CN112380504A

CN112380504A - Face recognition-based nuclear power station mobile working terminal borrowing method and system

Info

Publication number: CN112380504A
Application number: CN202011255666.3A
Authority: CN
Inventors: 郝青瑞; 张库国; 韩书星
Original assignee: China General Nuclear Power Corp; CGN Power Co Ltd; Daya Bay Nuclear Power Operations and Management Co Ltd; Lingdong Nuclear Power Co Ltd; Guangdong Nuclear Power Joint Venture Co Ltd; Lingao Nuclear Power Co Ltd
Current assignee: China General Nuclear Power Corp; CGN Power Co Ltd; Daya Bay Nuclear Power Operations and Management Co Ltd; Lingdong Nuclear Power Co Ltd; Guangdong Nuclear Power Joint Venture Co Ltd; Lingao Nuclear Power Co Ltd
Priority date: 2020-11-11
Filing date: 2020-11-11
Publication date: 2021-02-19

Abstract

The invention relates to the technical field of nuclear power station informatization construction, in particular to a nuclear power station mobile work terminal borrowing method and system based on face recognition. The method comprises the following steps: when the borrowable mobile work terminal exists in the terminal storage cabinet, the face information of the borrower is recognized to determine the identity information of the borrower, and when the fact that the borrower needs to have the borrowable mobile work terminal is confirmed according to the work order information related to the work order identification input by the borrower and the identity information of the borrower, the cabinet door is opened, and after the fact that the mobile work terminal in the cabinet door is taken out and the cabinet door is closed again is detected, the borrowing completion is prompted, and the mobile work terminal corresponding to the cabinet door is marked as borrowed. The invention realizes the unified management of the mobile working terminals in the nuclear power base, and the invention carries out double verification through the face information of the borrower and the work order information of the nuclear power station work order, thereby maintaining the smooth development of work and simultaneously ensuring the equipment safety.

Description

Face recognition-based nuclear power station mobile working terminal borrowing method and system

Technical Field

The invention relates to the technical field of nuclear power station informatization construction, in particular to a nuclear power station mobile work terminal borrowing method and system based on face recognition.

Background

Early-built nuclear power bases use many wireless communication means such as pagers and interphones. With the application and expansion of various communication systems in nuclear power bases, wireless highway projects in the nuclear power bases are gradually promoted, and pagers and the like are about to be eliminated. In the prior art, in order to meet communication requirements after decommissioning of pagers and the like, companies provide production line workers with corresponding intelligent mobile working terminals (such as mobile phones, tablet computers and the like) so as to meet production requirements of daily life and overhaul, and the mobile working terminals can only be used in a special network of a nuclear power plant area. The disadvantages of the scheme are that: at present, only internal staff in a nuclear power base can be equipped with a mobile working terminal, and some staff temporarily entering the nuclear power base to assist in working are not equipped with the mobile working terminal, so that working inconvenience can be caused; meanwhile, even if the mobile work terminal is equipped for the internal staff of the nuclear power base, the situation that the mobile work terminal is forgotten to carry or is temporarily unavailable (such as power failure, damage and the like) may occur. Therefore, it is urgently needed to design an intelligent system which can conveniently borrow and return the mobile working terminal.

Disclosure of Invention

The embodiment of the invention provides a nuclear power station mobile work terminal borrowing method and system based on face recognition, double verification can be carried out through face information of a borrower and work order information of a nuclear power station work order, so that after the fact that the borrower has work borrowing requirements corresponding to the nuclear power station work order is confirmed, a cabinet door is opened to borrow a mobile work terminal to the borrower.

A nuclear power station mobile working terminal borrowing method based on face recognition comprises the following steps:

receiving a first borrowing instruction containing a unique identifier of a terminal storage cabinet, and displaying a face input interface on a control screen of the terminal storage cabinet when detecting that a loanable mobile working terminal exists in the terminal storage cabinet associated with the unique identifier; the mobile working terminal is a mobile device which can be used only in a special network of a nuclear power base to which the terminal storage cabinet belongs; the first borrowing instruction is triggered after a borrower clicks a preset borrowing key on a user terminal or a control screen of a terminal storage cabinet in a nuclear power base;

after receiving face information input by a borrower, identifying the face information to determine identity information of the borrower, and prompting the borrower to input a work order identifier of a nuclear power station work order on the control screen;

after receiving a work order identifier input by the borrower, calling work order information associated with the work order identifier from a preset database, and confirming whether the borrower has the requirement of borrowing a mobile work terminal according to the work order information and the identity information of the borrower;

when the fact that the borrower has the demand for borrowing the mobile working terminal is confirmed, a cabinet door corresponding to the borrowable mobile working terminal on a terminal storage cabinet is opened, after the fact that the mobile working terminal in the cabinet door is taken out and the cabinet door is closed again is detected, the completion of borrowing is prompted, the mobile working terminal corresponding to the cabinet door is marked as borrowed, and face information, identity information, a nuclear power station work order identifier, a first equipment number and borrowing time of the borrower are stored in an associated mode; the first equipment number refers to a unique number corresponding to a mobile work terminal borrowed by the borrower.

A nuclear power station mobile working terminal borrowing system based on face recognition comprises a control server and at least one terminal storage cabinet in communication connection with the control server, wherein the control server is used for executing the nuclear power station mobile working terminal borrowing method based on face recognition.

The method and the system for borrowing the mobile working terminal of the nuclear power station based on the face recognition can carry out double verification through the face information of the borrower and the work order information of the work order of the nuclear power station, so that the mobile working terminal is borrowed by opening the cabinet door of the terminal storage cabinet after the borrower is confirmed to have the work borrowing requirement corresponding to the work order of the nuclear power station, the method and the system can facilitate the workers who temporarily enter the nuclear power base to assist the work to temporarily borrow the mobile working terminal to smoothly carry out the work, can also facilitate the internal workers of the nuclear power base to smoothly carry out the work through the borrowed mobile working terminal under the condition that the equipped mobile working terminal is unavailable, simultaneously, realize the unified management on the mobile working terminal in the nuclear power base, and ensure the equipment safety while maintaining the smooth development of the work, the possibility of borrowing the mobile working terminal at will is avoided.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments of the present invention will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without inventive labor.

