CN112884440A - Test procedure execution method and device in nuclear power test and computer equipment - Google Patents

Abstract

The application relates to a method and a device for executing a test procedure in a nuclear power test and computer equipment. The method comprises the following steps: in the nuclear power test process, acquiring a process identification of a current test process to be executed, and determining nuclear power equipment to be tested, process description information and a set of keywords corresponding to the process identification; performing part-of-speech tagging and semantic tagging on each participle in the process description information according to position information of each set keyword in the set keyword set in the process description information; extracting target participles of which the part-of-speech labels or semantic labels meet preset conditions; 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 performs nuclear power tests according to the test parameters. By adopting the method, the nuclear power test efficiency can be improved.

Description

Test procedure execution method and device in nuclear power test and computer equipment

Technical Field

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

Background

Nuclear power plants generate electricity from the thermal energy generated by nuclear fuel in nuclear reactors. In order to ensure the basic safety of the nuclear power plant, test operators can carry out nuclear power tests on nuclear power equipment in the nuclear power plant. The nuclear power test is a process of executing and recording results item by item according to test procedures in a standard work order by taking the standard work order automatically generated by a preventive maintenance plan as a carrier. The test procedure specifically refers to each executable step in a complete nuclear power test.

At present, when a nuclear power plant is tested based on a test procedure, a test operator needs to manually input test parameters into the nuclear power plant to be tested according to test procedure description information and start the nuclear power plant to be tested to obtain a test result. However, the efficiency of manually inputting test parameters is low, so that the test efficiency of the nuclear power test is low.

Disclosure of Invention

In view of the above, it is necessary to provide a method, an apparatus and a computer device for executing a process in a nuclear power test, which can improve the test efficiency.

A test procedure execution method in a nuclear power test, the method comprising:

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

performing part-of-speech tagging and semantic tagging on each participle in the process description information according to position information of each set keyword in the set keyword set in the process description information;

extracting target participles of which the part-of-speech labels or semantic labels meet preset conditions;

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 performs nuclear power tests according to the test parameters.

In one embodiment, the acquiring the process identifier of the current test process to be executed includes:

determining a test work order to be downloaded and a corresponding work order identifier according to an execution area of a nuclear power test;

when the test work order is forbidden to be downloaded, obtaining a test operator identifier and an authorized person identifier which are associated with the test work order;

generating an authorization request according to the work order identifier, the test operator identifier and the authorization personnel identifier, and sending the authorization request to a server so that the server authorizes the test work order according to the authorization request;

and downloading the authorized test work order, and determining the process identification of the current test process to be executed based on the authorized test work order.

In one embodiment, the current test procedure to be executed is located in a test work order; the step of determining the nuclear power equipment to be tested corresponding to the process identification comprises the following steps:

determining first nuclear power equipment information associated with the procedure identification based on the test work order;

determining candidate test equipment in an execution area according to the first nuclear power equipment information;

scanning the coded image of the candidate test equipment to obtain a coded sequence corresponding to the coded image;

analyzing the coding sequence to obtain second nuclear power equipment information of the candidate test equipment;

and when the first nuclear power equipment information is matched with the second nuclear power equipment information, judging the candidate test equipment as the nuclear power equipment to be tested corresponding to the process identification.

In one embodiment, the determining the associated process description information and the set of keywords according to the process identifier includes:

determining a test work order corresponding to the process identification; the test work order is obtained by dividing a standard work order;

when the test work order does not have process description information or a set of keywords associated with the process identification, acquiring the work order identification of the test work order;

generating an information query request based on the work order identification and the process identification;

and sending the information query request to a server so that the server determines a corresponding standard work order according to the work order identification, and queries corresponding process description information or sets a keyword set from the standard work order based on the process identification.

In one embodiment, the sending the test parameters to the nuclear power plant to be tested based on the communication link includes:

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.

In one embodiment, the method further comprises:

obtaining a test result of the current test procedure to be executed;

judging the result type of the test result;

determining position information to be filled according to the result type;

and filling the test result to the corresponding position of a result display page based on the position information.

