CN112862458A

CN112862458A - Nuclear power test procedure supervision method and device, computer equipment and storage medium

Info

Publication number: CN112862458A
Application number: CN202110228603.7A
Authority: CN
Inventors: 胡春泉; 孙惠盼
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: 2021-03-02
Filing date: 2021-03-02
Publication date: 2021-05-28

Abstract

The application relates to a nuclear power test procedure supervision method, a device, computer equipment and a storage medium in the technical field of nuclear power informatization construction. The method comprises the following steps: in the nuclear power test execution process, acquiring a test work order execution task, wherein the test work order execution task carries a process identification of a current test process to be supervised; displaying a procedure execution interface according to the test work order execution task; when trigger operation of a supervision button in a process execution interface is received, current supervisor information is obtained, and the current supervisor information comprises a supervisor identifier; acquiring prestored supervisor information corresponding to the current to-be-supervised test procedure according to the procedure identification; performing identity verification on the current supervisor information according to the prestored supervisor information; after passing the identity verification, unlocking the current test procedure to be supervised, and supervising the procedure execution process of the unlocked test procedure through the supervising terminal corresponding to the supervisor identification. The method can improve the reliability of the test procedure.

Description

Nuclear power test procedure supervision method and device, computer equipment and storage medium

Technical Field

The application relates to the technical field of nuclear power informatization construction, in particular to a method and a device for supervising a nuclear power test procedure, computer equipment and a storage medium.

Background

Nuclear power plants generate electricity from the thermal energy generated by nuclear fuel in nuclear reactors. Due to the particularity of nuclear power plants, it is necessary to ensure the most basic safety of the nuclear power plants. The periodic test in the nuclear power test is an important process for ensuring the safety of a nuclear power plant, and is a performance test or availability check of a unit, a system, a component or a structure and the like according to a method specified by a program file and a plurality of test procedures in a test work order corresponding to the nuclear power test. In the execution process of the periodic test, part of test procedures need to be supervised, namely, the execution process of the test procedures is supervised, maintained and managed, so that the execution operation is prevented from being mistaken. In the traditional mode, a supervisor is determined manually to supervise the execution process of the test procedure, but when the number of the test procedures is large, the supervisor is confirmed manually to easily make errors, so that the test procedure cannot be effectively supervised, and the reliability of the test procedure is low.

Disclosure of Invention

In view of the above, it is necessary to provide a method, an apparatus, a computer device and a storage medium for supervising a nuclear power test procedure, which can effectively supervise a test procedure to improve the reliability of the test procedure.

A nuclear power test procedure supervision method comprises the following steps:

in the nuclear power test execution process, obtaining a test work order execution task, wherein the test work order execution task carries a process identification of a current test process to be supervised;

displaying a procedure execution interface according to the test work order execution task;

when trigger operation of a supervision button in the process execution interface is received, current supervisor information is obtained, wherein the current supervisor information comprises a supervisor identifier;

acquiring prestored supervisor information corresponding to the current to-be-supervised test procedure according to the procedure identification;

performing identity verification on the current supervisor information according to the prestored supervisor information;

and after the identity authentication is passed, unlocking the current test procedure to be supervised, and supervising the procedure execution process of the unlocked test procedure by the supervising terminal corresponding to the supervisor identification.

In one embodiment, the acquiring current supervisor information includes:

acquiring a supervisor identifier corresponding to the procedure identifier according to the triggering operation of the supervision button;

generating a process supervision request according to the supervisor identification and the process identification, and sending the process supervision request to a supervision terminal corresponding to the supervisor identification;

and receiving the current supervisor information returned by the supervision terminal in a preset mode.

In one embodiment, the current supervisor information includes a current supervisor face image, and the authenticating the current supervisor information according to the prestored supervisor information includes:

extracting features of the current supervision person face image and the face image in the prestored supervision person information to obtain a first face feature corresponding to the current supervision person face image and a second face feature corresponding to the face image in the prestored supervision person information;

performing face matching according to the first face features and the second face features;

and when the matching degree meets a preset threshold value, the current supervisor information passes identity authentication.

In one embodiment, the method further comprises:

acquiring a configuration file, wherein the verification time interval of the current supervisor information is recorded in the configuration file;

and when the verification time interval is reached, performing identity verification on the current supervisor information according to the prestored supervisor information.

In one embodiment, after the unlocking the current process sequence to be supervised, the method further includes:

determining nuclear power equipment to be tested corresponding to the process identification, process description information and a set of set keywords;

determining position information of each set keyword in the set keyword set in the process description information, and performing part-of-speech tagging and semantic tagging on each participle in the process description information to obtain a part-of-speech tagging result and a semantic tagging result;

extracting target participles meeting preset conditions from the part-of-speech tagging results or the semantic tagging results;

performing word segmentation matching on the target word segmentation and each set keyword in the set keyword set, and converting the successfully matched target word segmentation and set keywords into corresponding test parameters;

and sending the test parameters to the nuclear power equipment to be tested so that the nuclear power equipment to be tested executes the unlocked test procedure to be monitored according to the test parameters.

In one embodiment, the method further comprises:

receiving test information of the unlocked test procedure in the execution process of the unlocked test procedure;

acquiring a procedure processing strategy corresponding to the unlocked test procedure according to the test information;

identifying the problem type of the test information according to the procedure processing strategy;

determining a return test procedure corresponding to the unlocked test procedure in the procedure processing strategy according to the problem type;

when the return test process is not the first test process of the nuclear power test, the nuclear power test is re-executed from the return test process.

In one embodiment, the method further comprises:

in the process of executing the unlocked test procedure, when the triggering operation of a feedback button in the procedure execution interface is received, acquiring a target personnel identifier and procedure abnormal information preset in the unlocked test procedure;

sending the process abnormal information to a terminal corresponding to the target personnel identification;

and receiving correction information returned by the terminal corresponding to the target personnel identification, and correcting the unlocked test procedure according to the correction information.