FIG. 1 is a flow chart of a nuclear power station mobile work terminal borrowing method based on face recognition in an embodiment of the invention;

FIG. 2 is a flow chart of a nuclear power station mobile work terminal borrowing method based on face recognition in another embodiment of the present invention;

fig. 3 is a schematic diagram of a control server of a nuclear power plant mobile work terminal borrowing system based on face recognition in an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, embodiments of the present invention. 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 invention.

The nuclear power station mobile working terminal borrowing method based on face recognition, as shown in fig. 1, comprises the following steps:

s10, receiving a first borrowing instruction containing a unique identifier of a terminal storage cabinet, and displaying a face input interface on a control screen of the terminal storage cabinet when detecting that a borrowable mobile working terminal exists in the terminal storage cabinet associated with the unique identifier; the mobile working terminal is a mobile device which can be used only in a special network of a nuclear power base to which the terminal storage cabinet belongs; the first borrowing instruction is triggered after a borrower clicks a preset borrowing key on a user terminal or a control screen of a terminal storage cabinet in a nuclear power base; the borrower can be an internal worker of the nuclear power base or a worker temporarily entering the nuclear power base to assist in working; the nuclear power station mobile work terminal borrowing method based on face recognition is adopted to borrow one mobile work terminal from a terminal storage cabinet, so that work can be started smoothly. Understandably, a nuclear power base is provided with a mobile working terminal for each internal staff, but when the internal staff temporarily forget to carry the provided mobile working terminal or the provided mobile working terminal is in trouble and is unavailable, a mobile working terminal can be borrowed from the terminal storage cabinet by the nuclear power station mobile working terminal borrowing method based on the face recognition. It should be understood that, in an embodiment, the mobile working terminal may not only implement communication and data transmission in a private network of a nuclear power base, but also detect radiation intensity in a working environment of a nuclear power station (including a communication module and a radiation measurement module), so that the mobile working terminal belongs to a work order that workers in a specific area of the nuclear power base must possess (at this time, a work order of the nuclear power station in the present invention refers to a work order that works in the specific area of the nuclear power base, and the private network of the nuclear power station may also refer to a network used in the specific area, where there may be an area in the nuclear power base where radiation exceeds a preset standard that may harm human bodies), and may be used to monitor radiation safety of a current working environment at any time.

S20, after receiving face information input by a borrower, recognizing the face information to determine identity information of the borrower, and prompting the borrower to input a work order identifier of a nuclear power station work order on the control screen; that is, in this step, if the face information entered is received within a third preset duration (which may be set according to a requirement), after the face information is identified and verified successfully, the identity information of the borrower may be determined, and then, it may be determined whether the corresponding nuclear power plant work order has recorded therein the work order identifier that the borrower needs to borrow the mobile work terminal. Optionally, in step S20, after receiving the face information entered by the borrower, the method further includes: and if the face information cannot be identified, prompting to re-enter the face information or prompting that the borrowing fails. That is, the fact that the face information cannot be recognized means that the face information is failed to be recognized, or after the face information is recognized, the face information is found not to belong to internal staff in the nuclear power base or staff who temporarily enters the nuclear power base to assist in working, at this time, processing can be performed only in the following mode, that is, when the recognition fails, the face information can be prompted to be re-entered because the entered face information is not clear enough; when the borrowing personnel does not belong to internal staff in the nuclear power base or staff temporarily entering the nuclear power base to assist in working, the borrowing failure can be only prompted, and meanwhile, the borrowing failure reason is displayed.

In an embodiment, in step S10, after the displaying the face entry interface on the control screen of the terminal storage cabinet, the method further includes: and after the input face information is not received within the third preset time, prompting to input the face information or prompting that the borrowing fails. That is, if the face information is not input in time, it indicates that the borrowing person may have temporarily interrupted the input, and at this time, after the preset times (when the face information is not input continuously, the face information needs to be input again, the face information can be reminded once or many times, and the face information is set according to the requirement), the borrowing failure at this time is reminded, or the borrowing failure can be directly reminded without reminding again.

S30, after receiving the work order identification input by the borrower, calling the work order information associated with the work order identification from a preset database, and confirming whether the borrower has the requirement of borrowing the mobile work terminal according to the work order information and the identity information of the borrower; the work order identification can be a unique work order number, and can be obtained by a borrower through manual self-control screen input or scanning an identification code recorded on the work order through an identification scanning device arranged on a terminal storage cabinet; the work order information may be a scanned piece of the work order (the scanned piece includes all relevant information of the work order), two-dimensional code information corresponding to the work order (all relevant information of the work order can be identified from the two-dimensional code), or all relevant information of the work order directly identified from the work order scanned piece, and the like; in this step, the work order identifier entered by the borrower is received within a fourth preset time period (which may be set according to requirements), and after the identity information of the borrower is confirmed to be included according to the called work order information and the borrower needs to configure the mobile work terminal, the borrower is considered to have a requirement for borrowing the mobile work terminal. Understandably, in an embodiment, after the step S30 of confirming whether the borrower has a need to borrow a mobile work terminal according to the work order information and the identity information of the borrower, the method further includes: and when the borrower is confirmed not to have the requirement of borrowing the mobile working terminal, prompting that the borrowing fails. That is, the work order identifier entered by the borrower is received within a fourth preset time period, and the identity information of the borrower is confirmed to be included according to the called work order information, and the borrower does not need to configure a mobile work terminal; or when the identity information of the borrower is not contained in the work order information which is called by the borrower; it can be considered that the borrower does not have the need to borrow the mobile working terminal.

Optionally, in the step S20, after the step S indicates on the control screen that the borrower enters the work order identifier of the nuclear power plant work order, the method further includes: and after the entered work order identifier of the nuclear power station work order is not received within the fourth preset time (which can be set according to requirements), prompting to enter the work order identifier of the nuclear power station work order or prompting the borrowing failure. That is, if the work order identifier of the nuclear power plant work order is not entered in time, it indicates that the borrower may temporarily interrupt entry, and at this time, the borrowing failure is prompted after the preset number of times (when the borrowing failure continues to be entered, the borrowing failure can be prompted once or many times again, and the borrowing failure can be directly prompted without prompting again) needs to be entered.