In one embodiment, the obtaining the test result of the current test procedure to be performed includes:

determining an input mode of the test result;

converting the test result according to the input mode to obtain a result text;

the populating the test results to the corresponding locations of a result presentation page based on the location information includes:

generating a test result input control corresponding to the text type of the result text;

and filling the result text into the test result input control, and displaying the result text at the corresponding position of a result display page based on the position information.

A test procedure execution device in a nuclear power test, the device comprising:

the information acquisition module is used for acquiring a process identification of a current test process to be executed in the nuclear power test process, and determining nuclear power equipment to be tested, process description information and a set keyword corresponding to the process identification; the set keyword set comprises at least one set keyword;

the test parameter acquisition module is used for performing part-of-speech tagging and semantic tagging on each participle in the process description information according to the position information of each set keyword in the set keyword set in the process description information; extracting target participles of which the part-of-speech labels or semantic labels meet preset conditions; 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 the sending module is used for sending the test parameters to the nuclear power equipment to be tested so as to enable the nuclear power equipment to be tested to carry out nuclear power test according to the test parameters.

A computer device comprising a memory and a processor, the memory storing a computer program, the processor implementing the following steps when executing the computer program:

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

performing part-of-speech tagging and semantic tagging on each participle in the process description information according to position information of each set keyword in the set keyword set in the process description information;

extracting target participles of which the part-of-speech labels or semantic labels meet preset conditions;

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 performs nuclear power tests according to the test parameters.

A computer-readable storage medium, on which a computer program is stored which, when executed by a processor, carries out the steps of:

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

performing part-of-speech tagging and semantic tagging on each participle in the process description information according to position information of each set keyword in the set keyword set in the process description information;

extracting target participles of which the part-of-speech labels or semantic labels meet preset conditions;

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 performs nuclear power tests according to the test parameters.

According to the test procedure execution method, the test procedure execution device and the computer equipment in the nuclear power test, the corresponding nuclear power equipment to be tested, the corresponding procedure description information and the corresponding set of keywords can be determined based on the procedure identification by determining the procedure identification of the current test procedure to be executed; by determining the equipment type of the current nuclear power equipment to be tested, a communication link can be established with the nuclear power equipment to be tested when the equipment type is a target type; by determining the process description information and setting keywords, part-of-speech tagging and semantic tagging can be performed on each participle in the process description information based on the set keywords; by extracting the target participles of which the part-of-speech marks or the semantic marks accord with preset conditions, the target participles and the matched set keywords can be converted into test parameters which can be processed by the nuclear power equipment to be tested, so that the nuclear power equipment to be tested can receive the test parameters based on communication connection, the nuclear power test can be automatically carried out based on the test parameters, and the test efficiency of the nuclear power test is further improved.

Drawings

FIG. 1 is an application environment diagram of a test procedure execution method in a nuclear power test according to an embodiment;

FIG. 2 is a schematic flow chart illustrating a method for executing a test procedure in a nuclear power test according to an embodiment;

FIG. 3 is a schematic illustration of a standard test work order in one embodiment;

FIG. 4 is a schematic flow chart diagram of a method for authorizing a trial work order in one embodiment;

FIG. 5 is a schematic diagram of a result display area in one embodiment;

FIG. 6 is a diagram of a time control in one embodiment;

FIG. 7 is a block diagram of a test procedure execution apparatus in a nuclear power test according to an embodiment;

FIG. 8 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 test procedure execution method in the nuclear power test can be applied to the application environment shown in FIG. 1. The terminal 102 communicates with the server 104 through a network, and the terminal 102 communicates with the nuclear power equipment 106 through a network or bluetooth. The server 104 prestores a standard work order containing a plurality of test procedures to be executed, the server 104 divides the standard work order according to an execution area to obtain a plurality of test work orders, and the test work orders are issued to the corresponding terminals 102. The execution area refers to an area where nuclear power equipment to be tested is located. The server 104 may be implemented as a stand-alone server or as a server cluster comprised of multiple servers. The terminal 102 runs a periodic test APP (Application) for displaying each test procedure to be executed in the test work order. The terminal 102 determines a current test procedure to be executed and the nuclear power equipment 106 to be tested based on the received test work order, establishes a communication link with the nuclear power equipment 106 to be tested, extracts test parameters from the current test procedure to be executed, and sends the test parameters to the nuclear power equipment 106 to be tested through the communication link, so that the nuclear power equipment 106 to be tested performs nuclear power tests based on the test parameters. The terminal 102 may be, but is not limited to, various personal computers, notebook computers, smart phones, tablet computers, and portable wearable devices, and the nuclear power device 106 is a smart device or a non-smart device for nuclear power generation located in a nuclear power plant.