A nuclear power test procedure supervision device, the device includes:

the first acquisition module is used for acquiring a test work order execution task in the nuclear power test execution process, wherein the test work order execution task carries a process identification of a current test process to be supervised;

the display module is used for displaying a procedure execution interface according to the test work order execution task;

the second acquisition module is used for acquiring current supervisor information when receiving triggering operation of a supervision button in the process execution interface, wherein the current supervisor information comprises a supervisor identifier;

the third acquisition module is used for acquiring prestored supervisor information corresponding to the current to-be-supervised test procedure according to the procedure identification;

the verification module is used for carrying out identity verification on the current supervisor information according to the prestored supervisor information;

and the unlocking module is used for unlocking the current supervision test procedure after passing the identity verification, and supervising the procedure execution process of the unlocked test procedure through the supervision terminal corresponding to the supervisor identification.

A computer device comprising a memory and a processor, the memory storing a computer program operable on the processor, the processor implementing the steps in the various method embodiments described above when executing the computer program.

A computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, carries out the steps of the respective method embodiment described above.

According to the nuclear power test procedure supervision method, device, computer equipment and storage medium, in the nuclear power test execution process, the test work order execution task is obtained, and the test work order execution task carries the procedure identification of the current test procedure to be supervised. Therefore, the process execution interface is displayed according to the test work order execution task. When receiving the triggering operation of the supervision button in the process execution interface, acquiring the current supervisor information, wherein the current supervisor information comprises a supervisor identifier. And then, pre-stored supervisor information corresponding to the current test procedure to be supervised is obtained according to the procedure identification, and identity verification is carried out on the current supervisor information according to the pre-stored supervisor information. The validity of the supervision operation of the test procedure can be ensured by carrying out identity verification on the current supervisor information. Only after passing the identity authentication, the current test procedure to be supervised is unlocked, and the safety of the test procedure can be improved. And then the process execution process of the unlocked current test process to be supervised is supervised by the supervision terminal corresponding to the supervisor identification. The test procedure monitoring system can realize effective supervision of the test procedure in the test procedure executing process, thereby avoiding errors in executing operation of the test procedure and further effectively improving the reliability of the test procedure.

Drawings

FIG. 1 is an application environment diagram of a nuclear power test process supervision method in one embodiment;

FIG. 2 is a schematic flow chart of a method for supervising a nuclear power test process in one embodiment;

FIG. 3 is a schematic diagram of an embodiment of an interface displaying supervisory buttons in a process execution interface;

FIG. 4 is a flowchart illustrating the steps of obtaining current supervisor information in one embodiment;

FIG. 5 is a block diagram of a nuclear power test process supervision device in one embodiment;

FIG. 6 is a diagram illustrating an internal structure of a computer device according to an embodiment.

Detailed Description

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

The nuclear power test procedure supervision method can be applied to the application environment shown in the figure 1. The operation terminal 102 and the server 104 communicate with each other via a network. The operation terminal 102 communicates with the supervision terminal 106 through a network. The operation terminal is communicated with the nuclear power equipment 108 to be tested through a network or Bluetooth. The operation terminal 102 communicates with the terminal 110 corresponding to the target person identifier through the network. In the process of the nuclear power test, the operation terminal 102 acquires a test work order execution task issued by the server 104, and analyzes the test work order execution task to obtain a process identifier of a current test process to be supervised. The operation terminal 102 displays a process execution interface according to the test work order execution task. When the operation terminal 102 receives a trigger operation of a supervision button in the process execution interface, current supervisor information is acquired, and the current supervisor information includes a supervisor identifier. The operation terminal 102 obtains the pre-stored supervisor information corresponding to the current to-be-supervised test procedure according to the procedure identification. The operation terminal 102 performs identity verification on the current supervisor information according to the prestored supervisor information. After passing the identity authentication, the operation terminal 102 unlocks the current to-be-supervised test procedure. And the supervision terminal 106 corresponding to the supervisor identification supervises the procedure execution process of the unlocked test procedure. After the current to-be-supervised test procedure is unlocked, the operation terminal 102 determines the to-be-tested nuclear power equipment corresponding to the procedure identification, procedure description information and a set of set keywords. Therefore, the position information of each set keyword in the set keyword set is determined in the process description information, and part-of-speech tagging and semantic tagging are performed on each participle in the process description information. The operation terminal 102 extracts a target participle meeting a preset condition from the part-of-speech tagged participle or the semantically tagged participle. The operation terminal 102 further performs segmentation matching on the target segmentation and each set keyword in the set of keywords, and converts the successfully matched target segmentation and set keywords into corresponding test parameters. The operation terminal 102 sends the test parameters to the nuclear power equipment 108 to be tested, so that the nuclear power equipment to be tested executes the unlocked test procedure to be monitored according to the test parameters. When the operation terminal 102 receives a trigger operation of a feedback button in the process execution interface, a target person identifier and process abnormality information preset in the unlocked test process are acquired. The operation terminal 102 sends the process abnormal information to the terminal 110 corresponding to the target person identification, receives the correction information returned by the terminal 110 corresponding to the target person identification, and the operation terminal 102 corrects the unlocked test process according to the correction information. The operation terminal 102, the supervision terminal 106 and the terminal 110 corresponding to the target person identifier may be, but are not limited to, various personal computers, laptops, smartphones, tablets and portable wearable devices. The server 104 may be implemented as a stand-alone server or as a server cluster comprised of multiple servers. The nuclear power equipment 108 to be tested is intelligent equipment or non-intelligent equipment which is located in a nuclear power plant and used for nuclear power generation.