S40, when the borrower is determined to have the demand of borrowing the mobile work terminal, opening a cabinet door corresponding to the borrowable mobile work terminal on a terminal storage cabinet, prompting the completion of borrowing and marking the mobile work terminal corresponding to the cabinet door as borrowed after detecting that the mobile work terminal in the cabinet door is taken out and the cabinet door is closed again, and storing the face information, the identity information, the work order identifier of the nuclear power station, the first equipment number and the borrowing time of the borrower in an associated manner; the first device number refers to a unique number corresponding to the mobile work terminal borrowed by the borrower (the first device number may be used to represent a device type and a sequence thereof). Understandably, in the step, the cabinet door stored by the borrowable mobile working terminal can be automatically opened, and the user can manually close the cabinet door after taking out the mobile working terminal; in another embodiment, a cabinet door of the terminal storage cabinet is arranged to be automatically telescopic, that is, the mobile work terminal is mounted on a preset mounting plate on the cabinet door and is in communication connection with the charging communication equipment arranged on the mounting plate (the mobile work terminal can be charged and data transmitted through the charging communication equipment and can be plugged in or wirelessly connected with the charging communication equipment), when the cabinet door is opened, the mobile work terminal and the charging communication equipment automatically extend out along with the cabinet door, after a borrower separates and takes out the mobile work terminal from the charging communication equipment, at this time, the mobile work terminal in the cabinet door is confirmed to be taken out, the cabinet door can be controlled to be retracted into the cabinet body to automatically close the cabinet door, and manual operation is not needed; meanwhile, the first equipment number (the equipment number of the mobile working terminal taken out of the cabinet door), the borrowing time (the mobile working terminal taken out of the cabinet door), the face information and the identity information of the borrower and the work order identifier of the nuclear power station are all stored in a preset database in an associated mode. And at this moment, the terminal storage cabinet can emit corresponding light (light with a corresponding preset color is borrowed successfully) or sound prompt (such as two continuous drops), which indicates that the borrowing is completed. Similarly, when borrowing fails, different lights and different sounds can be used for prompting.

The invention can carry out double verification through the face information of the borrower (the identity information of the borrower is confirmed) and the work order information of the nuclear power station work order (the identity information of the borrower and the work order information of the borrower confirm that the borrower has the need of borrowing a mobile phone), so that after confirming that the borrower has the work borrowing demand corresponding to the nuclear power station work order, the cabinet door of the terminal storage cabinet is opened to borrow the mobile work terminal to the borrower, the invention can facilitate the workers who temporarily enter the nuclear power base to assist the work to smoothly develop the work, can also facilitate the internal workers of the nuclear power base to smoothly develop the work through the borrowed mobile work terminal under the condition that the equipped mobile work terminal is unavailable, simultaneously, the unified management on the mobile work terminal in the nuclear power base is realized, the equipment safety is also ensured while the smooth development of the maintenance work, the possibility of borrowing the mobile working terminal at will is avoided.

In an embodiment, as shown in fig. 2, after the step S40, prompting that the lending is completed and marking the mobile work terminal corresponding to the cabinet door as lent, the method further includes:

s50, receiving a first returning instruction containing first equipment numbers, wherein one first equipment number is associated with the unique identifier of one terminal storage cabinet and the cabinet door identifier of one cabinet door in the terminal storage cabinet; the first returning instruction is triggered after a borrower clicks a preset returning key on a user terminal or a control screen of a terminal storage cabinet in a nuclear power base; that is, in the present invention, the nuclear power station mobile work terminal borrowing method is applied to a nuclear power station mobile work terminal borrowing system, the nuclear power station mobile work terminal borrowing system can be in communication connection with a user terminal through an application program installed in the user terminal, at this time, when a mobile work terminal corresponding to a first device number needs to be returned, a borrower can log in the application program through the user terminal, and then, a preset return key is clicked through the application program, and then a first return instruction including the first device number is sent to a control server of the nuclear power station mobile work terminal borrowing system. Optionally, the borrower may also click a preset returning button on a control screen of the terminal storage cabinet in the nuclear power base and then trigger the first returning instruction, that is, directly operate on the terminal storage cabinet stored with the mobile working terminal to return the terminal storage cabinet.

S60, according to the unique identifier associated with the first equipment number, inputting return information on a control screen of the terminal storage cabinet corresponding to the first equipment number; that is, the first device number may be used to represent the device type and the sequence thereof, and meanwhile, one first device number is associated with the unique identifier of one terminal storage cabinet and the cabinet door identifier of one cabinet door in the terminal storage cabinet, that is, one cabinet door is only used to store one specific mobile working terminal corresponding to the first device number, and the first device number and the first cabinet door are not allowed to be stored in disorder, so as to ensure the order of the stored mobile working terminals; of course, the corresponding relation can be changed according to the requirement, but at any time, the cabinet door and the mobile working terminal are only in one-to-one relation. Therefore, the unique identifier of the corresponding terminal storage cabinet can be determined according to the first identification number, and then the entry of return information is prompted on a control screen of the terminal storage cabinet associated with the unique identifier, and understandably, the return information can comprise face information or/and a work order identifier of a nuclear power station work order. That is, the return information may be one or both of face information and a work order identifier of the work order of the nuclear power plant, and since the return process only needs to ensure that the returned mobile work terminal is accurate, it is not necessary to verify the two kinds of information, for example, other people can return the work order by borrowing people or the return can be realized under the condition of forgetting the work order identifier.

Optionally, in step S60, after prompting to enter return information on the control screen of the terminal storage cabinet corresponding to the first device number, the method includes: after return information input on the self-control screen of the borrower is received and verified by mistake, or the input return information is not received within a first preset time, re-input of the return information is prompted or a return failure is prompted. That is, if there is a mistake in verification of the entered return information (for example, the face information cannot be recognized, or there is no work order identifier of the work order of the nuclear power station, etc.), or the return information is not entered in time within a first preset time (which may be set according to a requirement) (entry may be temporarily interrupted by a borrower), at this time, a preset number of times can be prompted again (when entry is continued, the return information can be prompted once or many times again, set according to a requirement), after the return information needs to be entered, the borrowing failure of this time is prompted, or the borrowing failure can be directly prompted without prompting again.

