CN114268440B - Production operation room management system and method - Google Patents

Abstract

The embodiment of the invention discloses a production operation room management system and a production operation room management method. The system comprises at least one operation computer, a terminal scanner corresponding to the operation computer, a user terminal and a management server, wherein the user terminal comprises a terminal processing module; the terminal processing module is used for generating key information corresponding to a user and displaying the key information on the user terminal when the user identity verification is detected to pass, the terminal scanner is used for acquiring the key information displayed by the user terminal and sending the key information to the management server, and the management server is used for verifying whether the user has the use permission of the operation computer according to the key information, and if so, the use permission of the operation computer is controlled to be opened. The system realizes the verification of the use authority of the operating computer based on the key information generated by the terminal in real time, and ensures the monitoring and tamper resistance of the authority of the operating user through the key information calculated in real time, thereby ensuring the information security of the operating computer.

Description

Production operation room management system and method

Technical Field

The embodiment of the invention relates to the field of production operation room monitoring, in particular to a production operation room management system and method.

Background

With the continuous development of science and technology, various application APP and website systems are layered endlessly, and daily and new products bring more convenient and faster life for people. With the development of artificial intelligence, 5G and blockchain technologies, the iteration speed of a digital system is faster and faster, and the optimization and upgrading of small versions are more and more frequent. Under the background, the anti-theft means between production operations also needs to be continuously improved, and the traditional means of manually punching and clamping passwords to enter is more and more difficult to meet the requirement of safe production.

At present, in most production operation rooms of network systems, verification of personnel access is performed by using modes of card swiping, password, face recognition and the like. However, the prior art mainly relies on card swiping, password and biological recognition technologies, and the methods are independent from each other, and the anti-counterfeiting capability is not cooperated. If the card is lost or the password is forgotten, unnecessary trouble is generated, in addition, the biological recognition technology is the most widely used for fingerprint recognition and face recognition, and along with the development of the 3D printing technology, the two biological recognition technologies meet the unprecedented challenges, illegal means such as stealing by brushing and the like are endless, so that certain potential safety hazards exist between production operations.

Disclosure of Invention

The embodiment of the invention provides a production operation room management system and a production operation room management method, which are used for improving the safety of production operation rooms.

In a first aspect, an embodiment of the present invention provides a production inter-operation management system, where the system includes at least one operation computer, a terminal scanner corresponding to the operation computer, a user terminal, and a management server, and the user terminal includes a terminal processing module; wherein,

the terminal processing module is used for generating key information corresponding to the user and displaying the key information on a display interface of the user terminal when the user identity verification is detected to pass;

the terminal scanner is connected with the management server and is used for scanning a display interface of the user terminal, acquiring key information displayed by the user terminal and sending the key information to the management server;

and the management server is used for judging whether the user has the use authority of the operation computer according to the key information, and if so, starting the use authority of the operation computer.

Optionally, the key information includes location information and identity information corresponding to the user, and the management server is specifically configured to determine, according to the location information and/or the identity information, an operation computer associated with the user, and determine whether the user has a use right of the operation computer, if yes, open the use right of the operation computer.

Optionally, the terminal scanner is further configured to send a user suspension signal to the management server when the user terminal is detected to interrupt display of the key information;

and the management server is also used for judging whether the operation computer is in a use state or not when receiving the user temporary separation signal, and if so, controlling the operation computer to change from the use state to a screen locking state.

Optionally, the terminal processing module is further configured to obtain face scanning data and/or fingerprint identification data of the user when the user is detected to be located in a production operation room, and perform personnel identity verification of the user based on the face scanning data and/or the fingerprint identification data.

Optionally, the system further comprises a positioning device, and the user terminal further comprises a positioning processing module;

the positioning processing module is used for sending a positioning signal to the positioning device;

the positioning device is in communication connection with the terminal processing module and is used for determining the current position of the user terminal based on the received positioning signals and sending the current position to the terminal processing module;

and the terminal processing module is also used for judging whether the user is positioned in the production operation room or not based on the current position.

Optionally, the terminal processing module is further configured to determine whether the user leaves the production operation room based on the current location, and if yes, send a user leaving signal to the management server;

and the management server is also used for judging whether the operation computer is in a use state or a screen locking state when receiving the user leaving signal, and if so, feeding back log-out prompt information to the terminal processing module.