In an embodiment, as shown in fig. 2, a method for supervising a nuclear power test procedure is provided, which is described by taking an example that the method is applied to an operation terminal in fig. 1, and includes the following steps:

step 202, in the process of executing the nuclear power test, obtaining a test work order execution task, wherein the test work order execution task carries a process identification of a current test process to be supervised.

When the nuclear power test needs to be executed, the operation terminal can acquire a test work order execution task issued by the server, and analyze the test work order execution task to obtain a test work order. Therefore, the operation terminal executes the nuclear power test according to the test work order. The test work order includes a plurality of test processes. The multiple test procedures comprise a current test procedure to be supervised, and the operation terminal acquires procedure identification of the current test procedure to be supervised. For example, the nuclear power test may be a periodic test. The periodic test is an important process for ensuring the safety of a nuclear power plant, and is a performance test or availability check of a unit, a system, a component, a structure or the like according to a method specified by a plurality of test procedures in a test work order corresponding to a program file and a nuclear power test. The test work order is a table which is generated after each executable step in the nuclear power test is split and contains process information such as test process identification, test process expected results and the like. The test procedure refers to each executable step in a nuclear power test. The test procedures include test procedures requiring supervision. The supervision refers to supervision and maintenance of the execution process of the test procedure, so that misoperation in the execution process of the test procedure is avoided, and the correctness of the test is ensured. In the process of executing the test procedure execution task, when the current test procedure needs to be supervised, the procedure execution interface can be displayed according to the test work order execution task. The current test procedure may be referred to as a supervised test procedure. Supervisory buttons may be included in the process execution interface. The operator can obtain the current supervisor information by clicking the supervisory button.

The test work order carried by the test work order execution task can be preset by an operator before the nuclear power test and stored in the server. Specifically, before the nuclear power test is executed, an operator of the nuclear power plant can make a corresponding test work order for the nuclear power test. The operator sends the formulated test work order to the server, the server sets corresponding work order identification for the received test work order, and the test work order, the corresponding work order identification and the test identification of the nuclear power test are correspondingly stored. In the nuclear power test execution process, the server obtains a test work order corresponding to the test identification from a pre-stored test work order, generates a test work order execution task according to the test work order and issues the test work order execution task to a corresponding operation terminal, and the test work order comprises a plurality of test procedures.

And step 204, displaying a process execution interface according to the test work order execution task.

And step 206, when the triggering operation of the supervision button in the process execution interface is received, acquiring the current supervisor information, wherein the current supervisor information comprises a supervisor identifier.

Before the nuclear power test is executed, a supervision button can be preset in a test procedure needing supervision by a test responsible person. When the current to-be-supervised test procedure needs to be executed, the operation terminal executes the task according to the test work order and displays a procedure execution interface. And a supervision button is displayed in the process execution interface. As shown in fig. 3, an interface diagram of the supervision button is displayed in the process execution interface. And when the operation terminal receives the triggering operation of the supervision button in the process execution interface, the process supervision interface is displayed, and the operation terminal acquires the current supervisor information in the process supervision interface. The information of the current supervisor is uploaded through the supervisory terminal corresponding to the supervisor corresponding to the process identification. The current supervisor information may include a supervisor identification. For example, the guardian identification may be a user name of the guardian, a name of the guardian, or the like.

The supervisory terminal runs the nuclear power test APP, and the supervisory terminal can upload supervisor information through logging in the nuclear power test APP. The login mode can be various, for example, account login, two-dimensional code login, face recognition, voice recognition, fingerprint recognition, and the like. And when the login mode is account login, a process supervision interface is displayed in the supervision terminal, and a supervisor login frame is displayed on the process supervision interface. The supervisor can input account information in the supervisor login box, and the terminal is operated so as to obtain the account information of the current supervisor. The current supervisor account information may include a username and password of the current supervisor. When the login mode is two-dimensional code login, the supervision terminal can display the two-dimensional code on the process supervision interface, and when the operation terminal receives scanning operation of the supervision terminal on the two-dimensional code, the two-dimensional code is analyzed to obtain identity information of a supervisor. The identity information may include the name of the supervisor. When the login mode is face recognition, the supervision terminal displays face recognition prompt information on a process supervision interface so that a supervisor can conveniently make corresponding face actions according to the face recognition prompt information. Such as head-up, blinking, etc. The operation terminal calls the camera to collect the face image of the supervisor when the supervisor makes the corresponding face action, and sends the face image to the operation terminal. When the login mode is voice recognition, the supervision terminal displays voice input prompt information on the process supervision interface, and a supervisor can record by clicking the voice input prompt information. And the operation terminal further acquires the voice information uploaded by the supervision terminal. When the login mode is fingerprint identification, the supervision terminal can acquire the fingerprint image of the supervisor acquired by the fingerprint acquisition equipment and send the fingerprint image to the operation terminal.

And 208, acquiring prestored supervisor information corresponding to the current test procedure to be supervised according to the procedure identification.

The test work order stores supervisor information of test procedures needing supervision in advance. After the operation terminal acquires the current supervisor information, the prestored supervisor information can be acquired in the test work order according to the process identification of the current test process to be supervised. The pre-stored supervisor information may include pre-stored supervisor account information, pre-stored supervisor identity information, pre-stored supervisor face images, pre-stored supervisor voice information, pre-stored supervisor fingerprint images, and the like.

And step 210, performing identity authentication on the current supervisor information according to the prestored supervisor information.

Specifically, when the current supervisor information is the current supervisor account information, the operation terminal extracts the corresponding pre-stored supervisor account information from the pre-stored supervisor information according to the to-be-supervised test procedure identification. Therefore, the current supervisor account information is compared with the pre-stored supervisor account information, and when the comparison is consistent, the current supervisor information passes identity authentication.