S70, after return information recorded on the self-control screen of the borrower is received and verified to be correct, opening the corresponding cabinet door according to the cabinet door identifier associated with the first equipment number; that is, after verifying that the return information is correct, the only corresponding cabinet door of the mobile working terminal can be directly opened, and then the mobile working terminal is placed back into the cabinet door. Understandably, the cabinet door stored by the mobile working terminal which can be borrowed can be automatically opened, and when the cabinet door of the terminal storage cabinet is set to be automatically telescopic, the charging communication equipment automatically extends out along with the cabinet door when the cabinet door is opened.

Optionally, in the step S70, after opening the corresponding cabinet door according to the cabinet door identifier associated with the first device number, the method includes: when detecting that the charging communication equipment installed in the cabinet door is not connected with the mobile working terminal within a second preset time, prompting to connect the mobile working terminal with the charging communication equipment according to a preset placing mode, and opening the closing prevention equipment of the cabinet door to prevent the cabinet door from being closed; that is, in this embodiment, a receiving groove may be provided on the mounting plate on which the charging communication device is mounted, a connection position of the charging communication device and the mobile operation terminal is provided in the receiving groove, a pressure sensor (for detecting whether the mobile operation terminal has been placed in the receiving groove by a pressure signal) is provided in the receiving groove, it is detected that the mobile operation terminal has been placed in the receiving groove, but detects that the charging communication device is not in communication connection with the mobile work terminal, at this time, it can be considered that the charging communication device is not placed in a preset manner with the mobile work terminal and is not accurately connected, therefore, the accurate connection mode (both plugging and wireless communication connection) of the mobile working terminal and the charging communication equipment in the accommodating groove can be displayed on the control screen, and opening the closing prevention device of the cabinet door to prevent the cabinet door from being closed before the two are accurately connected.

Further, after the anti-closing device of the cabinet door is opened, when a return suspension instruction is received, the anti-closing device is closed; that is, when the borrower takes out the mobile work terminal from the cabinet door and clicks the returning suspension key (it may also be detected within a preset time period that the borrower takes out the mobile work terminal from the cabinet door but does not receive the returning suspension instruction, and then the borrower defaults to have clicked the returning suspension key), the closing prevention device is closed, at this time, the cabinet door is automatically closed, and the returning result corresponding to the first returning instruction at this time is recorded as the returning failure. In another embodiment, after the anti-closing device of the cabinet door is opened, when the charging communication device is detected to be connected with a new mobile working terminal, the anti-closing device is closed. That is, if the borrower recognizes that the connection mode between the mobile operation terminal and the charging communication device is problematic, and then adjusts the connection between the mobile operation terminal and the charging communication device, at this time, the return process is continuously completed, the shutdown prevention device is first turned off, and then the corresponding processing is performed with reference to step S80.

S80, when detecting that the charging communication equipment installed in the cabinet door is connected with the mobile working terminal, acquiring a second equipment number of the mobile working terminal connected with the charging communication equipment through the charging communication equipment; that is, when the cabinet door of the terminal storage cabinet is set to be automatically telescopic, when the cabinet door is opened, the charging communication equipment automatically extends out along with the cabinet door, and after the mobile work terminal is connected to the charging communication equipment by a borrower, it is determined that the mobile work terminal in the cabinet door is put in, and at this time, the actual second equipment number of the mobile work terminal connected with the charging communication equipment (that is, the mobile work terminal just put in) is acquired through the charging communication equipment; when the second device number is completely the same as the first device number, it is determined that the returned mobile work terminal is indeed the mobile work terminal that needs to be returned to the cabinet door, and at this time, the process proceeds to step S90 to perform corresponding processing.

And S90, when the second equipment number is completely matched with the first equipment number, executing charging operation according to the current electric quantity of the mobile working terminal, and after detecting that the cabinet door is closed again, prompting that the return is completed and marking the mobile working terminal corresponding to the cabinet door as withdrawable. Namely; when the second equipment number is completely the same as the first equipment number, the returned mobile working terminal is really the mobile working terminal which needs to be returned to the cabinet door at present, at the moment, the charging operation needs to be executed according to the current electric quantity of the mobile working terminal, the cabinet door is controlled to be retracted into the cabinet body so as to automatically close the cabinet door, manual operation is not needed, and then the return completion is prompted, and the mobile working terminal corresponding to the cabinet door is marked as withdrawable. Understandably, in this embodiment, when the borrower returns the mobile work terminal, it is necessary to first ensure that the returned mobile work terminal can be placed in a charging state when the current electric quantity is insufficient (therefore, the mobile work terminal needs to be connected with the charging communication device when returning to the cabinet door).

Optionally, in the step S80, after the charging communication device acquires the second device number of the mobile work terminal connected thereto, the method includes: when the second equipment number is not completely matched with the first equipment number, prompting that the returned mobile working terminal is mistaken, and opening the closing prevention equipment of the cabinet door to prevent the cabinet door from being closed; that is, when the second device number is not completely the same as the first device number, it is indicated that the returned mobile working terminal is not the mobile working terminal which needs to be returned to the cabinet door at present, and the reason for the error is prompted; simultaneously, do not allow to close the cabinet door, understandably, prevent that the equipment that closes sets up on the cabinet door or the cabinet body is gone up and is corresponded to the opening border position of cabinet door, is used for the card to die the cabinet door in order to prevent that the cabinet door is closed when it opens.