Optionally, the system further includes a scanning transmitter corresponding to the operation computer and a radio frequency chip, where the radio frequency chip is disposed in the employee card of the user;

the scanning transmitter is used for receiving the radio frequency signals fed back by the radio frequency chips, determining the chips to be checked which are positioned in the set range of the operation computer according to the signal intensity of each radio frequency signal, performing authority verification on the radio frequency signals corresponding to the chips to be checked, and generating alarm signals and sending the alarm signals to the management server if the radio frequency signals which are not passed by the authority verification exist.

Optionally, the scan transmitter is further configured to receive a verification-free chip sent by the associated other scan transmitters, and reject the verification-free chip from the chip to be verified.

Optionally, the management server is further configured to obtain each commissioning task and commissioning information corresponding to each commissioning task, and determine a commissioning order of each commissioning task and an operation computer corresponding to each commissioning task based on a commissioning window corresponding to the operation computer, a scheduled task corresponding to the operation computer, and a pre-trained commissioning planning model.

In a second aspect, embodiments of the present invention also provide a method of inter-production operation management, the method comprising:

when the passing of the personnel identity verification of the user is detected, generating key information corresponding to the user through a terminal processing module, and displaying the key information on a display interface of the user terminal;

based on a terminal scanner corresponding to an operation computer, scanning a display interface of the user terminal to acquire key information displayed by the user terminal;

and judging whether the user has the use authority of the operation computer or not according to the key information through the management server, and if so, starting the use authority of the operation computer.

The embodiments of the above invention have the following advantages or benefits:

the production operation room management system provided by the invention comprises at least one operation computer, a terminal scanner corresponding to the operation computer, a user terminal and a management server, wherein the user terminal comprises a terminal processing module; the terminal processing module is used for generating key information corresponding to a user and displaying the key information on a display interface of the user terminal when the user identity verification is detected to pass, the terminal scanner is used for scanning the display interface of the user terminal, acquiring the key information displayed by the user terminal and sending the key information to the management server, and the management server is used for verifying whether the user has the use authority of the operation computer according to the key information, if so, the use authority of the operation computer is controlled to be opened. The system realizes the verification of the computer use authority in the production operation room by the key information generated by the terminal in real time, ensures the monitoring and tamper resistance of the operation user authority by calculating the transmitted key information in real time, further ensures the information safety of the operation computer, solves the potential safety hazard caused by card swiping or forgetting passwords and the like in the prior art, and further improves the safety of the production operation room.

Drawings

In order to more clearly illustrate the technical solution of the exemplary embodiments of the present invention, a brief description is given below of the drawings required for describing the embodiments. It is obvious that the drawings presented are only drawings of some of the embodiments of the invention to be described, and not all the drawings, and that other drawings can be made according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a production inter-operation management system according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a positioning method according to a second embodiment of the present invention;

FIG. 3 is a schematic diagram of a production inter-operation management system according to a third embodiment of the present invention;

fig. 4 is a flow chart of a method for managing production operations according to a fourth embodiment of the invention.

Detailed Description

The invention is described in further detail below with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting thereof. It should be further noted that, for convenience of description, only some, but not all of the structures related to the present invention are shown in the drawings.

Example 1

Fig. 1 is a schematic structural diagram of a production operation room management system according to a first embodiment of the present invention. As shown in fig. 1, the production inter-operation management system provided in the present embodiment includes at least one operation computer 11, a terminal scanner 12 corresponding to the operation computer, a user terminal 13, and a management server 14, where the user terminal 13 includes a terminal processing module 131; the terminal processing module 131 is configured to generate key information corresponding to a user and display the key information on a display interface of the user terminal 13 when the user identity verification is detected to pass; the terminal scanner 12 is connected with the management server 14, and is used for scanning the display interface of the user terminal 13, acquiring the key information displayed by the user terminal 13, and sending the key information to the management server 14; the management server 14 is configured to determine whether the user has the use authority of the operation computer 11 based on the key information, and if so, open the use authority of the operation computer 11.

Wherein, the operation computer 11 may be a computer in a production operation room for executing a commissioning task, and the commissioning task may be an update system or a software version; in the present embodiment, the number of operation computers 11 in the production operation room may be one or more.

The terminal scanners 12 corresponding to the operation computers may be means for scanning the terminal display interface, and it should be noted that each operation computer corresponds to one terminal scanner 12, that is, the number of the terminal scanners 12 is the same as the number of the operation computers 11. Alternatively, the terminal scanner 12 may be provided on a desk top of a desk where the operation computer 11 is installed, or the terminal scanner may be provided on a host top of the operation computer 11, or the like.

