阅读说明：本技术 一种基于d5000系统的调度员席位实时监测系统及方法 (Dispatcher seat real-time monitoring system and method based on D5000 system ) 是由 王瑞 郭耀松 罗达诗 杨博 杨哲 管钒均 白建民 薛世阳 花硕 于 2021-06-08 设计创作，主要内容包括：本发明公开了一种基于D5000系统的调度员席位实时监测系统及方法,所述系统包括包括调度员席位监测客户端和生物识别服务端；所述调度员席位监测客户端实时监测调度员席位的生物信息,将该生物信息上送给生物识别服务端；所述生物识别服务端基于接收到的生物信息识别出席位上的调度员信息,并反馈至调度员席位监测客户端,使得所述调度员席位监测客户端基于接收到的信息执行D5000系统中所有应用预设的动作,完成调度员席位实时监测。本发明利用生物识别技术实现调度员席位的实时监测功能,从而使D5000调控系统在使用操作过程中更加安全、便捷。(The invention discloses a dispatcher seat real-time monitoring system and a dispatcher seat real-time monitoring method based on a D5000 system, wherein the system comprises a dispatcher seat monitoring client and a biological identification server; the dispatcher seat monitoring client monitors the biological information of the dispatcher seat in real time and sends the biological information to the biological identification server; the biological identification server identifies dispatcher information on the attendance position based on the received biological information and feeds the dispatcher information back to the dispatcher seat monitoring client, so that the dispatcher seat monitoring client executes all actions preset by the application in the D5000 system based on the received information to complete real-time monitoring of the dispatcher seat. The invention realizes the real-time monitoring function of the dispatcher seat by utilizing the biological identification technology, thereby ensuring that the D5000 regulation and control system is safer and more convenient in the using and operating process.)

1. A dispatcher seat real-time monitoring system based on a D5000 system is characterized by comprising a dispatcher seat monitoring client and a biological identification server;

the dispatcher seat monitoring client monitors the biological information of the dispatcher seat in real time and sends the biological information to the biological identification server; the biological identification server identifies dispatcher information on the attendance position based on the received biological information and feeds the dispatcher information back to the dispatcher seat monitoring client, so that the dispatcher seat monitoring client executes all actions preset by the application in the D5000 system based on the received information to complete real-time monitoring of the dispatcher seat.

2. The real-time monitoring system for dispatcher seats based on D5000 system as claimed in claim 1, wherein: the dispatcher seat monitoring client comprises a dispatcher seat monitoring service unit and a D5000 regulating and controlling system master console; the dispatcher seat monitoring service unit monitors the biological information of the dispatcher seat in real time, sends the information to the biological identification service terminal, and receives the dispatcher information on the seat fed back by the biological identification service terminal;

and the D5000 regulation and control system master console receives the dispatcher information on the seats in real time, determines whether the D5000 regulation and control system needs to automatically log in and log out, and verifies the consistency of the seat information and the login account in real time in the operation process of the dispatcher.

3. The real-time monitoring system for dispatcher seats based on D5000 system as claimed in claim 2, wherein: the dispatcher seat monitoring service unit collects the state of the peripheral in real time so as to control the frequency of collecting the biological information.

4. The real-time monitoring system for dispatcher seats based on D5000 system as claimed in claim 3, wherein: and when the dispatcher seat monitoring service unit monitors that the dispatcher operates the peripheral equipment, increasing the acquisition frequency.

5. The real-time monitoring system for dispatcher seats based on D5000 system as claimed in claim 3, wherein: the peripheral equipment comprises a mouse and a keyboard;

the dispatcher seat monitoring service unit is used for collecting dispatcher biological information on a seat in real time by combining with monitoring whether the peripheral equipment of a mouse and a keyboard is operated or not, sending the biological information to a biological identification service terminal for the biological identification service terminal to identify the biological information, feeding back a corresponding user name of a dispatcher on the seat to the dispatcher seat monitoring service unit, and finally sending the user name to a master control console of a D5000 regulation and control system through the dispatcher seat monitoring service unit;

and the D5000 regulation and control system master console judges whether to automatically log in or log in by combining the current user login state based on the received corresponding user name of the dispatcher on the seat, judges whether to accord with the safety operation by combining each step of operation of the dispatcher, and quits and gives an alarm in time when the operation does not accord with the safety operation.