Further, after the anti-closing device of the cabinet door is opened, when a return suspension instruction is received, the anti-closing device is closed; that is, when the borrower takes out the mobile work terminal from the cabinet door and clicks the returning suspension key (it may also be detected within a preset time period that the borrower takes out the mobile work terminal from the cabinet door but does not receive the returning suspension instruction, and then the borrower defaults to have clicked the returning suspension key), the closing prevention device is closed, at this time, the cabinet door is automatically closed, and the returning result corresponding to the first returning instruction at this time is recorded as the returning failure. In another embodiment, after the anti-closing device of the cabinet door is opened, when it is detected that the charging communication device is connected with a new mobile work terminal and a third device number of the new mobile work terminal acquired by the charging communication device is completely matched with the first device number, the anti-closing device is closed. That is, if the borrower recognizes that the returned mobile work terminal is returned incorrectly, the borrower puts in a correct mobile work terminal to connect with the charging communication device, and at this time, the returning process is continued to be completed, that is, the third device number of the new mobile work terminal acquired by the charging communication device is completely matched with the first device number, which indicates that the returned mobile work terminal is indeed the mobile work terminal which needs to be returned to the cabinet door at present, at this time, the corresponding processing may be performed with reference to step S90, and at first, the charging operation is executed according to the current electric quantity of the mobile work terminal, so that the cabinet door is controlled to be retracted into the cabinet body to automatically close the cabinet door. Further, if it is continuously monitored that the mobile work terminal is not taken out, the preset staff is notified to handle the current special event after a specific time (the mobile work terminal is not returned and is not taken out, and the cabinet door cannot be closed).

In an embodiment, in step S90, the performing a charging operation according to the current power of the mobile work terminal includes:

when the current electric quantity of the mobile working terminal is less than 100%, charging the mobile working terminal through the charging communication equipment, and monitoring whether the current charging process is normal or not according to a preset normal charging electric quantity change curve;

when the charging process is normal, if the current electric quantity is detected to be increased to 100%, automatically stopping charging the mobile working terminal;

and when the charging process is abnormal, detecting whether abnormal data occur in the charging communication equipment or/and the battery of the mobile working terminal, and when the abnormal data occur, stopping charging the mobile working terminal and informing a preset manager of performing abnormal processing.

Understandably, when the mobile working terminal is in a cabinet door, the charging communication equipment is required to be connected all the time, so that the intelligent charging of the mobile working terminal can be realized, namely, the current electric quantity of the mobile working terminal can be monitored in real time, wherein a preset normal charging electric quantity change curve refers to the increasing trend of the electric quantity in the normal charging process, and whether the charging process is normal or not can be determined by comparing the preset normal charging electric quantity change curve with the change trend of the charging electric quantity of the current mobile working terminal; when the current electric quantity is detected to be insufficient (less than 100%, or other values between 95% and 100% can be set according to requirements, so that damage to the mobile working terminal caused by the fact that the electric quantity is too full) and the charging process is normal, the charging is continuously carried out, and when the electric quantity is sufficient, the charging of the mobile working terminal is automatically stopped, so that automatic power off after the charging is finished is realized, and overcharging is avoided. Further, when the charging process is detected to be abnormal, it is indicated that abnormal data may occur in the battery of the charging communication device or/and the mobile working terminal, and if a fault occurs in the battery of the charging communication device or/and the mobile working terminal, the protector connected to the charging communication device will cut off the power supply connected to the charging communication device, and give an alarm signal containing the fault of the battery of the charging communication device or/and the mobile working terminal, and notify a preset manager to perform abnormal processing; if the charging communication equipment or/and the battery of the mobile working terminal cannot be detected to be in fault, the mobile working terminal is directly stopped to be charged, a preset manager is notified to perform exception handling, and at the moment, the abnormal fault source cannot be determined to be reminded.

In an embodiment, after the step S40, prompting that the lending is completed and marking the mobile work terminal corresponding to the cabinet door as lent, the method further includes:

when a first returning instruction which is sent by the borrower and contains a first equipment number is not received within a first preset time range, prompting the borrower to return the mobile working terminal; the first preset time range refers to a preset time period in which the mobile work terminal should be returned, and the time duration may be set according to a requirement, for example, the time duration may be set to a day after the work of the nuclear power plant work order corresponding to the work order identifier recorded by the borrower in step S30 has been completed.

When a first returning instruction which is sent by the borrower and contains a first equipment number is not received within a second preset time range, synchronously sending alarm information to a preset warning server and the borrower; the alarm information comprises face information, identity information, nuclear power station work order identification, a first equipment number and borrowing time of the borrower; the second preset time range is greater than the first preset time range. Here, the length of the second preset time range may be set according to a requirement, in this embodiment, the second preset time range is greater than the first preset time range, which means that the second preset time range is a certain length of time (for example, three days) after the first preset time range is ended, and at this time, the second preset time range must be greater than the first preset time range by a certain length of time.

That is, in this embodiment, the mobile work terminal can be urged to return at regular time, so as to ensure the repeated utilization rate of the mobile work terminal and save resources. That is, first, when a first returning instruction including a first device number sent by the borrower is not received within a first preset time range, it is described that the borrower forgets to return the mobile working terminal within a preset time period in which the mobile working terminal should be returned, and therefore, at this time, the borrower is first prompted to return the mobile working terminal; after a certain time is added after the first preset time range is over, the control server still does not receive the first returning instruction which is sent by the borrower and contains the first equipment number, and at this time, the alarm information needs to be synchronously sent to the preset warning server and the borrower. The alarm information includes but is not limited to face information, identity information, a nuclear power station work order identifier, a first device number, borrowing time and the like of the borrower, and understandably, the manner of prompting the borrower to return the mobile work terminal and the sending manner of the alarm information can be performed in a short message, a telephone or a mail manner.