The terminal processing module 131 may be an application on the user terminal 13 for managing the production inter-operation. Specifically, the terminal processing module 131 may generate key information in real time and display the key information on the display interface of the user terminal 13 when it detects that the person identity of the user passes the verification. The key information may be automatically generated by encrypting the information such as the current time and the identity of the user by the terminal processing module 131. Alternatively, the terminal processing module 131 is communicatively connected to the management server 14, and the terminal processing module 131 may send a key request to the management server 14 and receive key information issued by the management server 14.

In this embodiment, after the terminal processing module 131 generates the key information, the user may place the user terminal 13 on the terminal scanner 12 such that the display interface of the user terminal 13 is aligned with the scanning area of the terminal scanner 12. Further, the terminal scanner 12 may scan the display interface of the user terminal 13, acquire key information on the display interface, and transmit the key information to the management server 14.

The management server 14 may be an in-house server within a production suite, or a cloud server. Specifically, the terminal scanner 12 may perform data transmission with the management server 14 through a wireless connection or a bluetooth connection, etc. In this embodiment, after receiving the key information, the management server 14 may verify the key information to determine whether the user has the use authority of the operation computer 11, and if so, the management server 11 may open the use authority of the operation computer 11. For example, the management server 11 may control the operation computer 11 to automatically start up, or release the login restriction of the operation computer 11, etc. the management server 11 may start up the operation computer 11.

In one embodiment, the management server 14 may determine whether or not the user has the use authority of any one of the operation computers 11 in the production operation room based on the key information. The key information may include time information, location information, and identity information, among others.

In another embodiment, the management server 14 may only determine whether the user has the right to use the operation computer 11 associated with the user (e.g., the operation computer 11 closest to the user, or the operation computer 11 bound to the user's identity, etc.). That is, optionally, the key information includes location information and identity information corresponding to the user, and the management server 14 is specifically configured to determine the operation computer 11 associated with the user according to the location information and/or the identity information, and determine whether the user has the use authority of the operation computer 11, if so, open the use authority of the operation computer 11.

Specifically, since the user typically places the user terminal 13 on the terminal scanner 12 corresponding to the operation computer 11 to be used, the management server 14 can determine the operation computer 11 closest to the user according to the location information, and perform the use authority verification thereof; or, the management server 14 may determine the operation computer 11 bound to the user according to the identity information, and perform the use authority verification on the operation computer, for example, the user a and the user B may use the operation computer co_1 only in a certain period of time; alternatively, the management server 14 may verify the use authority of the operation computer 11 which is closest to the user and bound to the user, based on the location information and the identity information. By the aid of the optional implementation mode, authority verification of the usable operation computer appointed by the user in advance can be achieved, authority verification of the operation computer closest to the user can also be achieved, the use authority of all operation computers in the production operation room is prevented from being verified, and verification efficiency and use safety of the operation computers are improved.

Of course, the terminal processing module 131 of the present embodiment may also be used to perform access right verification between production operations. Specifically, the terminal processing module 131 may bind with a user identifier corresponding to the user terminal 13, when a user needs to produce an operation room, the terminal processing module 131 may generate graphic coding information corresponding to the user and display the graphic coding information on a display interface of the user terminal, and an employee card scanning device in the production operation room may scan the graphic coding information to verify whether the graphic coding information has access rights. In the alternative implementation mode, the original card swiping mode is replaced by the user terminal swiping mode, so that the safety of the production operation room is improved, and meanwhile, the situation that the employee card cannot enter the production operation room due to loss is prevented.

The production operation room management system provided by the embodiment comprises at least one operation computer, a terminal scanner corresponding to the operation computer, a user terminal and a management server, wherein the user terminal comprises a terminal processing module; the terminal processing module is used for generating key information corresponding to a user and displaying the key information on a display interface of the user terminal when the user identity verification is detected to pass, the terminal scanner is used for scanning the display interface of the user terminal, acquiring the key information displayed by the user terminal and sending the key information to the management server, and the management server is used for verifying whether the user has the use authority of the operation computer according to the key information, if so, the use authority of the operation computer is controlled to be opened. The system realizes the verification of the computer use authority in the production operation room by the key information generated by the terminal in real time, ensures the monitoring and tamper resistance of the operation user authority by calculating the transmitted key information in real time, further ensures the information safety of the operation computer, solves the potential safety hazard caused by card swiping or forgetting passwords and the like in the prior art, and further improves the safety of the production operation room.