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

s202, in the process of the nuclear power test, a process identification of a current test process to be executed is obtained, and the nuclear power equipment to be tested, the process description information and the set keyword set corresponding to the process identification are determined.

The test procedure refers to a piece of recorded information in the work order, and the recorded information includes one or more combinations of test procedure identification, test procedure execution area, associated equipment information of the nuclear power equipment to be tested, procedure description information and the like. The work order is divided into a standard work order and a test work order, wherein the standard work order is a table which is generated after each executable step in a specific nuclear power test is split and comprises a plurality of test procedures and is shown in fig. 3. FIG. 3 is a schematic illustration of a standard test work order in one embodiment. Because the nuclear power plant is a large-scale nuclear power plant, the operation of the nuclear power plant depends on the mutual cooperation of a plurality of different test devices, and the areas of the different test devices may be different, in order to facilitate the test, the standard work order can be divided into at least one test work order according to the execution area corresponding to the test procedure to be executed.

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 be set for temperature, humidity and water pump switching, the corresponding setting keywords are "temperature", "humidity" and "water pump".

Specifically, a test operator of the nuclear power plant determines a nuclear power test to be performed in the server, and the server generates a corresponding standard work order based on each operation step in the nuclear power test. The server determines an execution area of each test procedure to be executed in the standard work order, and divides the test procedures to be executed according to the execution areas to obtain at least one test work order. The execution area of each to-be-executed process in the test work order is the same. Meanwhile, the server sets corresponding work order identification for the divided test work orders, and correspondingly stores the standard work order identification of the standard work order, the work order identification of the test work order and the test work order.

The terminal operation has periodic test APP, and test operating personnel can show the experimental requirement of each step process in the experimental work order based on periodic test APP in corresponding experimental work order to periodic test APP in can following the server download corresponding experimental work order to the periodic test APP according to the execution region to make test operating personnel test according to the experimental requirement, and input test result in corresponding test result input box. When the terminal obtains the test work order, the periodic test APP can analyze the downloaded test work order, and therefore process identification of each to-be-executed test process in the test work order is displayed in a local screen according to an analysis result. And the terminal monitors the selection operation of the test operator on each process identification, and determines the process identification of the current test process to be executed according to the selection operation.

The test procedure comprises equipment information and procedure description information of the nuclear power equipment to be tested and a set of keywords. When the process identification of the current test process to be executed is determined, the terminal inquires the corresponding test process in the test work order according to the process identification, extracts the equipment information and the process description information of the nuclear power equipment to be tested and sets a keyword set from the test process.

In one embodiment, when the set keyword set is not embedded in the current testing procedure to be executed, a testing operator may determine nuclear power equipment to be tested in an execution area according to equipment information in the current testing procedure to be executed, acquire an operation manual of the nuclear power equipment to be tested, upload the operation manual to a server, identify the operation manual by the server, obtain the set keyword set of the nuclear power equipment to be tested, and correspondingly insert the set keyword set into the current testing procedure to be executed. When the server determines that the current to-be-executed test procedure is successfully inserted into the set keyword set, the server determines a standard work order corresponding to the current to-be-executed procedure, updates the standard work order based on the current to-be-executed procedure into which the set keyword set is inserted to obtain an updated standard work order, divides the updated standard work order according to an execution area to obtain an updated test work order, and sends the updated test work order to the corresponding terminal.