In an embodiment, before receiving a first borrowing instruction containing a unique identifier of a terminal storage cabinet sent by a borrower in step S10, the method includes:

when a preset borrowing key on a control screen of the terminal storage cabinet is triggered after a borrower is detected to enter a device type to be borrowed, a first borrowing instruction containing the device type to be borrowed and the unique identifier of the terminal storage cabinet is generated. In this embodiment, the mobile work terminals include different types of devices (which may be characterized in the types of devices to be borrowed), and the types of devices that each worker needs to use are different, and one terminal stores mobile work terminal that may store different types of devices in a device, for example, the mobile work terminal has a radiation measurement module and a communication module (which may be used for not only communication and data transmission in a private network of a nuclear power plant base, but also for detecting radiation intensity in a nuclear power plant work environment), and includes, but is not limited to, a mobile phone, a tablet computer, a tag scanner, a printer, and the like. Therefore, it is necessary to first determine the type of equipment to be borrowed before borrowing in the terminal storage cabinet. Further, in step S10, after receiving a first borrowing instruction including a unique identifier of a terminal storage rack sent by a borrower, the method further includes:

matching the type of the equipment to be borrowed with the equipment types of all the mobile working terminals in an idle state in the terminal storage cabinet, recording the mobile working terminals with the equipment types consistent with the type of the equipment to be borrowed as the loanable mobile working terminals existing in the terminal storage cabinet associated with the unique identifier, and generating a lending queue of all the loanable mobile working terminals according to the amount of electric quantity; that is, the mobile work terminal of the equipment type corresponding to the equipment type to be borrowed, which is required by the borrower, is not necessarily stored in the terminal storage cabinet, and the mobile work terminal may be stored but is already lent; at this time, the type of the device to be borrowed may be first matched with the device types of all the mobile work terminals in an idle state in the terminal storage cabinet, after the matching is successful, the mobile work terminals whose device types are consistent with the type of the device to be borrowed are recorded as the loanable mobile work terminals existing in the terminal storage cabinet associated with the unique identifier, and a borrowing queue of all the loanable mobile work terminals is generated according to the amount of electric quantity. That is, the electricity with the large quantity is arranged at the forefront of the borrowing queue, and the electricity with the small quantity has the low priority; if the electric quantity is the same, the electric quantity can be randomly arranged or the electric quantity with less use times can be arranged in front (so that the use frequency caused by each mobile working terminal is close to average, and a single mobile working terminal cannot be damaged too fast due to excessive use).

Further, in step S40, opening a cabinet door on the terminal storage cabinet corresponding to the withdrawable mobile operation terminal includes: and opening a cabinet door on the terminal storage cabinet corresponding to the mobile work terminal with the first sequence in the lending queue. That is, in this embodiment, when lending is needed, the mobile work terminal may be lent according to the priority in the lending queue.

In an embodiment, the step S30, determining whether the borrower has a need to borrow a mobile work terminal according to the work order information and the identity information of the borrower, further includes:

acquiring historical borrowing information associated with the identity information of the borrower, and determining whether the borrower currently holds a borrowed mobile work terminal according to the historical borrowing information;

when the borrower does not currently hold a borrowed mobile work terminal, if it is recognized that a mobile work terminal is configured for the borrower in the work order information (only a work responsible person of the nuclear power plant work order can configure the mobile work terminal for the borrower), determining that the borrower has a demand for borrowing the mobile work terminal;

and when the borrower currently holds the borrowed mobile work terminal, confirming that the borrower does not have the demand of borrowing the mobile work terminal.

That is, in this embodiment, the historical borrowing information refers to all records stored in the preset database, which are borrowed and returned to the mobile work terminal by the borrower before. In the invention, if the equipment type of the mobile working terminal is only one, a borrower is stipulated to borrow one mobile terminal at the same time; if borrowing is needed again, then borrowing can only continue after returning.

Similarly, in another embodiment, since there may be multiple types of devices of the mobile working terminal, in this case, it may be set that each type of device can borrow one device. At this time, when the borrower does not currently hold a borrowed mobile working terminal, or when the device types of the mobile working terminal currently applying for borrowing and the mobile working terminal currently holding the borrowed mobile working terminal are not the same, if it is identified that the mobile working terminal currently applying for borrowing has been configured for the borrower in the work order information, it is determined that the borrower has a need to borrow the mobile working terminal (that is, it is determined that the borrower has a need to borrow the mobile working terminal currently applying for borrowing). And when the mobile working terminal which the borrower currently applies for borrowing is the same as the device type of the borrowed mobile working terminal currently held by the borrower, confirming that the borrower does not have the requirement of borrowing the mobile working terminal (namely, only one device type is allowed to be borrowed). Therefore, repeated borrowing is avoided, and resources are wasted.

In an embodiment, after receiving a first borrowing instruction including a unique identifier of a terminal storage cabinet sent by a borrower in step S10, the method further includes:

if the terminal storage cabinet corresponding to the unique identifier is detected to have an opened cabinet door, continuously prompting to close the opened cabinet door and closing the input function of the control screen;

and after the opened cabinet door is detected to be closed, starting the recording function of the control screen.

That is, in this embodiment, only when all the cabinet doors of the terminal storage cabinet are in a closed state, the control server will start the input function of the control screen to receive the face information, the work order identifier and the like input by the borrower; otherwise, continuously prompting to close the opened cabinet door and closing the input function of the control screen, and not allowing the borrower to input face information or work order identification from the control screen, so that the borrowing or returning process is stopped in the current state and cannot be promoted; the borrowing personnel are prompted to close the cabinet door in time, and the safety of the mobile working terminal stored in the cabinet door is guaranteed.

In an embodiment, after receiving the first borrowing instruction including the unique identifier of the terminal storage cabinet sent by the borrower in step S10 and before prompting the lending completion in step S40, the method further includes:

and receiving a second borrowing instruction containing the unique identifier of the terminal storage cabinet or receiving a second returning instruction containing the number of the second equipment, prompting that the current system is providing services for other users, and calculating and prompting the expected waiting time according to historical service data.

That is, in this embodiment, only one person is allowed to borrow or return at the same time. For example, after receiving the first borrowing instruction including the unique identifier of the terminal storage cabinet sent by the borrower in step S10 and before prompting the completion of borrowing in step S40, the borrowing operation corresponding to the first borrowing instruction is not completed yet, and therefore, when another borrowing instruction or returning instruction is received (a second borrowing instruction including the unique identifier of the terminal storage cabinet or a second returning instruction including the second device number), only the current system can be prompted to provide services for another user. Further, the control server may also calculate and prompt the expected wait time based on historical service data. For example, the average value of the time lengths of the borrowing operations which have occurred in the past of the terminal storage cabinet at present is obtained, the time length of the borrowing operation which has been performed at present (the time length from the time point of receiving the first borrowing instruction to the current time point) is further obtained, and the difference between the time length and the time length is set as the expected waiting time length. It should be understood that, in the returning operation process of steps S50-S90 or other returning or borrowing operation processes of the present invention, the expected waiting time duration can also be calculated according to the same principle as the above description, and will not be described herein again.