Optionally, in the technical solution of the present embodiment, the terminal scanner 12 is further configured to send a user temporary separation signal to the management server 14 when detecting that the user terminal 13 interrupts the display of the key information; the management server 14 is further configured to determine, when receiving the user suspension signal, whether the operation computer 11 is in a use state, and if so, control the operation computer 11 to change from the use state to a screen locking state.

Specifically, if the display interface of the user terminal 13 is continuously aligned with the terminal scanner 12, that is, the user places the user terminal 13 on the terminal scanner 12 all the time, the terminal scanner 12 can keep the detection of the key information, and the operation computer 11 can be normally used by the user; if the user withdraws the user terminal 13 due to a temporary departure or the like, the terminal scanner 12 cannot scan the key information, so that the management server 14 cannot acquire the key information of the user terminal 13. At this time, in order to ensure that the production data in the operation computer 11 is not tampered, the management server 14 may change the operation computer 11 from the use state to the screen locking state, that is, automatically lock the screen of the operation computer 11, so as to protect the production data from being tampered, further improve the data security of the operation computer, and prevent the risk that the user forgets to log out the identity information of the stolen brush.

Of course, in consideration of the situation that the user picks up the user terminal 13 due to the reason of answering a call or the like in the process of using the operation computer 11, at this time, the operation computer 11 may not be controlled to lock the screen automatically, so that the influence on the use process of the user is avoided. Thus, in an alternative embodiment, the terminal scanner 12 may also send a user suspension signal to the management server 14 upon detecting that the duration in which the user terminal 13 interrupts the display of the key information exceeds a preset threshold. I.e. the control operation computer 11 automatically locks the screen when the time for which the user withdraws from the user terminal exceeds a preset threshold.

The management server 14 in this embodiment may also perform data statistics analysis on the historical production tasks, provide an optimal production window for each operation computer 11, plan an optimal production task execution sequence for each operation computer 11, predict production time required by each production task, predict optimal production execution time of each production task, and so on.

The management server 14 may be further configured to obtain each of the commissioning tasks and commissioning information corresponding to each of the commissioning tasks, and determine a commissioning order of each of the commissioning tasks and an operation computer corresponding to each of the commissioning tasks based on a commissioning window corresponding to the operation computer 11, a scheduled task corresponding to the operation computer 11, and a pre-trained commissioning planning model.

Specifically, the management server 14 can monitor and count the historical use duration and the historical production frequency of each operation computer 11 in the production operation room, and construct a production planning model according to the information of the version iteration period, the production release time, the proficiency of the operator, the production version completion rate, the production execution time, the production execution sequence, the production required time and the like of each historical production task. The production planning model can predict the production sequence of each production task to be estimated currently and the operation computer corresponding to each production task, or can also predict the production time, the production execution time and other information of each production task to be estimated currently.

Optionally, the management server 14 may also train the production planning model according to the code update amount of the historical production task, the function points in the requirement document, the development and test time, and other information, so that the production planning model may predict the workload and update complexity of the production task, and further determine the production order, the corresponding operation computer, the time required for production, the execution time of production, and other information according to the workload and update complexity. The management server 14 can adaptively adjust the update iteration production frequency of each system in the production operation room, learn the historical statistics data, and obtain a set of recommended production system time schedule, so that the problem of long queuing waiting time caused by too centralized use of people in the production operation room is avoided, the waiting time in the production operation room is reduced, and the working efficiency of the whole operation is improved.

Of course, the management server 14 may also determine the production window of each operating computer 11 according to the historical production situation of each operating computer 11. The management server 14 may further determine a standby computer for emergency production from the plurality of operating computers 11, where the standby computer is a reserved computer for performing an emergency production task, and the standby computer may be dynamically adjusted according to production requirements in a current day period, so as to fully utilize each computer and improve overall technical effects of developing and operating efficiency.

Example two

In this embodiment, based on the foregoing embodiment, optionally, the terminal processing module 131 is further configured to obtain face scan data and/or fingerprint identification data of the user when the user is detected to be located in the production operation room, and perform personnel identity verification of the user based on the face scan data and/or the fingerprint identification data.