In one embodiment, when the test work order is being edited, the server sets the download-prohibited identifier of the test work order to prohibit the terminal from downloading the test work order. By setting the downloading identification of the test work order, unnecessary downloading interaction between the terminal and the server can be reduced.

In one embodiment, the server stores the correspondence between the execution area and the communication identifier of the terminal in advance. The communication identifier is information that can uniquely identify a terminal, and for example, the communication identifier may be a telephone number, i.e., a communication number of a communication tool, or the like. When a certain nuclear power test needs to be carried out, the server determines a test work order related to the nuclear power test, determines an execution area in the test work order, and distributes the test work order to a corresponding terminal based on the corresponding relation between the communication identifiers of the execution area and the terminal. By actively issuing the test work order to the corresponding terminal, manual operation can be reduced, and the issuing efficiency of the work order is improved.

And S202, performing part-of-speech tagging and semantic tagging on each participle in the process description information according to the position information of each set keyword in the set keyword set in the process description information.

Specifically, the 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. For example, when the process description information is that "when the temperature of the nuclear power plant a is 50 degrees celsius and the humidity is 50%, and the water pump is switched to B", the plant a is started, and the keyword is "temperature", the terminal determines that a first subsequent participle after the "temperature" is "50 degrees celsius" as a second subsequent participle according to the character sequence, inputs the "50 degrees celsius" and the process description information into a preset information extraction model, performs participle processing on the process description information by the information extraction model, determines part-of-speech tags and semantic tags of each participle, and then determines that the part-of-speech of the "word" is a verb according to the part-of-speech tags and the semantic tags of each participle, and the semantic has a definition meaning; the part of speech of "50 degrees centigrade" is a noun. The information extraction model is a machine learning model trained in advance, and specifically can be a BERT model.

And S206, extracting the target participle of which the part-of-speech label or the semantic label meets the preset condition.

And S208, performing word segmentation matching on the target word segmentation and each set keyword in the set of set keywords, and converting the successfully matched target word segmentation and set keywords into corresponding test parameters.

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.

Specifically, the terminal judges whether the part of speech of the first subsequent participle is a verb or a logical 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. The first subsequent participle is a verb or a logical relation word or has definition semantics; 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.

Further, the terminal conducts segmentation processing on the process description information according to preset punctuation marks to obtain at least one target short sentence, the set keywords and the target participles in the target short sentence are judged to be a matched participle pair, and then the matched participle pair is converted into corresponding test parameters. The preset punctuation marks may be marks used for segmenting parallel clauses, for example, "; when the process description information is that the equipment A is started when the temperature of the nuclear power equipment A is higher than 50 ℃, the target short sentence obtained by segmentation based on the preset punctuation marks can be that the equipment A is started when the temperature of the nuclear power equipment A is higher than 50 ℃. In order to facilitate parameter setting of nuclear power equipment, test parameters can be set in a key value pair mode, for example, when a setting keyword corresponding to '50 ℃ is' temperature ', the obtained test parameters are' temperature: 50 degrees celsius ".

In one real-time example, corresponding trial parameters may be generated based on the logical relationship words, the target participles, and the set keywords. For example, when the process description information is "when the temperature of the nuclear power plant a is greater than 50 degrees celsius, the plant a is started". At this time, the logical relation word extracted based on the set keyword "temperature" is "greater than", the extracted parameter value is "50 degrees celsius", and the finally obtained test parameter is "temperature: greater than: 50 degrees celsius ".

And S210, sending the data to the nuclear power equipment to be tested so that the nuclear power equipment to be tested can carry out nuclear power test 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, and 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.

Specifically, when equipment information of the nuclear power equipment to be tested is obtained through query in the test work order based on the process identification, the terminal determines the equipment type of the nuclear power equipment to be tested according to the equipment information obtained through query, and judges whether the equipment type of the nuclear power equipment to be tested is a target type. Wherein, the target type refers to an intelligent type; the equipment information comprises equipment types, equipment identifications, equipment names 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 terminal automatically starts 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 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 test parameters are obtained, the 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, 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.