When the current supervisor information is identity information of a supervisor, the identity information may include a name of the supervisor. And the operation terminal extracts corresponding pre-stored supervisor identity information from the pre-stored supervisor information according to the to-be-supervised test procedure identification. Therefore, the identity information of the supervisor is matched with the pre-stored identity information of the supervisor, and when the matching is successful, the current supervisor information passes identity authentication.

And when the current supervisor information is the face image of the current supervisor, the operating terminal extracts the corresponding pre-stored supervisor face image from the pre-stored supervisor information according to the to-be-supervised test procedure identification. And comparing the face image with a face image of a pre-stored supervisor, and if the face image is consistent with the face image of the pre-stored supervisor, the information of the current supervisor passes identity authentication. The pre-stored face image of the supervisor can be an identity card photo stored in the public security system identity management server by the supervisor.

And when the current supervisor information is the voice information of the current supervisor, the operation terminal extracts the corresponding prestored supervisor voice information from the prestored supervisor information according to the to-be-supervised test procedure identification. And then extracting and acquiring a first voiceprint feature of the voice information of the current supervisor and a second voiceprint feature of the voice information of the prestored supervisor, matching the first voiceprint feature with the second voiceprint feature, and when the matching is successful, the information of the current supervisor passes identity authentication.

And when the current supervisor information is the fingerprint image of the current supervisor, the operating terminal extracts the corresponding pre-stored supervisor fingerprint image from the pre-stored supervisor information according to the to-be-supervised test procedure identification. The operation terminal extracts a first fingerprint feature of the current supervisor fingerprint image and a second fingerprint feature of the supervisor fingerprint image stored in advance, matches the first fingerprint feature with the second fingerprint feature, and when the matching is successful, the current supervisor information passes identity verification.

And 212, after the identity authentication is passed, unlocking the current test procedure to be supervised, and supervising the procedure execution process of the unlocked test procedure through the supervising terminal corresponding to the supervisor identification.

After the information of the current supervisor passes the identity authentication, the operation terminal can unlock the test procedure to be supervised, namely, the operator can execute the test procedure to be supervised. There are various ways of performing this. The execution may be manual or automatic. When the test procedure to be supervised is executed in a manual execution mode, a nuclear power test APP runs in the operation terminal, the test requirement is displayed through the nuclear power test APP, and an operator can manually execute the test procedure to be supervised according to the test requirement. When a to-be-supervised test procedure is executed in an automatic execution mode, the nuclear power equipment to be tested, the procedure description information and the set of set keywords corresponding to the procedure identification need to be determined, test parameters are further determined according to the procedure description information and the set of set keywords, and the test parameters are sent to the nuclear power equipment to be tested for automatic execution. Process description information refers to information describing the input parameters and specific operating steps of a test process. The setting keywords refer to keywords for parameter setting of nuclear power equipment to be tested. In the execution process, the supervision terminal corresponding to the current supervisor information supervises the unlocked current test procedure to be supervised until the unlocked test procedure is executed.

In this embodiment, in the execution process of the nuclear power test, a test work order execution task is obtained, and the test work order execution task carries a process identifier of a current test process to be supervised. Therefore, the process execution interface is displayed according to the test work order execution task. When receiving the triggering operation of the supervision button in the process execution interface, acquiring the current supervisor information, wherein the current supervisor information comprises a supervisor identifier. And then, pre-stored supervisor information corresponding to the current test procedure to be supervised is obtained according to the procedure identification, and identity verification is carried out on the current supervisor information according to the pre-stored supervisor information. The validity of the supervision operation of the test procedure can be ensured by carrying out identity verification on the current supervisor information. Only after passing the identity authentication, the current test procedure to be supervised is unlocked, and the safety of the test procedure can be improved. And then the process execution process of the unlocked current test process to be supervised is supervised by the supervision terminal corresponding to the supervisor identification. The test procedure monitoring system can realize effective supervision of the test procedure in the test procedure executing process, thereby avoiding errors in executing operation of the test procedure and further effectively improving the reliability of the test procedure.

In one embodiment, as shown in fig. 4, the step of acquiring the current administrator information specifically includes:

and step 402, acquiring a supervisor identifier corresponding to the process identifier according to the triggering operation of the supervision button.

And step 404, generating a process supervision request according to the supervisor identifier and the process identifier, and sending the process supervision request to a supervision terminal corresponding to the supervisor identifier.

And 406, receiving the current supervisor information returned by the supervision terminal in a preset mode.

When the operation terminal receives the triggering operation of the supervision button in the process execution interface, the supervisor identification corresponding to the process identification is obtained according to the triggering operation, and then the process supervision request is generated according to the supervisor identification and the process identification. The process supervision request is used for requesting the supervision terminal to supervise the current to-be-supervised test process. And the operation terminal sends the process supervision request to the supervision terminal corresponding to the supervisor identifier.

And after receiving the process supervision request, the supervision terminal analyzes the process supervision request to obtain a process identifier. The supervisor can supervise the current to-be-supervised test procedure corresponding to the procedure identification through the supervisory terminal. Before supervision, the information of a current supervisor needs to be uploaded by logging in a nuclear power test APP. The login mode can be various, for example, account login, two-dimensional code login, face recognition, voice recognition, fingerprint recognition, and the like. The preset mode may be a login mode of the supervisory terminal. The supervision terminal can upload the current supervisor information through various login modes, and then the operation terminal receives the current supervisor information returned by the supervision terminal.

In this embodiment, the process supervision request is sent to the supervision terminal corresponding to the supervisor identifier, so that the current supervisor information returned by the supervision terminal in a preset manner can be received. Because the supervisor information is returned through various modes, the current supervisor information can be authenticated through various modes, and the flexibility of authentication is further improved.

In one embodiment, the current supervisor information includes current supervisor account information, and authenticating the current supervisor information according to the pre-stored supervisor information includes: comparing the current supervisor account information with account information in the prestored supervisor information; and when the comparison is consistent, the current supervisor information passes the identity authentication.