Specifically, the production operation room management system provided in this embodiment includes at least one operation computer, a terminal scanner corresponding to the operation computer, a user terminal, and a management server, where the user terminal includes a terminal processing module; the terminal processing module is used for acquiring face scanning data and/or fingerprint identification data of the user when the user is detected to be located in the production operation room, and checking the personnel identity of the user based on the face scanning data and/or the fingerprint identification data; when the passing of the personnel identity verification of the user is detected, generating key information corresponding to the user and displaying the key information on a display interface of the user terminal.

In this embodiment, when the terminal processing module detects that the personnel identity of the user passes the verification, the terminal processing module generates key information corresponding to the user. Specifically, the terminal processing module can perform personnel identity verification of the user according to the face scanning data and/or the fingerprint identification data of the user.

In an exemplary embodiment, the location of the user may be located by the locating device, and if the terminal processing module detects that the user is located in the production operation room or the user is seated, the terminal processing module may initiate face recognition and/or fingerprint recognition of the user by using the user terminal, and obtain face scanning data and/or fingerprint recognition data of the user by using the user terminal. Further, the acquired face scanning data and/or fingerprint identification data are checked to check the personnel identity of the user, and when the personnel identity check passes, the key information corresponding to the user is generated.

The production operation room management system provided in this embodiment further includes a positioning device, and the user terminal further includes a positioning processing module; the positioning processing module is used for sending a positioning signal to the positioning device; the positioning device is in communication connection with the terminal processing module and is used for determining the current position of the user terminal based on the received positioning signals and sending the current position to the terminal processing module; and the terminal processing module is also used for judging whether the user is positioned in the production operation room or not based on the current position.

The positioning device can be a multi-antenna group preset in a production operation room, and the multi-antenna group can be used as a signal transmitter and a signal receiver; the positioning processing module may be a bluetooth signal positioning module inside the user terminal, for example, may include multiple antenna groups inside the user terminal.

For example, the multiple antenna groups in the positioning processing module can transmit a set of positioning signals transmitted by multiple antennas at a set time interval, each antenna in the antenna groups in the positioning device can determine an included angle between the user terminal and the antenna after receiving the positioning signals, and the current position of the user terminal can be determined based on the included angle between each antenna and the user terminal.

As shown in fig. 2, a positioning schematic diagram is shown, in which the receivers may be antennas in the positioning device, the transmitters may be antennas in the positioning processing module, each receiver may determine the direction of the transmitter, and the intersection point of the straight lines where the directions determined by the receivers are located is the position of the transmitter. Of course, multiple antenna groups can be used as transmitters and receivers respectively, each transmitting antenna can be activated through different time sequences, and after a single antenna is traversed, a group of signals transmitted by multiple antennas at the same time can be transmitted at special time intervals; and optimally grouping the antennas aiming at different directions at a receiver end, placing more dense receiving antennas at intervals, and finally positioning the user by weighting and averaging different numbers. Or, the positioning device can also be a bluetooth node, a direction finding model is built by using the intensity of the positioning signals received by each bluetooth node, and the user terminal is automatically identified and positioned after entering the scanning area.

Further, after the current position of the user terminal is obtained, the terminal processing module judges whether the current position is located between production operations, and if yes, face recognition and/or fingerprint recognition of the user is initiated.

Production operation room is often limited in a user login link, but whether an account is locked after login and personnel leave temporarily is not judged. Therefore, in an alternative embodiment, the terminal processing module is further configured to determine whether the user leaves the production operation room based on the current location, and if so, send a user leaving signal to the management server; and the management server is also used for judging whether the operation computer is in a use state or a screen locking state when receiving a user leaving signal, and if so, feeding back log-out prompt information to the terminal processing module.

Specifically, the embodiment considers that the user has left the production operation room but has not closed the computer or has not logged out the operation account, and at this time, there is a possibility that information of the operation computer is leaked. Therefore, the terminal processing module can also send a user leaving signal to the management server when judging that the user leaves the production operation room, and further, the management server judges whether the operation computer is in a use state or a screen locking state after receiving the user leaving signal, if so, the terminal processing module is fed back with the logout prompt information to prompt the user to return to the production operation room for logout operation, so that information leakage of the operation computer is avoided.

The terminal processing module in the production operation room management system provided by the embodiment can acquire the face scanning data and/or the fingerprint identification data of the user when detecting that the user is located in the production operation room, and perform personnel identity verification of the user based on the face scanning data and/or the fingerprint identification data so as to generate key information after verification is passed, thereby realizing personnel identity verification before generating the key information. The system can realize the verification of personnel identity and use authority, and only opens the use authority of the operation computer when the personnel identity and the use authority pass through, so that the safety of the production operation room is further improved.