In one embodiment, due to the complexity of nuclear power testing, the performance of a test procedure may require the supervision of a supervisor from the side, so the terminal may automatically call the corresponding supervisor before sending the test parameters over the communication link. More specifically, the terminal judges whether the current test procedure to be executed has a supervision mark. And if the standard information template has the supervision identification, the terminal acquires the standard information template and the supervision information associated with the current to-be-executed test procedure, and fills the supervision information to the corresponding position of the standard information template based on the mapping relation between the supervision information and the standard information template to obtain a supervision request. The monitoring information includes an execution area corresponding to the current test procedure to be executed, monitoring equipment to be carried, and the like.

The terminal stores the test type of the current test procedure to be executed, the corresponding relation between the communication identifiers and the execution area in advance, when the test type and the execution area corresponding to the current to-be-executed procedure are obtained through inquiry based on the procedure identification of the current to-be-executed test procedure, the terminal inquires a first communication identifier meeting the condition in the corresponding relation between the test type and the communication identifier according to the test type, and, inquiring a second communication identifier meeting the condition in the corresponding relation between the communication identifier and the execution region according to the execution region, then performing intersection operation on the first communication identifier and the second communication identifier to obtain a final target communication identifier, and sending the supervision request to a terminal corresponding to the target communication identifier so that a terminal user can go to a specified place according to the supervision request. The test type refers to a test type of a nuclear power test based on a test procedure to be executed. The test types corresponding to different test procedures are different, and the required assistant personnel are also different, for example, when the current test procedure to be executed is a nuclear power test on a nuclear reactor, the corresponding test type is the nuclear reactor type, and the required supervisor is professional nuclear power personnel; when the current test procedure to be executed is to test the condensed water, the corresponding test type is the condensed water type, and the required supervisor is professional chemical personnel.

In an embodiment, when the terminal starts a connection assembly of the terminal and a communication link is not successfully established with the nuclear power equipment to be tested within a preset time, the terminal acquires and displays preset prompt information to prompt a test operator that the nuclear power equipment to be tested does not start the connection assembly when the nuclear power equipment to be tested is not considered to be currently opened and the connection assembly required for establishing the communication link is not established.

In the test procedure execution method in the nuclear power test, by determining the procedure identification of the current test procedure to be executed, the corresponding nuclear power equipment to be tested, the procedure description information and the set keyword set can be determined based on the procedure identification; by determining the equipment type of the current nuclear power equipment to be tested, a communication link can be established with the nuclear power equipment to be tested when the equipment type is a target type; by determining the process description information and setting keywords, part-of-speech tagging and semantic tagging can be performed on each participle in the process description information based on the set keywords; by extracting the target participles of which the part-of-speech marks or the semantic marks accord with preset conditions, the target participles and the matched set keywords can be converted into test parameters which can be processed by the nuclear power equipment to be tested, so that the nuclear power equipment to be tested can receive the test parameters based on communication connection, the nuclear power test can be automatically carried out based on the test parameters, and the test efficiency of the nuclear power test is further improved.

In one embodiment, as shown in fig. 4, the acquiring the process identifier of the current test process to be performed includes:

s402, determining a test work order to be downloaded and a corresponding work order identifier according to an execution area of the nuclear power test.

S404, when the test work order is forbidden to be downloaded, obtaining the test operator identification and the authorized personnel identification which are associated with the test work order.

S406, generating an authorization request according to the work order identifier, the test operator identifier and the authorization personnel identifier, and sending the authorization request to a server so that the server authorizes the test work order according to the authorization request.

S408, downloading the authorized test work order, and determining the process identification of the current test process to be executed based on the authorized test work order.

Specifically, in order to avoid that the test work order in the server is repeatedly downloaded, thereby causing the same test procedure to be repeatedly executed, a download identifier may be embedded in the test work order to identify a download state of the test work order. After determining that the current test work order is downloaded by the terminal, the server may set the download identifier of the test work order as a prohibition for downloading, so as to prevent other terminals from downloading the same test work order again. More specifically, a test operator determines a work order identifier of a test work order to be downloaded according to an area where nuclear power equipment to be tested is located, and pulls a corresponding test work order from a server according to the work order identifier. And the server judges whether the downloading identification of the test work order corresponding to the work order identification is prohibited to be downloaded, and if so, returns a downloading failure prompt.