The current supervisor account information may include a username and password of the current supervisor. The operation terminal extracts the pre-stored supervisor user name and the password from the pre-stored supervisor information. And the operation terminal performs character comparison on the user name of the current supervisor and the pre-stored user name of the supervisor. And when the comparison is consistent, performing character comparison on the password of the current supervisor and the password of the prestored supervisor. And when the comparison is consistent, the current supervisor information passes the identity authentication. The identity of the current supervisor information is verified in an account verification mode, and the situations of supervision and generation supervision can be avoided.

In one embodiment, the current supervisor information includes a current supervisor face image, and authenticating the current supervisor information according to the pre-stored supervisor information includes: extracting the features of the current face image and the face image in the prestored supervision person information to obtain a first face feature corresponding to the current face image and a second face feature corresponding to the face image in the prestored supervision person information; performing face matching according to the first face features and the second face features; and when the matching degree meets a preset threshold value, the current supervisor information passes the identity authentication.

When the operation terminal acquires the face image of the current supervision person, extracting the corresponding pre-stored supervision person face image from the pre-stored supervision person information according to the process identification to be supervised. And then the operation terminal extracts a first face feature corresponding to the current supervision person face image and extracts a second face feature corresponding to the prestored supervision person face image. And matching the first face features with the second face features to obtain a matching degree. And when the matching degree meets a preset threshold value, indicating that the face image of the current supervisor passes the identity authentication. The identity of the current supervisor information is verified in a face recognition mode, and the situations of supervision and generation supervision can be avoided.

In one embodiment, the operation terminal can also perform identity verification on the current supervisor information in a voice recognition mode. Specifically, the supervisor can input prompt information by clicking voice displayed in the process supervision interface, record and obtain voice information. Therefore, the voice information is uploaded to the operation terminal through the supervision terminal. When the operation terminal acquires the voice information of the current supervisor, the operation terminal extracts corresponding pre-stored supervisor voice information from the pre-stored supervisor information according to the process identification to be supervised. And then, feature extraction is carried out on the voice information of the current supervisor and the pre-stored voice information of the supervisor to obtain a first voiceprint feature corresponding to the voice information of the current supervisor and a second voiceprint feature corresponding to the pre-stored voice information of the supervisor, and the first voiceprint feature is matched with the second voiceprint feature. And when the matching is successful, the information of the current supervisor passes the identity authentication. The identity of the current supervisor information is verified in a voice recognition mode, and the situations of supervision and generation supervision can be avoided.

In one embodiment, the operation terminal can also perform identity verification on the current supervisor information in a fingerprint identification mode. Specifically, the supervision terminal can acquire a fingerprint image of a current supervisor acquired by the fingerprint acquisition device and upload the fingerprint image to the operation terminal. And the operation terminal extracts a corresponding pre-stored supervisor fingerprint image from the pre-stored supervisor information according to the to-be-supervised test procedure identification. Therefore, feature extraction is carried out on the fingerprint image of the current supervisor and the pre-stored supervisor fingerprint image, first fingerprint features corresponding to the fingerprint image of the current supervisor and second fingerprint features corresponding to the pre-stored supervisor fingerprint image are obtained, and the first fingerprint features and the second fingerprint features are matched. And when the matching is successful, the information of the current supervisor passes the identity authentication. The identity of the current supervisor information is verified in a fingerprint identification mode, and the situations of supervision and generation supervision can be avoided.

In one embodiment, the operation terminal can also perform identity verification on the current supervisor information in a two-dimensional code verification mode. Specifically, when the operation terminal receives the scanning operation of the supervision terminal on the two-dimensional code, the two-dimensional code is analyzed, and the identity information of the supervisor is obtained. The identity information may include the name of the supervisor. And the operation terminal extracts corresponding pre-stored supervisor identity information from the pre-stored supervisor information according to the to-be-supervised test procedure identification. And matching the identity information of the supervisor obtained by analysis with the identity information of the supervisor stored in advance. And when the matching is successful, the information of the current supervisor passes the identity authentication. The identity of the current supervisor information is verified in a two-dimensional code verification mode, and the situations of supervision and generation supervision can be avoided.

In one embodiment, the method further comprises: acquiring a configuration file, wherein the configuration file records the verification time interval of the current supervisor information; and when the verification time interval is reached, performing identity verification on the current supervisor information according to the prestored supervisor information.

The operation terminal can obtain the verification time interval of the current supervisor information in the configuration file. The current supervisor information is continuously verified using a verification time interval. When the verification time interval is reached, the operation terminal can carry out identity verification on the information of the current supervisor to ensure that the supervisor is continuously on site, and the supervisor is prevented from leaving after logging in the account, so that the test procedure is effectively supervised.

In one embodiment, after unlocking the current process to be supervised, the method further includes: determining nuclear power equipment to be tested corresponding to the process identification, process description information and a set of set keywords; determining position information of each set keyword in a set of set keywords in the process description information, and performing part-of-speech tagging and semantic tagging on each participle in the process description information to obtain a part-of-speech tagging result and a semantic tagging result; extracting target participles meeting preset conditions from the part-of-speech tagging results or the semantic tagging results; performing word segmentation matching on the target word segmentation and each set keyword in the set keyword set, and converting the successfully matched target word segmentation and set keywords into corresponding test parameters; and sending the test parameters to the nuclear power equipment to be tested so that the nuclear power equipment to be tested executes the unlocked test procedure according to the test parameters.