In addition, in the embodiment, a terminal processing module in the user terminal is used to verify the personnel identity of the user in real time. For the production operation room of devices such as face recognition, fingerprint recognition and the like which are not deployed in part, because the acquisition equipment for face recognition, fingerprint recognition and the like is integrated in the mobile phone, the biological information of the face and the fingerprint can be acquired through the mobile phone APP, after verification, the key information and the terminal scanner scanning key information (near field communication technology) are generated through the APP, the use authority of a user is verified, hardware upgrading is not needed in the production operation room, the production operation room has the advantages of being strong in operability, convenient and fast, high in safety coefficient, meanwhile, multiple verification of the user using an operation computer is realized, and the safety level of the operation computer is improved.

Example III

Fig. 3 is a schematic structural diagram of a production operation room management system according to a third embodiment of the present invention, as shown in fig. 3, where the production operation room management system provided in this embodiment includes at least one operation computer 31, a terminal scanner 32 corresponding to the operation computer, a user terminal 33, a management server 34, a scanning transmitter 35 corresponding to the operation computer 31, and a radio frequency chip 36, the user terminal 33 includes a terminal processing module 331, and the radio frequency chip 36 is disposed in a user's staff card.

The terminal processing module 331 is configured to generate key information corresponding to a user and display the key information on a display interface of the user terminal 33 when the user identity verification is detected to pass; the terminal scanner 32 is connected with the management server 34, and is used for scanning the display interface of the user terminal 33, acquiring the key information displayed by the user terminal 33, and sending the key information to the management server 34; a management server 34 for judging whether the user has the use authority of the operation computer 31 according to the key information, and if so, starting the use authority of the operation computer; the scanning transmitter 35 is configured to receive the radio frequency signals fed back by the radio frequency chip 36, determine a chip to be verified located in a set range of the operation computer 31 according to signal intensity of each radio frequency signal, perform authority verification on the radio frequency signal corresponding to the chip to be verified, and if there is a radio frequency signal that does not pass the authority verification, generate an alarm signal and send the alarm signal to the management server 34.

The scan transmitter 35 corresponding to the operation computer 31 may be an NFC (Near Field Communication ) transmitter, and the scan transmitter 35 may be disposed on a desk where the operation computer 31 is placed. The radio frequency chip 36 may be an RFID (Radio Frequency Identification, radio frequency identification technology) chip, provided in a user's employee card.

Specifically, the scanning transmitter 35 disposed on the tabletop can receive the rf signals fed back by the rf chips 36. The scan transmitter 35 may sort the radio frequency signals according to the signal strengths of the received radio frequency signals, and determine the radio frequency chips 36, i.e., the chips to be verified, located within the set range of the operation computer 31 based on the sorting result. The set range of the operation computer 31 may be a preset security range of the operation computer 31, and a user within the set range needs to have the use authority of the operation computer. For example, the setting range of the operation computer 31 may be a sector area with the operation computer 31 as a vertex, and the scan transmitter 35 on the desktop may determine the rf chip 36 located in the sector area according to the signal intensity of each rf signal.

Further, the scan transmitter 35 can perform authority verification on the radio frequency signals corresponding to the chips to be verified, if there are chips to be verified that do not pass the authority verification, the scan transmitter 35 can generate an alarm signal to send to the management server 34, and the management server 34 can generate an alarm prompt message and display the alarm prompt message on the screen of the operation computer 31. By scanning the transmitter 35 and the radio frequency chip 36, the identity authority of an operator nearby the operating computer is monitored, so that other persons without authority can be prevented from illegally intruding.

Considering that there is a case that the scanning transmitter 35 determines the radio frequency chip of the neighboring table user as the chip to be checked, optionally, the scanning transmitter 35 is further configured to receive the verification-free chip sent by the other associated scanning transmitters, and reject the verification-free chip from the chip to be checked. Wherein the associated other scan emitter may be a scan emitter corresponding to an operating computer adjacent to the operating computer corresponding to the current scan emitter, i.e. the associated other scan emitter may be an adjacent scan emitter.