6. The real-time monitoring system for dispatcher seats based on D5000 system as claimed in claim 1, wherein: the biological identification service end comprises a dispatcher biological information management unit and a biological information identification service unit;

the dispatcher biological information management unit carries out man-machine interaction through an interface and transmits a related request of biological information to the biological information identification service unit, and the biological information identification service unit identifies dispatcher information on the attendance position by using a biological information identification algorithm.

7. The real-time monitoring system for dispatcher seats based on D5000 system as claimed in claim 6, wherein said dispatcher biological information management unit comprises:

the dispatcher biological information registration module is used for inputting biological information of a dispatcher and the D5000 user name of the dispatcher, registering the biological information to the dispatcher biological information management unit, transmitting the biological information to the biological information identification service unit, and allowing the biological information identification service unit to identify the received biological information and obtain the corresponding dispatcher user name;

the anti-registration module is used for removing the biological information of the dispatcher from the biological information management unit of the dispatcher and transmitting the biological information to the biological identification service unit so that the biological identification service unit deletes corresponding data;

and the strategy parameter configuration management module is used for setting a white list, biological information acquisition frequency and identification precision, wherein the user name in the white list is not subjected to biological information identification, login is carried out through a user name password, and the user is a public account.

8. A dispatcher seat real-time monitoring method based on a D5000 system is characterized by comprising the following steps:

monitoring biological information of the dispatcher seat in real time by using the dispatcher seat monitoring client, and transmitting the biological information to a biological identification server;

and identifying dispatcher information on the attendance position by using the biological identification server based on the received biological information, and feeding back the dispatcher seat information to the dispatcher seat monitoring client, so that the dispatcher seat monitoring client executes preset actions based on the received information to complete real-time monitoring of the dispatcher seat.

9. The real-time monitoring method for dispatcher seats based on D5000 system as claimed in claim 8, wherein said dispatcher seat monitoring client comprises dispatcher seat monitoring service unit and D5000 regulation and control system master console;

the dispatcher seat monitoring service unit monitors the biological information of the dispatcher seat in real time, sends the information to the biological identification service terminal, and receives the dispatcher information on the seat fed back by the biological identification service terminal;

and the D5000 regulation and control system master console receives the dispatcher information on the seats in real time, determines whether the D5000 regulation and control system needs to automatically log in and log out, and verifies the consistency of the seat information and the login account in real time in the operation process of the dispatcher.

10. The real-time monitoring method for dispatcher seats based on D5000 system as claimed in claim 9, wherein said dispatcher seat monitoring service unit collects the status of peripheral in real time to control the frequency of collecting biological information;

the peripheral equipment comprises a mouse and a keyboard;

the dispatcher seat monitoring service unit is used for collecting dispatcher biological information on a seat in real time by combining with monitoring whether the peripheral equipment of a mouse and a keyboard is operated or not, sending the biological information to a biological identification service terminal for the biological identification service terminal to identify the biological information, feeding back a corresponding user name of a dispatcher on the seat to the dispatcher seat monitoring service unit, and finally sending the user name to a master control console of a D5000 regulation and control system through the dispatcher seat monitoring service unit;

and the D5000 regulation and control system master console judges whether to automatically log in or log in by combining the current user login state based on the received corresponding user name of the dispatcher on the seat, judges whether to accord with the safety operation by combining each step of operation of the dispatcher, and quits and gives an alarm in time when the operation does not accord with the safety operation.

11. The real-time monitoring method for dispatcher seats based on D5000 system as claimed in claim 8, wherein said biometric server comprises dispatcher biometric information management unit and biometric information identification service unit;

the dispatcher biological information management unit carries out man-machine interaction through an interface and transmits a related request of biological information to the biological information identification service unit, and the biological information identification service unit identifies dispatcher information on the attendance position by using a biological information identification algorithm.

12. The method as claimed in claim 11, wherein the dispatcher seat real-time monitoring unit based on the D5000 system comprises:

the dispatcher biological information registration module is used for inputting biological information of a dispatcher and the D5000 user name of the dispatcher, registering the biological information to the dispatcher biological information management unit, transmitting the biological information to the biological information identification service unit, and allowing the biological information identification service unit to identify the received biological information and obtain the corresponding dispatcher user name;

the anti-registration module is used for removing the biological information of the dispatcher from the biological information management unit of the dispatcher and transmitting the biological information to the biological identification service unit so that the biological identification service unit deletes corresponding data;

and the strategy parameter configuration management module is used for setting a white list, biological information acquisition frequency and identification precision, wherein the user name in the white list is not subjected to biological information identification, login is carried out through a user name password, and the user is a public account.