When receiving the download failure prompt information, the test operator can click an authorization control in the periodic test APP, and an authorization request is generated based on the authorization control. When the test operator clicks the authorization control, the terminal acquires preset authorization page data and displays an authorization page in the periodic test APP according to the authorization page data, so that the test operator can input a work order identifier of a test work order to be downloaded, an identity identifier of the test operator and an identity identifier of the authorization operator in the authorization page, and the test operator identifier and the authorization operator identifier associated with the test work order can be input in the authorization page. The identity identification refers to information which can uniquely identify one user, such as an account number name, an identity card number and the like of the user; the authorized personnel are managers of the nuclear power test and have the right of the test operators to download the corresponding test work orders.

Further, the terminal generates an authorization request according to the work order identifier, the test operator identifier and the authorization personnel identifier, and sends the authorization request to the server. The server analyzes the received authorization request to obtain an authorized person identifier, inquires a communication identifier corresponding to the authorized person according to the authorized person identifier, and then sends the authorization request to an authorization terminal corresponding to the communication identifier. And the authorization terminal correspondingly analyzes and displays the authorization request, monitors the confirmation operation of the authorization personnel, generates an authorization instruction according to the work order identification when the authorization personnel confirm that the test operation personnel download the test work order corresponding to the work order identification, and returns the authorization instruction to the server. The server modifies the corresponding downloading identification of the test work order into the allowable downloading according to the work order identification in the authorization instruction, so that the terminal can obtain the test work order with the modified downloading identification.

In one embodiment, when the server receives the authorization instruction, the server stores the authorized personnel identifier issuing the authorization instruction, the authorized work order identifier of the test work order, and the identifier of the test operator requesting authorization into the authorization list, and when the server receives the authorization request again, the server can directly modify the download identifier of the test work order according to the authorization information in the authorization list. Thereby greatly improving the authorization efficiency.

In the embodiment, the probability of repeated downloading of the test work order can be effectively reduced by setting the state identifier; the method and the device can open the downloading requirement of the authorized test work order by generating the authorization request, thereby greatly improving the user experience and improving the nuclear power test efficiency.

In one embodiment, determining the nuclear power plant to be tested corresponding to the process identification includes: determining first nuclear power equipment information associated with the procedure identification based on the test work order; determining candidate test equipment located in the execution area according to the first nuclear power equipment information; scanning the coded image of the candidate test equipment to obtain a coded sequence corresponding to the coded image; analyzing the coding sequence to obtain second nuclear power equipment information of the candidate test equipment; and when the first nuclear power equipment information is matched with the second nuclear power equipment information, judging the candidate test equipment as the nuclear power equipment to be tested corresponding to the process identification.

The coded image is a two-dimensional code or a bar code obtained by coding the equipment identification of the nuclear power equipment. The terminal can encode the equipment identification of each nuclear power equipment according to a preset encoding rule to obtain an encoding sequence, and generates a corresponding encoding image according to the encoding sequence, and then test management personnel can paste the encoding image on the nuclear power equipment. The coding sequence comprises an identification code and a check code. The identification code refers to a string of characters containing alphabetic or numeric symbols with a fixed number of symbols, each character in the string being referred to as a symbol. The letter code element refers to a code element displayed in the form of a letter, for example, when the identification code is "123 abc", the "a" is the letter code element. A digital symbol refers to a symbol that is presented in the form of a number, for example, in the above example, a "1" is a digital symbol.

Specifically, when a process identifier of a current process to be executed is determined, the terminal queries nuclear power equipment information corresponding to the process identifier from the downloaded test work order, and for convenience in description, the nuclear power equipment information obtained based on the process identifier query is subsequently called as first nuclear power equipment information. The test operator can determine candidate test equipment located in the execution area according to the equipment type and the equipment name in the first nuclear power equipment information, scan the two-dimensional code or the bar code posted on the associated candidate test equipment based on the periodic test APP, and then analyze the scanned two-dimensional code or bar code to obtain the coding sequence associated with the candidate test equipment.