Specifically, each scan transmitter 35 may send the radio frequency chip with the highest signal strength received by itself as a verification-free chip to other scan transmitters associated with the radio frequency chip, so that the other scan transmitters associated with the radio frequency chip delete the radio frequency signal corresponding to the verification-free chip from the radio frequency signal list, or delete the verification-free chip from the chips to be verified, so as to avoid the authority verification of the verification-free chip. In other words, the rank of the received rf signals of each scanning emitter 35 may be separately arranged, and the rf chip (or the user identifier) corresponding to the rf signal with the strongest response signal is removed from the list of chips to be verified of the scanning emitter 35 of the neighboring table.

By the alternative implementation mode, the authority verification range of the scanning emitter is optimized, and the condition that the authority verification range is too large is prevented, for example, authority verification of users of adjacent tables can be avoided, and accordingly false alarm signals are avoided.

According to the production operation room management system provided by the embodiment, the scanning transmitter corresponding to the operation computer is used for receiving radio frequency signals fed back by each radio frequency chip, the chip to be verified in the set range of the operation computer is determined according to the signal intensity of each radio frequency signal, the radio frequency signals corresponding to the chip to be verified are further subjected to authority verification, if the radio frequency signals which do not pass the authority verification exist, alarm signals are generated and sent to the management server, the authority verification of all users in the preset safe working range of the operation computer is realized, whether unauthorized persons exist in the preset safe working range of the operation computer is monitored, information leakage of the operation computer is avoided, and the use safety of the operation computer and the production operation room is improved.

Example IV

Fig. 4 is a flow chart of a method for managing a production operation room provided in a fourth embodiment of the present invention, where the method may be executed by a production operation room management system, and the system may be implemented by hardware and/or software, and the method specifically includes the following steps:

and S410, when the passing of the personnel identity verification of the user is detected, generating key information corresponding to the user through a terminal processing module, and displaying the key information on a display interface of the user terminal.

S420, based on a terminal scanner corresponding to an operation computer, scanning a display interface of the user terminal, and acquiring key information displayed by the user terminal.

S430, judging whether the user has the use authority of the operation computer or not according to the key information through the management server, and if so, starting the use authority of the operation computer.

Optionally, the key information includes location information and identity information corresponding to the user, and the determining, according to the key information, whether the user has the use authority of the operating computer includes: and determining an operation computer associated with the user according to the position information and/or the identity information, and judging whether the user has the use authority of the operation computer.

Optionally, the method further comprises: if the terminal scanner detects that the user terminal interrupts the display of the key information, judging whether the operation computer is in a use state or not through the management server, and if so, controlling the operation computer to change from the use state to a screen locking state.

Optionally, the method further comprises: and when the terminal processing module detects that the user is positioned in a production operation room, acquiring face scanning data and/or fingerprint identification data of the user, and checking the personnel identity of the user based on the face scanning data and/or the fingerprint identification data.

Optionally, the method further comprises: and receiving positioning signals sent by a positioning processing module on the user terminal through a positioning device, determining the current position of the user terminal based on the received positioning signals, and judging whether the user is positioned between the production operations based on the current position.

Optionally, the method further comprises: and judging whether the user leaves the production operation room or not based on the current position through the terminal processing module, if so, judging whether the operation computer is in a use state or a screen locking state through the management server, and if so, feeding back log-out prompt information to the terminal processing module.

Optionally, the method further comprises: and receiving radio frequency signals sent by radio frequency chips arranged in the employee cards of the users through scanning transmitters corresponding to the operation computers, determining a chip to be checked which is positioned in a set range of the operation computers according to the signal intensity of each radio frequency signal, performing authority verification on the radio frequency signals corresponding to the chip to be checked, and generating an alarm signal if radio frequency signals which are not passed by the authority verification exist.

Optionally, the method further comprises: and receiving the verification-free chips sent by other related scanning transmitters through the scanning transmitters, and removing the verification-free chips from the chips to be verified.

Optionally, the method further comprises: and acquiring each production task and production information corresponding to each production task through the management server, and determining the production sequence of each production task and the operation computer corresponding to each production task based on the production window corresponding to the operation computer, the scheduled task corresponding to the operation computer and a pre-trained production planning model.