The equipment types of the nuclear power equipment to be tested are divided into intelligent equipment and non-intelligent equipment, wherein the intelligent equipment is the nuclear power equipment which is provided with a connecting component required for establishing a communication link and can automatically run according to input test parameters; the non-intelligent equipment refers to nuclear power equipment without an automatic operation function. The process description information refers to information describing input parameters and specific operation steps of a test process, for example, the process description information may be "start the equipment a when the temperature of the equipment a is 50 degrees centigrade and the humidity is 50% and the water pump is switched to B". The setting keywords refer to keywords for setting parameters of the nuclear power equipment to be tested, and for example, when the nuclear power equipment to be tested can perform temperature setting, humidity setting and water pump switching setting, the corresponding setting keywords are the "temperature", "humidity" and "water pump". The test parameters refer to input data which can be received and processed by the nuclear power equipment, and based on the test parameters, the nuclear power equipment can correspondingly adjust the operation parameters of the nuclear power equipment and automatically operate based on the set operation parameters.

After the operation terminal obtains the process identification of the current test process to be supervised, the operation terminal can extract the equipment information and the process description information of the nuclear power equipment to be tested in the test process to be supervised and set a keyword set in the test work order according to the process identification. The operation terminal determines the character sequence of each character in the process description information, determines the position information of each set keyword based on the character sequence, extracts a first subsequent participle behind the set keyword and a second subsequent participle behind the first subsequent participle according to the position information, determines the part-of-speech information and semantic information of the first subsequent participle and the second subsequent participle, and performs part-of-speech tagging and semantic tagging on the first subsequent participle and the second subsequent participle according to the part-of-speech information and the semantic information to obtain a part-of-speech identification result and a semantic tagging result.

And the operating terminal judges whether the part of speech of the first subsequent participle is a verb or a logic relation word or has definition semantics according to the part of speech tagging result and the semantic tagging result. Whether the second subsequent participle is a noun. In the first subsequent participle is a verb or a logical relation word or has a defined semantic. And when the second subsequent participle is a noun, judging the second subsequent participle to be a target participle corresponding to the set keyword. The term of logical relationship refers to a participle having a logical judgment semantic meaning, for example, the term of logical relationship may be "greater than", "less than", "not greater than", or the like.

When the operation terminal obtains the equipment information of the nuclear power equipment to be tested through inquiring in the test work order based on the process identification, the operation terminal determines the equipment type of the nuclear power equipment to be tested according to the equipment information obtained through inquiring, and judges whether the equipment type of the nuclear power equipment to be tested is the target type. Wherein the target type refers to an intelligent type. The equipment information includes equipment type, equipment identification, equipment name and the like of the nuclear power equipment. The equipment identifier is information capable of uniquely identifying one nuclear power equipment. When the equipment type of the nuclear power equipment to be tested is the target type, the operation terminal automatically opens a connecting component required for establishing a communication link, and the communication link is established with the nuclear power equipment to be tested based on the connecting component. For example, the operation terminal can open the bluetooth device and establish a near field communication link with the nuclear power device to be tested based on the bluetooth device.

When the operation terminal obtains the test parameters, the operation terminal sends the generated one or more test parameters to the nuclear power equipment to be tested through a communication link established with the nuclear power equipment to be tested, so that the nuclear power equipment to be tested performs parameter setting based on the test parameters, and starts to operate after the setting is successful.

Further, the operation terminal sends the generated one or more test parameters to the nuclear power equipment to be tested through a communication link established with the nuclear power equipment to be tested, and the operation terminal comprises: acquiring a keyword library; extracting logic relation words from the test parameters based on the keyword library; converting the test parameters into logic conditions according to the logic relation words; and displaying the logic conditions, and sending the test parameters to the nuclear power equipment to be tested when receiving confirmation information aiming at the displayed logic conditions. The keyword library refers to a word library set containing a plurality of logical relation words.

Specifically, when the test parameters are obtained, the operation terminal may extract the logical relation words from the test parameters based on the keyword library, and convert the extracted logical relation words displayed in the chinese form into corresponding logical symbols according to the association relationship between the preset logical relation words and the logical symbols. And then, connecting the set keywords and the parameter values in the test parameters in sequence based on the logic symbols. The logic symbol refers to a mathematical symbol in the logic expression, for example, the logic symbol may be ">", "<", or the like, and when the test parameter is "temperature: greater than: and when the logic symbol is 50 ℃ and the logic symbol is ' > ', the converted logic condition is ' temperature >50 ℃. The operation terminal judges whether the plurality of test parameters extracted from the process description information are all successfully converted into corresponding logic conditions. If yes, the operation terminal correspondingly displays a plurality of logic conditions in a local screen, so that an operator can quickly confirm whether the current logic conditions are correct or not, and when confirmation information aiming at the displayed logic conditions is received, the test parameters are sent to the nuclear power equipment to be tested. The test parameters are correspondingly converted into the logic conditions, and the logic conditions are correspondingly displayed in the screen, so that a test operator can conveniently and quickly confirm whether the currently obtained test parameters are correct or not, and the test parameters are sent to the nuclear power equipment to be tested after the correctness is confirmed, the probability of sending wrong test parameters can be reduced, and the correctness of a nuclear power experiment is improved.

In this embodiment, by determining the process identifier of the current test process to be executed, the corresponding nuclear power equipment to be tested, the process description information and the set of keywords may be determined based on the process identifier. The part-of-speech tagging and the semantic tagging are carried out on each participle in the process description information, the target participle meeting preset conditions is extracted from part-of-speech tagging results or semantic tagging results, the target participle and matched set keywords can be converted into test parameters which can be processed by the nuclear power equipment to be tested, and therefore the nuclear power equipment to be tested can receive the test parameters and automatically carry out nuclear power tests based on the test parameters, and further the test efficiency of the nuclear power tests is improved.