Technical Field

The invention belongs to the technical field of electric power automatic monitoring systems, and particularly relates to a dispatcher seat real-time monitoring system and method based on a D5000 system.

Background

With the high-speed development of economy in China, higher requirements are put forward for the whole power industry, power supply reliability also becomes the target pursued by all power enterprises, and meanwhile, the problems of improving the user experience of using a scheduling system and solving the actual existing problems are also put forward by means of a novel artificial intelligence technology. In the automatic system for regulating and controlling the D5000 power, the safety operation of a dispatcher is particularly important. On one hand, the operations of changing models, placing cards, controlling and the like for updating system data are issued in an alarm mode so as to ensure that the operations can be traced and accountable to people. The operation requires that a dispatcher has certain operation authority, and further requires that an operator is consistent with a login account so as to prohibit the dispatcher from performing some operations through other accounts and further cause the phenomenon of unclear accident problem and responsibility; on the other hand, if the dispatcher leaves the seat and forgets to quit the system account in the login validity period, an unsafe phenomenon is generated due to the occurrence of the dispatcher seat idle period, and the D5000 regulation and control system is required to perform fault-tolerant processing on the phenomenon. The existing solution is that after a dispatcher registers, a login window is opened, and system login is performed by inputting a user name and a password or a UKEY input mode, and the method specifically comprises the following steps: after a login window is opened in a master console, a user name and a password are selected for login or UKEY login; and selecting an effective duration; the authority management service verifies the input account information, enters a regulation and control system after verification is successful, and can operate according to the authority; and after the validity period is exceeded, the system automatically quits the account. Therefore, the prior scheme has the following technical problems:

(1) the authentication process is realized by complicated operation and input of a user name and a password without using a new IT technology, and the user experience needs to be improved;

(2) only the dispatcher authentication admission function is realized, and whether the dispatcher is really consistent with the account number or not cannot be detected, namely, the dispatcher A can operate after successfully logging in by borrowing the account number of the dispatcher B, so that the account number safety problem is caused;

(3) the dispatcher leaves and quits within the valid period of login; the following unsafe scenario may occur: after the dispatcher A successfully logs in through the own account, the dispatcher B forgets to quit the account due to some thing in the login valid period, and operates in the position of the dispatcher B, so that the safety problem of uncertain accident responsibility is finally caused.

Disclosure of Invention

Aiming at the problems, the invention provides a dispatcher seat real-time monitoring system and method based on a D5000 system, which realize the real-time monitoring function of a dispatcher seat by utilizing a biological identification technology, so that the D5000 regulation and control system is safer and more convenient in the using and operating process.

In order to achieve the technical purpose and achieve the technical effects, the invention is realized by the following technical scheme:

in a first aspect, the invention provides a dispatcher seat real-time monitoring system based on a D5000 system, which comprises a dispatcher seat monitoring client and a biological identification server;

the dispatcher seat monitoring client monitors the biological information of the dispatcher seat in real time and sends the biological information to the biological identification server; the biological identification server identifies dispatcher information on the attendance position based on the received biological information and feeds the dispatcher information back to the dispatcher seat monitoring client, so that the dispatcher seat monitoring client executes all actions preset by the application in the D5000 system based on the received information to complete real-time monitoring of the dispatcher seat.

Optionally, the dispatcher seat monitoring client includes a dispatcher seat monitoring service unit and a D5000 regulation and control system master console;

the dispatcher seat monitoring service unit monitors the biological information of the dispatcher seat in real time, sends the information to the biological identification service terminal, and receives the dispatcher information on the seat fed back by the biological identification service terminal;

and the D5000 regulation and control system master console receives the dispatcher information on the seats in real time, determines whether the D5000 regulation and control system needs to automatically log in and log out, and verifies the consistency of the seat information and the login account in real time in the operation process of the dispatcher.

Optionally, the dispatcher seat monitoring service unit collects the state of the peripheral in real time to control the frequency of collecting the biological information.

Optionally, when the dispatcher seat monitoring service unit monitors that the dispatcher operates the peripheral, the collection frequency is increased.