According to the technical scheme, when the passing of the personnel identity verification of the user is detected, the key information corresponding to the user is generated and displayed on the display interface of the user terminal, the display interface of the user terminal is scanned through the terminal scanner, the key information displayed by the user terminal is obtained and sent to the management server, and whether the user has the use authority of the operation computer or not is verified through the management server according to the key information, if so, the use authority of the operation computer is controlled to be opened, verification of the use authority of the computer in the production operation room through the key information generated in real time by the terminal is realized, the information safety of the operation computer is ensured, the potential safety hazard caused by card swiping or forgetting passwords in the prior art is solved, and the safety of the production operation room is further improved.

Note that the above is only a preferred embodiment of the present invention and the technical principle applied. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, while the invention has been described in connection with the above embodiments, the invention is not limited to the embodiments, but may be embodied in many other equivalent forms without departing from the spirit or scope of the invention, which is set forth in the following claims.

Claims (9)

1. The production operation room management system is characterized by comprising at least one operation computer, a terminal scanner corresponding to the operation computer, a user terminal and a management server, wherein the user terminal comprises a terminal processing module; wherein,

the terminal processing module is used for generating key information corresponding to the user and displaying the key information on a display interface of the user terminal when the user identity verification is detected to pass;

the terminal scanner is connected with the management server and is used for scanning a display interface of the user terminal, acquiring key information displayed by the user terminal and sending the key information to the management server;

the management server is used for judging whether the user has the use authority of the operation computer according to the key information, if so, starting the use authority of the operation computer;

the management server is further configured to obtain each production task and production information corresponding to each production task, and determine a production sequence of each production task and an operation computer corresponding to each production task based on a production window corresponding to the operation computer, a scheduled task corresponding to the operation computer, and a pre-trained production planning model.

2. The system according to claim 1, wherein the key information includes location information and identity information corresponding to the user, and the management server is specifically configured to determine an operation computer associated with the user according to the location information and/or the identity information, and determine whether the user has a right of use of the operation computer, and if so, open the right of use of the operation computer.

3. The system of claim 1, wherein the terminal scanner is further configured to send a user suspension signal to the management server upon detecting that the user terminal interrupts the display of the key information;

and the management server is also used for judging whether the operation computer is in a use state or not when receiving the user temporary separation signal, and if so, controlling the operation computer to change from the use state to a screen locking state.

4. The system according to claim 1, wherein the terminal processing module is further configured to obtain face scan data and/or fingerprint identification data of the user when the user is detected to be located in a production operation room, and perform personnel identity verification of the user based on the face scan data and/or the fingerprint identification data.

5. The system of claim 4, further comprising a positioning device, wherein the user terminal further comprises a positioning processing module;

the positioning processing module is used for sending a positioning signal to the positioning device;

the positioning device is in communication connection with the terminal processing module and is used for determining the current position of the user terminal based on the received positioning signals and sending the current position to the terminal processing module;

and the terminal processing module is also used for judging whether the user is positioned in the production operation room or not based on the current position.

6. The system of claim 5, wherein the terminal processing module is further configured to determine whether the user leaves the production room based on the current location, and if so, send a user leave signal to the management server;

and the management server is also used for judging whether the operation computer is in a use state or a screen locking state when receiving the user leaving signal, and if so, feeding back log-out prompt information to the terminal processing module.

7. The system of claim 1, further comprising a scanning transmitter corresponding to the operating computer and a radio frequency chip disposed in the user's employee card;

the scanning transmitter is used for receiving the radio frequency signals fed back by the radio frequency chips, determining the chips to be checked which are positioned in the set range of the operation computer according to the signal intensity of each radio frequency signal, performing authority verification on the radio frequency signals corresponding to the chips to be checked, and generating alarm signals and sending the alarm signals to the management server if the radio frequency signals which are not passed by the authority verification exist.

8. The system of claim 7, wherein the scan transmitter is further configured to receive a verification-free chip sent by an associated other scan transmitter, and reject the verification-free chip from the chip to be verified.

9. A method of inter-production operation management, the method comprising:

when the passing of the personnel identity verification of the user is detected, generating key information corresponding to the user through a terminal processing module, and displaying the key information on a display interface of the user terminal;

based on a terminal scanner corresponding to an operation computer, scanning a display interface of the user terminal to acquire key information displayed by the user terminal;

judging whether the user has the use authority of the operation computer or not according to the key information through a management server, and if so, starting the use authority of the operation computer;

and acquiring each production task and production information corresponding to each production task through the management server, and determining the production sequence of each production task and the operation computer corresponding to each production task based on the production window corresponding to the operation computer, the scheduled task corresponding to the operation computer and a pre-trained production planning model.