In one embodiment, after the supervision terminal corresponding to the current supervisor information supervises the process execution process of the unlocked test process, the method further includes: in the process of executing the unlocked test procedure, receiving test information of the unlocked current test procedure to be monitored; acquiring a procedure processing strategy corresponding to the unlocked test procedure according to the test information; identifying the problem type of the test information according to a procedure processing strategy; determining a return test procedure corresponding to the unlocked test procedure in a procedure processing strategy according to the type of the problem; and when the return test procedure is not the first test procedure of the nuclear power test, re-executing the nuclear power test from the return test procedure.

The test information may include test execution status and process test results. The method comprises the step of presetting a procedure processing strategy corresponding to each test procedure in a test work order of the nuclear power test. The process strategy may include a problem type. For example, the problem type may include out of range process test results. Therefore, the operation terminal judges whether the process test result meets the preset test result. And when the process test result does not meet the preset test result, the process test result is indicated to have a problem, and the unlocked test process needs to be subjected to problem positioning. And the operation terminal further searches a procedure processing strategy corresponding to the unlocked test procedure in a test work order corresponding to the nuclear power test.

Multiple problem types may be included in a process strategy. The operation terminal can extract keywords from the test information, perform character matching on the extracted keywords and the problem types in the process processing strategy, and perform pinyin matching on the extracted keywords and the problem types in the process processing strategy when the character matching is unsuccessful. And selecting the problem type with the highest pinyin matching probability as the problem type of the test information.

The process treatment strategy can also be preset with a return test process corresponding to the problem type. The return test process is a test process performed before the unlocked test process. The operation terminal determines a returning test procedure corresponding to the unlocked test procedure, namely the test procedure needing to be returned in the nuclear power test, in the procedure processing strategy according to the problem type, so that the test procedure causing the problem in the unlocked test procedure can be quickly positioned according to the problem type, and the test procedure obtained through positioning is executed again.

The operation terminal also needs to identify whether the return test procedure is the first test procedure of the nuclear power test. The operation terminal can return the procedure identification of the test procedure to be compared with the procedure identification of the first test procedure of the nuclear power test, and when the comparison is consistent, the returned test procedure is the first test procedure. And if the comparison is inconsistent, the returned test procedure is not the first test procedure. The first test procedure is a test preparation procedure. When the return test process is not the first test process, it indicates that there is no problem with the test order. At this time, the operation terminal may return the nuclear power test to the return test process, so that the operator may start to perform the return test process again according to the test planning information. When the returned test procedure is the first test procedure, the test work order has problems, and the test work order needs to be executed again. At this time, the operation terminal returns to the test work order preparation link to allow the operator to prepare the test work order again and execute the prepared test work order.

In the embodiment, in the process of executing the nuclear power test, because the process processing strategy is pre-stored, the problem type of the test information is identified in the process processing strategy, so that the problem type of the test information is automatically and accurately identified. Therefore, the return test procedure can be determined according to the problem type, and when the return test procedure is not the first test procedure of the nuclear power test, the nuclear power test is executed again from the return test procedure. Therefore, the situation that the operator continues to execute the test procedure when the test has problems is avoided, and the accuracy of the nuclear power test is effectively improved.

In one embodiment, the method further comprises: in the process of executing the unlocked test procedure, when the triggering operation of a feedback button in a procedure execution interface is received, acquiring a target personnel identifier and procedure abnormal information which are preset in the unlocked test procedure; sending the process abnormal information to a terminal corresponding to the target personnel identification; and receiving correction information returned by the terminal corresponding to the target personnel identification, and correcting the unlocked test procedure according to the correction information.

In the execution process of the unlocked test procedure, when the unlocked test procedure is abnormal, an operator can perform abnormal feedback by triggering a feedback button displayed in a procedure execution interface. Specifically, the operation terminal receives a trigger operation of a feedback button in the process execution interface. Therefore, target personnel identification preset in the unlocked test procedure and procedure abnormal information of the unlocked test procedure are obtained. The target personnel identification can comprise a responsible personnel identification, a tester identification and the like corresponding to the unlocked test procedure. The trial process anomaly information may be a problem encountered during execution of the trial process after unlocking. And then the operation terminal sends the process abnormal information to the terminal corresponding to the target personnel identification, so that the process abnormal information is shared between the operation terminal and the terminal corresponding to the target personnel identification.

And when the terminal corresponding to the target personnel identification receives the process abnormal information, analyzing the process abnormal information to obtain correction information corresponding to the process abnormal information, and returning the correction information to the operation terminal. The correction information may include the cause of the occurrence of the abnormality and the abnormality solution. And after receiving the correction information, the operation terminal displays the correction information, so that an operator can correct the unlocked test procedure corresponding to the procedure abnormity information through the operation terminal according to the correction information. After the test procedure is corrected, the operator can continue to execute the corrected test procedure according to the test planning information through the operation terminal.

In this embodiment, when an abnormality occurs in the test procedure execution process, timely feedback can be performed, so that the terminal corresponding to the subsequent target personnel identification can know the test procedure execution condition in time, and the subsequent to-be-executed test procedure with the abnormality can be timely processed, and the test testing efficiency can be effectively improved. The operation terminal sends the process abnormal information to the terminal corresponding to the target personnel identification, and can timely receive corresponding correction information after feeding back the process abnormal information, so that the test process can be timely corrected, and the test testing efficiency is improved.

It should be understood that although the steps in the flowcharts of fig. 2 and 4 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least some of the steps in fig. 2 and 4 may include multiple sub-steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, and the order of performing the sub-steps or stages is not necessarily sequential, but may be performed alternately or alternately with other steps or at least some of the sub-steps or stages of other steps.

In one embodiment, as shown in fig. 5, there is provided a nuclear power test procedure supervision apparatus, including: a first acquisition module 502, a display module 504, a second acquisition module 506, a third acquisition module 508, a verification module 510, and an unlocking module 512, wherein:

the first obtaining module 502 is configured to obtain a test work order execution task in a nuclear power test execution process, where the test work order execution task carries a process identifier of a current test process to be supervised.