Optionally, the peripheral comprises a mouse and a keyboard;

the dispatcher seat monitoring service unit is used for collecting dispatcher biological information on a seat in real time by combining with monitoring whether the peripheral equipment of a mouse and a keyboard is operated or not, sending the biological information to a biological identification service terminal for the biological identification service terminal to identify the biological information, feeding back a corresponding user name of a dispatcher on the seat to the dispatcher seat monitoring service unit, and finally sending the user name to a master control console of a D5000 regulation and control system through the dispatcher seat monitoring service unit;

and the D5000 regulation and control system master console judges whether to automatically log in or log in by combining the current user login state based on the received corresponding user name of the dispatcher on the seat, judges whether to accord with the safety operation by combining each step of operation of the dispatcher, and quits and gives an alarm in time when the operation does not accord with the safety operation.

Optionally, the biometric service end includes a dispatcher biometric information management unit and a biometric information identification service unit;

the dispatcher biological information management unit carries out man-machine interaction through an interface and transmits a related request of biological information to the biological information identification service unit, and the biological information identification service unit identifies dispatcher information on the attendance position by using a biological information identification algorithm.

Optionally, the dispatcher biological information management unit includes:

the dispatcher biological information registration module is used for inputting biological information of a dispatcher and the D5000 user name of the dispatcher, registering the biological information to the dispatcher biological information management unit, transmitting the biological information to the biological information identification service unit, and allowing the biological information identification service unit to identify the received biological information and obtain the corresponding dispatcher user name;

the anti-registration module is used for removing the biological information of the dispatcher from the biological information management unit of the dispatcher and transmitting the biological information to the biological identification service unit so that the biological identification service unit deletes corresponding data;

and the strategy parameter configuration management module is used for setting a white list, biological information acquisition frequency and identification precision, wherein the user name in the white list is not subjected to biological information identification, login is carried out through a user name password, and the user is a public account.

In a second aspect, the present invention provides a dispatcher seat real-time monitoring method based on a D5000 system, including:

monitoring biological information of the dispatcher seat in real time by using the dispatcher seat monitoring client, and transmitting the biological information to a biological identification server;

and identifying dispatcher information on the attendance position by using the biological identification server based on the received biological information, and feeding back the dispatcher seat information to the dispatcher seat monitoring client, so that the dispatcher seat monitoring client executes preset actions based on the received information to complete real-time monitoring of the dispatcher seat.

Optionally, the dispatcher seat monitoring client includes a dispatcher seat monitoring service unit and a D5000 regulation and control system master console;

the dispatcher seat monitoring service unit monitors the biological information of the dispatcher seat in real time, sends the information to the biological identification service terminal, and receives the dispatcher information on the seat fed back by the biological identification service terminal;

and the D5000 regulation and control system master console receives the dispatcher information on the seats in real time, determines whether the D5000 regulation and control system needs to automatically log in and log out, and verifies the consistency of the seat information and the login account in real time in the operation process of the dispatcher.

Optionally, the dispatcher seat monitoring service unit collects the state of the peripheral in real time to control the frequency of collecting the biological information;

the peripheral equipment comprises a mouse and a keyboard;

the dispatcher seat monitoring service unit is used for collecting dispatcher biological information on a seat in real time by combining with monitoring whether the peripheral equipment of a mouse and a keyboard is operated or not, sending the biological information to a biological identification service terminal for the biological identification service terminal to identify the biological information, feeding back a corresponding user name of a dispatcher on the seat to the dispatcher seat monitoring service unit, and finally sending the user name to a master control console of a D5000 regulation and control system through the dispatcher seat monitoring service unit;

the D5000 regulation and control system master console judges whether to automatically log in or log in by combining the current user login state based on the received user name corresponding to the dispatcher on the seat, judges whether to accord with the safe operation by combining each step of operation of the dispatcher, quits in time and gives an alarm when not in accord with the safe operation

Optionally, the biometric service end includes a dispatcher biometric information management unit and a biometric information identification service unit;

the dispatcher biological information management unit carries out man-machine interaction through an interface and transmits a related request of biological information to the biological information identification service unit, and the biological information identification service unit identifies dispatcher information on the attendance position by using a biological information identification algorithm.