In an embodiment, after the step S40 of associating and storing the face information, the identity information, the nuclear power plant work order identifier, the first device number, and the borrowing time of the borrower, the method includes:

receiving a borrowing query instruction which is sent by a user terminal and contains query keywords, and matching the query keywords with the face information, the identity information and the work order identifier of the nuclear power station;

and after the matching is successful, calling a first equipment number corresponding to the inquiry keyword which is successfully matched, and after equipment information is called according to the first equipment number, sending the equipment information to the user terminal.

In this embodiment, the query keyword may be one or more keywords in the middle of face information, identity information (such as work department, name, phone number, identification number, etc.), work order identification, etc. According to the method and the system, after the query key words are identified, all records of the corresponding borrowing and returning mobile working terminals can be matched and queried from the historical borrowing information stored in the preset database, so that the first equipment number of the mobile working terminal currently borrowing the mobile working terminal is determined, the equipment information is called according to the first equipment number, the equipment information can be set according to requirements, for example, when the mobile working terminal is a mobile phone, the equipment information can be set as the mobile phone number, at the moment, through the embodiment, the mobile working terminal currently used by a borrower in the nuclear power station mobile working terminal borrowing system based on face identification, such as the mobile phone number of the mobile phone, can be queried through the queried mobile phone number, and then telephone communication is carried out with the borrower.

In an embodiment, the terminal storage cabinet is provided with a camera, and the camera is mainly used for effectively monitoring the borrowing and returning states of the terminal storage cabinet and the mobile working terminals stored in the terminal storage cabinet, and simultaneously is also used for monitoring the appearance and the safety state of the terminal storage cabinet so as to timely identify and send out a warning when abnormal conditions such as fire disasters occur. Understandably, the terminal storage cabinet can simultaneously store a plurality of (such as 600) mobile working terminals, all cabinet doors of the terminal storage cabinet can be uniformly managed by an administrator, the administrator has different management levels (such as a high-level administrator and a common administrator) and management authority, wherein the high-level administrator can open one or more of any cabinet doors and can also open all the cabinet doors simultaneously, and the management and the use are convenient. And the cabinet door related to the problem of feedback of the control server can be managed in a targeted manner.

In an embodiment, as shown in fig. 3, a nuclear power station mobile work terminal borrowing system based on face recognition is provided, and the nuclear power station mobile work terminal borrowing system based on face recognition corresponds to the nuclear power station mobile work terminal borrowing method based on face recognition in the above embodiment one to one. The nuclear power station mobile working terminal borrowing system based on the face recognition comprises a control server and at least one terminal storage cabinet in communication connection with the control server, wherein the control server is used for executing the nuclear power station mobile working terminal borrowing method based on the face recognition.

In one embodiment, the control server is a computer device, and the internal structure thereof can be as shown in fig. 2. The control server includes a processor, a memory, a network interface, and a database connected by a system bus. Wherein the processor of the control server is configured to provide computing and control capabilities. The memory of the control server includes a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, computer readable instructions, and a database. The internal memory provides an environment for the operating system and execution of computer-readable instructions in the non-volatile storage medium. The computer readable instructions are executed by a processor to realize a nuclear power station mobile work terminal borrowing method based on face recognition.

In one embodiment, a computer readable storage medium is provided, on which computer readable instructions are stored, and the computer readable instructions, when executed by a processor, implement the steps of the above-mentioned nuclear power plant mobile work terminal borrowing method based on face recognition.

It will be understood by those of ordinary skill in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware associated with computer readable instructions, which can be stored in a non-volatile computer readable storage medium, and when executed, can include processes of the embodiments of the methods described above. Any reference to memory, storage, databases, or other media used in embodiments provided herein may include non-volatile and/or volatile memory. 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) or 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 (DDRSDRAM), Enhanced SDRAM (ESDRAM), Synchronous Link DRAM (SLDRAM), Rambus Direct RAM (RDRAM), Direct Rambus Dynamic RAM (DRDRAM), and Rambus Dynamic RAM (RDRAM).

The above-mentioned embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the spirit and scope of the embodiments of the present invention, and are intended to be included within the scope of the present invention.

Claims

1. A nuclear power station mobile working terminal borrowing method based on face recognition is characterized by comprising the following steps:

2. The nuclear power station mobile work terminal borrowing method based on face recognition as claimed in claim 1, wherein after the prompting lending is completed and the mobile work terminal corresponding to the cabinet door is marked as borrowed, the method further comprises:

receiving a first return instruction containing a first equipment number, wherein the first equipment number is associated with a unique identifier of a terminal storage cabinet and a cabinet door identifier of a cabinet door in the terminal storage cabinet; the first returning instruction is triggered after a borrower clicks a preset returning key on a user terminal or a control screen of a terminal storage cabinet in a nuclear power base;

according to the unique identifier associated with the first equipment number, inputting return information on a control screen of the terminal storage cabinet corresponding to the first equipment number;

after return information input on a self-control screen of a borrower is received and verified to be correct, opening a corresponding cabinet door according to a cabinet door identifier associated with the first equipment number;

when detecting that the charging communication equipment installed in the cabinet door is connected with the mobile working terminal, acquiring a second equipment number of the mobile working terminal connected with the charging communication equipment through the charging communication equipment;

and when the second equipment number is completely matched with the first equipment number, executing charging operation according to the current electric quantity of the mobile working terminal, and after detecting that the cabinet door is closed again, prompting that the return is completed and marking the mobile working terminal corresponding to the cabinet door as a withdrawable part.