And the display module 504 is used for displaying the process execution interface according to the test work order execution task.

A second obtaining module 506, configured to obtain current supervisor information when a trigger operation of a supervisor button in the process execution interface is received, where the current supervisor information includes a supervisor identifier.

And a third obtaining module 508, configured to obtain, according to the process identifier, prestored supervisor information corresponding to the current test process to be supervised.

And the verification module 510 is configured to perform identity verification on the current supervisor information according to the prestored supervisor information.

And the unlocking module 512 is used for unlocking the current supervision test procedure after passing the identity authentication, and supervises the procedure execution process of the unlocked test procedure through the supervision terminal corresponding to the supervisor identification.

In one embodiment, the second obtaining module 506 is further configured to obtain a supervisor identifier corresponding to the procedure identifier according to a triggering operation of the supervision button; generating a process supervision request according to the supervisor identification and the process identification, and sending the process supervision request to a supervision terminal corresponding to the supervisor identification; and receiving the current supervisor information returned by the supervision terminal in a preset mode.

In one embodiment, the verification module 510 is further configured to perform feature extraction on the current supervisory person face image and a face image in the prestored supervisory person information to obtain a first face feature corresponding to the current supervisory person face image and a second face feature corresponding to the face image in the prestored supervisory person information; performing face matching according to the first face features and the second face features; and when the matching degree meets a preset threshold value, the current supervisor information passes the identity authentication.

In one embodiment, the above apparatus further comprises: the time interval acquisition module is used for acquiring a configuration file, and the configuration file records the verification time interval of the current supervisor information; and when the verification time interval is reached, performing identity verification on the current supervisor information according to the prestored supervisor information.

In one embodiment, the above apparatus further comprises: the execution module is used for determining the nuclear power equipment to be tested corresponding to the process identification, the process description information and the set of keywords; determining position information of each set keyword in a set of set keywords in the process description information, and performing part-of-speech tagging and semantic tagging on each participle in the process description information to obtain a part-of-speech tagging result and a semantic tagging result; extracting target participles meeting preset conditions from the part-of-speech tagging results or the semantic tagging results; performing word segmentation matching on the target word segmentation and each set keyword in the set keyword set, and converting the successfully matched target word segmentation and set keywords into corresponding test parameters; and sending the test parameters to the nuclear power equipment to be tested so that the nuclear power equipment to be tested executes the unlocked test procedure according to the test parameters.

In one embodiment, the above apparatus further comprises: the problem solving module is used for receiving test information of the unlocked test procedure in the execution process of the unlocked test procedure; acquiring a procedure processing strategy corresponding to the unlocked test procedure according to the test information; identifying the problem type of the test information according to a procedure processing strategy; determining a return test procedure corresponding to the unlocked test procedure in a procedure processing strategy according to the type of the problem; and when the return test procedure is not the first test procedure of the nuclear power test, re-executing the nuclear power test from the return test procedure.

In one embodiment, the above apparatus further comprises: the feedback module is used for acquiring target personnel identification and procedure abnormal information preset in the unlocked test procedure when receiving triggering operation of a feedback button in a procedure execution interface in the unlocked test procedure execution process; sending the process abnormal information to a terminal corresponding to the target personnel identification; and receiving correction information returned by the terminal corresponding to the target personnel identification, and correcting the unlocked test procedure according to the correction information.

The specific limitation of the nuclear power test procedure supervision device can be referred to the limitation of the nuclear power test procedure supervision method, and is not described herein again. All modules in the nuclear power test procedure supervision device can be completely or partially realized through software, hardware and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

In one embodiment, a computer device is provided, which may be an operation terminal, and its internal structure diagram may be as shown in fig. 6. The computer device includes a processor, a memory, a communication interface, a display screen, and an input device connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system and a computer program. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The communication interface of the computer device is used for carrying out wired or wireless communication with an external terminal, and the wireless communication can be realized through WIFI, an operator network, NFC (near field communication) or other technologies. The computer program is executed by a processor to realize a nuclear power test procedure supervision method. The display screen of the computer equipment can be a liquid crystal display screen or an electronic ink display screen, and the input device of the computer equipment can be a touch layer covered on the display screen, a key, a track ball or a touch pad arranged on the shell of the computer equipment, an external keyboard, a touch pad or a mouse and the like.

Those skilled in the art will appreciate that the architecture shown in fig. 6 is merely a block diagram of some of the structures associated with the disclosed aspects and is not intended to limit the computing devices to which the disclosed aspects apply, as particular computing devices may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.

In one embodiment, a computer device is provided, comprising a memory storing a computer program and a processor implementing the steps of the various embodiments described above when the processor executes the computer program.

In one embodiment, a computer-readable storage medium is provided, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the respective embodiments described above.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in the embodiments provided herein may include non-volatile and/or volatile memory, among others. 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 bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM).

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. A nuclear power test procedure supervision method is characterized by comprising the following steps:

2. The method of claim 1, wherein the obtaining current supervisor information comprises:

3. The method of claim 1, wherein the current supervisor information includes a current supervisor face image, and wherein authenticating the current supervisor information according to the pre-stored supervisor information comprises:

4. The method of claim 1, further comprising:

5. The method of any one of claims 1 to 4, wherein after said unlocking said current supervised test procedure, said method further comprises:

and sending the test parameters to the nuclear power equipment to be tested so that the nuclear power equipment to be tested executes the unlocked test procedure according to the test parameters.

6. The method of any one of claims 1 to 4, further comprising:

7. The method of any one of claims 1 to 4, further comprising:

8. The utility model provides a nuclear power test process supervision device which characterized in that, the device includes:

9. A computer device comprising a memory and a processor, the memory storing a computer program operable on the processor, wherein the processor implements the steps of the method of any one of claims 1 to 7 when executing the computer program.

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