Optionally, the dispatcher biological information management unit includes:

the dispatcher biological information registration module is used for inputting biological information of a dispatcher and the D5000 user name of the dispatcher, registering the biological information to the dispatcher biological information management unit, transmitting the biological information to the biological information identification service unit, and allowing the biological information identification service unit to identify the received biological information and obtain the corresponding dispatcher user name;

the anti-registration module is used for removing the biological information of the dispatcher from the biological information management unit of the dispatcher and transmitting the biological information to the biological identification service unit so that the biological identification service unit deletes corresponding data;

and the strategy parameter configuration management module is used for setting a white list, biological information acquisition frequency and identification precision, wherein the user name in the white list is not subjected to biological information identification, login is carried out through a user name password, and the user is a public account.

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

based on the real-time monitoring system and the real-time monitoring method for the dispatcher seat based on the D5000 system, the dispatcher can log in the D5000 regulation and control system by the user name of the dispatcher without any operation after the dispatcher is attended; the user can quit the D5000 regulation and control system in due time after leaving the seat, so that the intelligence and the convenience of the D5000 regulation and control system are improved, and the user experience of the whole system is improved.

According to the dispatcher seat real-time monitoring system and method based on the D5000 system, after the system is successfully logged in, the dispatcher seat real-time monitoring system ensures that each operation performed by a dispatcher is operated by a user, and prohibits others from logging in and operating by an account, so that the responsibility division is further clarified, and the safety of the whole system is improved.

Drawings

In order that the present disclosure may be more readily and clearly understood, reference is now made to the following detailed description of the present disclosure taken in conjunction with the accompanying drawings, in which:

fig. 1 is a diagram of a dispatcher seat real-time monitoring architecture in accordance with an embodiment of the present invention;

FIG. 2 is a flow chart of dispatcher biological information management according to one embodiment of the present invention;

fig. 3 is a flow chart of real-time monitoring of dispatcher seats according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and do not limit the scope of the invention.

The following detailed description of the principles of the invention is provided in connection with the accompanying drawings.

Example 1

The embodiment of the invention provides a dispatcher seat real-time monitoring system based on a D5000 system, which comprises a dispatcher seat monitoring client and a biological identification server as shown in figure 1;

the dispatcher seat monitoring client monitors the biological information of the dispatcher seat in real time and sends the biological information to the biological identification server;

the biological identification server identifies dispatcher information on the attendance position based on the received biological information and feeds the dispatcher information back to the dispatcher seat monitoring client, so that the dispatcher seat monitoring client executes all application preset actions in the D5000 system based on the received information to complete real-time dispatcher seat monitoring, and in the actual application process, the dispatcher seat monitoring client is deployed in the D5000 system and is managed by the D5000 system platform and the execution of functional processes also complies with the D5000 system specification.

In a specific implementation manner of the embodiment of the present invention, as shown in fig. 1, the dispatcher seat monitoring client includes a dispatcher seat monitoring service unit and a D5000 regulation and control system master console;

the dispatcher seat monitoring service unit monitors the biological information of the dispatcher seat in real time, sends the information to the biological identification service terminal, and receives the dispatcher information on the seat fed back by the biological identification service terminal; in a specific implementation process, the biological information can be collected through a camera and an intelligent fingerprint mouse;

and the D5000 regulation and control system master console receives the dispatcher information on the seats in real time, determines whether the D5000 regulation and control system needs to automatically log in and log out, and verifies the consistency of the seat information and the login account in real time in the operation process of the dispatcher.

In a specific implementation manner of the embodiment of the present invention, the dispatcher seat monitoring service unit acquires the state of the peripheral in real time to control the frequency of acquiring the biological information, thereby improving the efficiency of real-time monitoring of the dispatcher seat. When the dispatcher seat monitoring service unit monitors that the dispatcher operates the peripheral equipment, the acquisition frequency is increased so as to ensure the operation safety of the regulation and control system. Specifically, the peripheral comprises a mouse and a keyboard;

the dispatcher seat monitoring service unit is used for collecting dispatcher biological information on a seat in real time by combining with monitoring whether the peripheral equipment of a mouse and a keyboard is operated or not, sending the biological information to a biological identification service terminal for the biological identification service terminal to identify the biological information, feeding back a corresponding user name of a dispatcher on the seat to the dispatcher seat monitoring service unit, and finally sending the user name to a master control console of a D5000 regulation and control system through the dispatcher seat monitoring service unit;

the D5000 regulation and control system master console judges whether to automatically log in or log in by combining the current user login state based on the received corresponding user name of the dispatcher on the seat, judges whether to accord with the safety operation by combining each step of operation of the dispatcher, and exits and gives an alarm in time when the operation does not accord with the safety operation;

the real-time monitoring process of the dispatcher seat is explained in detail with reference to fig. 3 as follows:

1) the dispatcher seat monitoring service unit acquires the seat information of the workstation in real time through biological acquisition equipment (a camera or an intelligent fingerprint mouse and the like), and sends effective acquired information to a dispatcher biological information management unit of the biological identification server in real time;

2) the dispatcher biological information management unit of the biological identification server performs biological identification on the effective collected information through the biological information identification service unit, and returns the information of the dispatcher on the seat and the configuration information of the biological information management system unit to the dispatcher seat monitoring service unit;

3) the dispatcher seat monitoring unit sends the dispatcher information on the seat and the configuration information of the biological information management system unit to the D5000 system master console in real time, and the D5000 system master console executes all preset actions applied under the authority of the dispatcher.

In a specific implementation manner of the embodiment of the present invention, the biometric server includes a dispatcher biometric information management unit and a biometric information identification service unit;

the dispatcher biological information management unit carries out man-machine interaction through an interface and transmits a related request of biological information to the biological information identification service unit, and the biological information identification service unit identifies dispatcher information on the attendance position by using a biological information identification algorithm.

Wherein the dispatcher biological information management unit includes:

the dispatcher biological information registration module is used for inputting biological information of a dispatcher and the D5000 user name of the dispatcher, registering the biological information to the dispatcher biological information management unit, transmitting the biological information to the biological information identification service unit, and allowing the biological information identification service unit to identify the received biological information and obtain the corresponding dispatcher user name; currently, the commonly used biological information is supported by: face information, fingerprints, irises, etc.

The anti-registration module is used for removing the biological information of the dispatcher from the biological information management unit of the dispatcher and transmitting the biological information to the biological identification service unit, so that the biological identification service unit deletes corresponding data to ensure that no dirty data remains in the whole system;

and the strategy parameter configuration management module is used for setting parameters such as a white list, biological information acquisition frequency, identification precision and the like, wherein the user name in the white list is not subjected to biological information identification, login is carried out through a user name password, and the user is a public account.

Fig. 2 shows a specific flow of biological information management of the dispatcher, which includes:

1) the dispatcher performs registration flow through a dispatcher biological information management system interface: the dispatcher inputs biological information through biological acquisition equipment such as a camera or a fingerprint collector; the biological information management system interface sends the input data information to the biological information management system unit of the dispatcher; the biological information management system unit returns the result to the biological information management system interface after registering the information through the biological information identification service unit, and the dispatcher finally completes the biological information registration process.

2) The dispatcher performs a reverse registration process through a dispatcher biological information management system interface: the dispatcher sends the personal information of the dispatcher to a biological information management system unit of the dispatcher by a biological information management system interface; and after the biological information management system unit returns the result to the biological information management system interface after the biological information identification service unit performs the information registration, the dispatcher finally completes the biological information back registration process.

3) The dispatcher completes the configuration process of the biological information strategy through a dispatcher biological information management system interface: the dispatcher inputs or selects a strategy to be configured on a biological information management system interface; the biological information management system interface sends the updated biological information strategy information to the biological information management system unit, the biological information system unit returns the strategy information updating result to the biological information management interface, and the dispatcher finally completes the biological information strategy configuration process.

Example 2

The embodiment of the invention provides a real-time monitoring method for dispatcher seats based on a D5000 system, which comprises the following steps:

(1) monitoring biological information of the dispatcher seat in real time by using the dispatcher seat monitoring client, and transmitting the biological information to a biological identification server;

(2) and identifying dispatcher information on the attendance position by using the biological identification server based on the received biological information, and feeding back the dispatcher seat information to the dispatcher seat monitoring client, so that the dispatcher seat monitoring client executes preset actions based on the received information to complete real-time monitoring of the dispatcher seat.

In a specific implementation manner of the embodiment of the present invention, as shown in fig. 1, the dispatcher seat monitoring client includes a dispatcher seat monitoring service unit and a D5000 regulation and control system master console;

the dispatcher seat monitoring service unit monitors the biological information of the dispatcher seat in real time, sends the information to the biological identification service terminal, and receives the dispatcher information on the seat fed back by the biological identification service terminal;

and the D5000 regulation and control system master console receives the dispatcher information on the seats in real time, determines whether the D5000 regulation and control system needs to automatically log in and log out, and verifies the consistency of the seat information and the login account in real time in the operation process of the dispatcher.

