terminal or other positions where the eyes of the command personnel can be monitored;

the eye movement processing unit is used for receiving the eye movement information for analysis, outputting and reminding when an abnormal result is obtained;

the command seat is provided with a gravity sensor and a vibration generator, and the weight characteristics and the legal identity of a commander are tracked and intelligent vibration prompt is given in combination with a service scene;

the device monitoring module includes:

the data acquisition unit is used for acquiring the operation data of the data center equipment;

the state acquisition unit is used for acquiring the running state of the data center equipment;

the processing unit is used for processing the operation data and the operation state of the data center equipment to generate a system diagram and sending the system diagram to the display terminal;

the operation module is connected with the data acquisition unit and the state acquisition unit;

the data center command system further comprises:

the personnel monitoring module is used for acquiring position information of personnel in the data center and transmitting the position information to the display terminal for displaying;

the personnel monitoring module comprises:

the position acquisition unit is used for receiving the position information of the personnel in the data center and sending the position information to the display terminal for displaying;

the information acquisition unit is used for acquiring professional ability information and technical ability information of data center personnel and sending the professional ability information and the technical ability information to the display terminal for displaying; the data center command system further comprises:

the emergency processing unit is used for monitoring the operation data and/or the state of the data center equipment and outputting a signal when the equipment is abnormal;

the scene switching unit is used for receiving the signal sent by the emergency processing unit to control the display terminal to switch scene images;

the personnel calling unit is used for receiving the output signal of the emergency processing unit and controlling the position acquisition unit and the information acquisition unit to display the personnel and information which can be extracted and adjusted at the periphery of the data center on the display terminal;

the notification unit is used for receiving the output signal of the emergency processing unit and sending a notification, and the display terminal displays the notification condition;

the emergency processing unit monitors the operation data and/or the state of the data center equipment in real time and sends an emergency signal to the scene switching unit when the data and/or the state are abnormal; the scene switching unit controls the display terminal to switch the display scene into a scene where the corresponding equipment is located on site, and obtains information of a site processing process in real time, wherein the information comprises actual operation content, actual operation and a corresponding processing scheme of site processing personnel, so that the site is ensured to keep information symmetry with a first-line team and a second-line team, and the specific scene generated is highlighted through the display terminal;

after receiving the signal of the emergency processing unit, the personnel calling unit calls the personnel which can be optionally called at the periphery of the current data center through the position acquisition unit, matches the information of the corresponding personnel through the information acquisition unit, wherein the information comprises professional ability and technical ability, and then displays the information on the display terminal;

the notification unit notifies a technical layer, a leader layer and a client layer of a corresponding scene after receiving the signal of the emergency processing unit, and displays notification conditions including the answered condition on a display terminal;

the display terminal monitors the member information of the current on-duty team in real time, wherein the member information comprises the personnel condition of the current technical team, the professional of the current technical team and the actual position of the current personnel.

2. The data center command system of claim 1, wherein the data center equipment comprises temperature and humidity monitoring equipment, heating and ventilation equipment, electrical equipment, and a column head cabinet.

3. The data center command system of claim 1, wherein the scene monitoring module comprises:

the monitoring camera is arranged in a scene of the data center and used for acquiring scene image information of the data center in real time;

and the image transmission unit is used for transmitting the scene image information to a display terminal for displaying.

4. The data center command system of claim 1, wherein the work order monitoring module comprises:

the work order obtaining unit is used for obtaining a task work order;

and the work order transmission unit is used for transmitting the task work order to a display terminal for displaying.

5. The data center command system according to claim 1, further comprising an early warning module for performing alarm reminding and alarm information collection statistics based on triggering of alarm conditions, and displaying the alarm reminding and alarm information collection statistics through a display terminal.

6. The data center command system of claim 5, wherein the early warning module comprises:

the real-time alarm reminding unit is used for displaying through the display terminal based on the triggering of the alarm service;

the service zero report high risk reminding unit is used for displaying through the display terminal based on the triggering of the zero report service;

the weather disaster early warning unit is used for butting central weather forecast interface data based on a city where the data center is located, pushing abnormal weather under the current data center in real time and displaying the abnormal weather through the display terminal;

and the alarm data statistics unit is connected with the real-time alarm reminding unit, the service zero-alarm high-risk reminding unit and the weather disaster early warning unit, counts the triggered alarms, and displays the triggered alarms through the display terminal.

7. The data center command system of claim 1, further comprising:

and the voice recognition module is used for acquiring the voice information of the commander, converting the voice information into instruction information and transmitting the instruction information to the terminal.

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