3. The nuclear power station mobile work terminal borrowing method based on face recognition as claimed in claim 2, wherein the return information comprises face information or/and a work order identifier of a nuclear power station work order;

after the return information is input in a prompt mode on a control screen of the terminal storage cabinet corresponding to the first equipment number, the method comprises the following steps:

after return information input on the self-control screen of the borrower is received and verified by mistake, or the input return information is not received within a first preset time, re-input of the return information is prompted or a return failure is prompted.

4. The nuclear power station mobile working terminal borrowing method based on face recognition as claimed in claim 2, wherein after the corresponding cabinet door is opened according to the cabinet door identifier associated with the first equipment number, the method comprises the following steps:

when detecting that the charging communication equipment installed in the cabinet door is not connected with the mobile working terminal within a second preset time, prompting to connect the mobile working terminal with the charging communication equipment according to a preset placing mode, and opening the closing prevention equipment of the cabinet door to prevent the cabinet door from being closed;

when a return stopping instruction is received, closing the anti-closing equipment; or when detecting that the charging communication equipment is connected with a new mobile working terminal, closing the anti-closing equipment.

5. The nuclear power station mobile work terminal borrowing method based on face recognition as claimed in claim 2, wherein after the second device number of the mobile work terminal connected with the charging communication device is obtained through the charging communication device, the method comprises:

when the second equipment number is not completely matched with the first equipment number, prompting that the returned mobile working terminal is mistaken, and opening the closing prevention equipment of the cabinet door to prevent the cabinet door from being closed;

when a return stopping instruction is received, closing the anti-closing equipment; or when detecting that the charging communication equipment is connected with a new mobile working terminal and the third equipment number of the new mobile working terminal acquired by the charging communication equipment is completely matched with the first equipment number, closing the anti-closing equipment.

6. The nuclear power station mobile work terminal borrowing method based on face recognition as claimed in claim 2, wherein the executing of the charging operation according to the current electric quantity of the mobile work terminal comprises:

7. The nuclear power station mobile work terminal borrowing method based on face recognition as claimed in claim 2, wherein after the prompting lending is completed and the mobile work terminal corresponding to the cabinet door is marked as borrowed, the method further comprises:

when a first returning instruction which is sent by the borrower and contains a first equipment number is not received within a first preset time range, prompting the borrower to return the mobile working terminal;

when a first returning instruction which is sent by the borrower and contains a first equipment number is not received within a second preset time range, synchronously sending alarm information to a preset warning server and the borrower; the alarm information comprises face information, identity information, nuclear power station work order identification, a first equipment number and borrowing time of the borrower; the second preset time range is greater than the first preset time range.

8. The nuclear power plant mobile working terminal borrowing method based on face recognition as recited in claim 1,

after a face input interface is displayed on a control screen of the terminal storage cabinet, the method further comprises the following steps:

after the input face information is not received within the third preset time, prompting to input the face information or prompting that the borrowing fails; or

After the face information input by the borrower is received, the method further comprises the following steps:

and if the face information cannot be identified, prompting to re-enter the face information or prompting that the borrowing fails.

9. The nuclear power station mobile work terminal borrowing method based on face recognition as claimed in claim 1, wherein after the borrowing person is prompted on the control screen to enter a work order identifier of a nuclear power station work order, the method further comprises:

after the entered work order identifier of the nuclear power station work order is not received within the fourth preset time, prompting to enter the work order identifier of the nuclear power station work order or prompting that the borrowing fails; or

After the step of confirming whether the borrower has the requirement for borrowing the mobile working terminal according to the work order information and the identity information of the borrower, the method further comprises the following steps:

and when the borrower is confirmed not to have the requirement of borrowing the mobile working terminal, prompting that the borrowing fails.

10. The nuclear power station mobile working terminal borrowing method based on face recognition as claimed in claim 1, wherein before receiving a first borrowing instruction which is sent by a borrower and contains a unique identifier of a terminal storage cabinet, the method comprises:

when a preset borrowing key on a control screen of the terminal storage cabinet is triggered after a borrower is detected to enter a device type to be borrowed, generating a first borrowing instruction comprising the device type to be borrowed and a unique identifier of the terminal storage cabinet;

after receiving a first borrowing instruction which is sent by a borrower and contains the unique identifier of the terminal storage cabinet, the method further comprises the following steps:

matching the type of the equipment to be borrowed with the equipment types of all the mobile working terminals in an idle state in the terminal storage cabinet, recording the mobile working terminals with the equipment types consistent with the type of the equipment to be borrowed as the loanable mobile working terminals existing in the terminal storage cabinet associated with the unique identifier, and generating a lending queue of all the loanable mobile working terminals according to the amount of electric quantity;

open the cabinet door that corresponds with the mobile work terminal that can borrow on the terminal strorage cabinet, include:

and opening a cabinet door on the terminal storage cabinet corresponding to the mobile work terminal with the first sequence in the lending queue.

11. The nuclear power station mobile work terminal borrowing method based on face recognition as claimed in claim 1, wherein the determining whether the borrower has a demand for borrowing a mobile work terminal according to the work order information and the identity information of the borrower further comprises:

when the borrower does not currently hold a borrowed mobile work terminal, if the fact that the mobile work terminal is configured for the borrower in the work order information is recognized, the fact that the borrower needs to borrow the mobile work terminal is confirmed;

12. The nuclear power station mobile working terminal borrowing method based on face recognition as claimed in claim 1, wherein after receiving a first borrowing instruction which is sent by a borrower and contains a unique identifier of a terminal storage cabinet, the method further comprises:

13. The nuclear power station mobile working terminal borrowing method based on face recognition, wherein after receiving a first borrowing instruction which is sent by a borrower and contains a unique identifier of a terminal storage cabinet, and before prompting that borrowing is completed, the method further comprises the following steps:

14. The nuclear power station mobile work terminal borrowing method based on face recognition as set forth in claim 1, wherein after the face information, the identity information, the nuclear power station work order identification, the first equipment number and the borrowing time of the borrower are stored in an associated manner, the method comprises the following steps:

15. A nuclear power station mobile working terminal borrowing system based on face recognition is characterized by comprising a control server and at least one terminal storage cabinet in communication connection with the control server, wherein the control server is used for executing the nuclear power station mobile working terminal borrowing method based on face recognition in any one of claims 1 to 14.