In a specific implementation manner of the embodiment of the present invention, the dispatcher seat monitoring service unit acquires the state of the peripheral in real time to control the frequency of acquiring the biological information;

the peripheral equipment comprises a mouse and a keyboard;

the dispatcher seat monitoring service unit is used for collecting dispatcher biological information on a seat in real time by combining with monitoring whether the peripheral equipment of a mouse and a keyboard is operated or not, sending the biological information to a biological identification service terminal for the biological identification service terminal to identify the biological information, feeding back a corresponding user name of a dispatcher on the seat to the dispatcher seat monitoring service unit, and finally sending the user name to a master control console of a D5000 regulation and control system through the dispatcher seat monitoring service unit;

the D5000 regulation and control system master console judges whether to automatically log in or log in by combining the current user login state based on the received corresponding user name of the dispatcher on the seat, judges whether to accord with the safety operation by combining each step of operation of the dispatcher, and exits and gives an alarm in time when the operation does not accord with the safety operation;

the real-time monitoring process of the dispatcher seat is explained in detail with reference to fig. 3 as follows:

1) the dispatcher seat monitoring service unit acquires the seat information of the workstation in real time through biological acquisition equipment (a camera or an intelligent fingerprint mouse and the like), and sends effective acquired information to a dispatcher biological information management unit of the biological identification server in real time;

2) the dispatcher biological information management unit of the biological identification server performs biological identification on the effective collected information through the biological information identification service unit, and returns the information of the dispatcher on the seat and the configuration information of the biological information management system unit to the dispatcher seat monitoring service unit;

3) the dispatcher seat monitoring unit sends the dispatcher information on the seat and the configuration information of the biological information management system unit to the D5000 system master console in real time, and the D5000 system master console executes all preset actions applied under the authority of the dispatcher.

In a specific implementation manner of the embodiment of the present invention, the biometric server includes a dispatcher biometric information management unit and a biometric information identification service unit;

the dispatcher biological information management unit carries out man-machine interaction through an interface and transmits a related request of biological information to the biological information identification service unit, and the biological information identification service unit identifies dispatcher information on the attendance position by using a biological information identification algorithm.

In a specific implementation manner of the embodiment of the present invention, the dispatcher biological information management unit includes:

the dispatcher biological information registration module is used for inputting biological information of a dispatcher and the D5000 user name of the dispatcher, registering the biological information to the dispatcher biological information management unit, transmitting the biological information to the biological information identification service unit, and allowing the biological information identification service unit to identify the received biological information and obtain the corresponding dispatcher user name;

the anti-registration module is used for removing the biological information of the dispatcher from the biological information management unit of the dispatcher and transmitting the biological information to the biological identification service unit so that the biological identification service unit deletes corresponding data;

and the strategy parameter configuration management module is used for setting a white list, biological information acquisition frequency and identification precision, wherein the user name in the white list is not subjected to biological information identification, login is carried out through a user name password, and the user is a public account.

Fig. 2 shows a specific flow of biological information management of the dispatcher, which includes:

1) the dispatcher performs registration flow through a dispatcher biological information management system interface: the dispatcher inputs biological information through biological acquisition equipment such as a camera or a fingerprint collector; the biological information management system interface sends the input data information to the biological information management system unit of the dispatcher; the biological information management system unit returns the result to the biological information management system interface after registering the information through the biological information identification service unit, and the dispatcher finally completes the biological information registration process.

2) The dispatcher performs a reverse registration process through a dispatcher biological information management system interface: the dispatcher sends the personal information of the dispatcher to a biological information management system unit of the dispatcher by a biological information management system interface; and after the biological information management system unit returns the result to the biological information management system interface after the biological information identification service unit performs the information registration, the dispatcher finally completes the biological information back registration process.

3) The dispatcher completes the configuration process of the biological information strategy through a dispatcher biological information management system interface: the dispatcher inputs or selects a strategy to be configured on a biological information management system interface; the biological information management system interface sends the updated biological information strategy information to the biological information management system unit, the biological information system unit returns the strategy information updating result to the biological information management interface, and the dispatcher finally completes the biological information strategy configuration process.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.