The terminal determines the arrangement sequence of each code element in the coding sequence, takes the code element with the appearance position at the last of the coding sequence as a check code, and takes the other code elements as identification codes. The terminal converts the alphabetic symbols into digital symbols according to an ASCII conversion table and acquires a weight sequence corresponding to the identification code. The weight sequence comprises a plurality of weight values, and the number of the weight values is the same as the code length of the identification code. The weight value reflects the degree of importance of the numerical information corresponding to the symbol at the time of encoding. More specifically, when the alphabet symbol is a lower case letter, the terminal queries ASCII code corresponding to the upper case alphabet symbol according to an ASCII code conversion table and subtracts 87 the queried ASCII code. When the letter symbol is a lower case letter, the terminal queries an ASCII code corresponding to the lower case letter symbol according to an ASCII code conversion table and subtracts 29 from the queried ASCII code. For example, when the identification code is "123 abc", the terminal queries ASCII codes "97, 98, 99" corresponding to "a, b, c", respectively, according to an ASCII code conversion table, and subtracts 87 "97, 98, 99" to obtain a numeric code "10" corresponding to "a", a numeric code "11" corresponding to "b", and a numeric code "12" corresponding to "c", respectively, and finally, the numeric information of each symbol in the identification code is "1, 2, 3, 10, 11, 12", respectively.

And the terminal determines the position information of each code element in the identification code and the position information of each weight value in the weight sequence, and determines the code elements and the weight values with the same position information as corresponding matching pairs. And the terminal multiplies the matched digital code elements by the weight values respectively to obtain a plurality of product results, and adds the product results to obtain a first intermediate result. And the terminal determines the character sequence of each character in the first intermediate result, extracts the character with the tail position in the first intermediate result, and determines the extracted character as an analysis result. For example, when the identification code is "123 abc", the numerical information corresponding to the identification code is "1, 2, 3, 10, 11, 12", and the weight sequence is {5,7,17,19,23,29}, the addition result is (1 × 5+2 × 7+3 × 17+10 + 19+11 × 23+12 × 29) ═ 861, and the corresponding analysis result is "1". And the terminal judges whether the analysis result is consistent with the check code, and if so, inquires second nuclear power equipment information of the candidate test equipment according to the identification code in the corresponding relation between the preset identification code and the equipment information. And the terminal judges whether the first nuclear power equipment information is matched with the second nuclear power equipment information, and when the first nuclear power equipment information is matched with the second nuclear power equipment information, the candidate test equipment is judged as the nuclear power equipment to be tested corresponding to the process identification. And when the test equipment is not matched with the test equipment, the terminal correspondingly generates prompt information for prompting test operators to replace the candidate test equipment.

In the embodiment, the analysis result can be obtained by analyzing the identification code, so that the analysis result can be verified based on the check code subsequently, and the probability that the coding sequence is maliciously falsified in the transmission process is reduced. In addition, when the first nuclear power equipment information is matched with the second nuclear power equipment information, the candidate test equipment is judged as the nuclear power equipment to be tested corresponding to the process identification, and the probability of misoperation of the nuclear power equipment by test operators can be reduced.

In one embodiment, determining the associated process description information and the set of set keywords based on the process identification comprises: determining a test work order corresponding to the process identification; the test work order is obtained by dividing a standard work order; when the test work order does not have process description information associated with the process identification or a set of keywords, acquiring the work order identification of the test work order; generating an information query request based on the work order identification and the process identification; and sending the information query request to a server so that the server determines a corresponding standard work order according to the work order identification, and queries corresponding process description information or sets a keyword set from the standard work order based on the sequence identification.

Specifically, when the test work order is generated based on the execution area, the server establishes an association relationship between the standard work order and the test work order. When the terminal fails to inquire the process description information associated with the process identification or set the keyword set in the test work order, the terminal generates an information inquiry request according to the work order identification of the test work order and the process identification of the current test process to be executed, and sends the information inquiry request to the server. The server determines a corresponding test work order according to the work order identification, determines a corresponding standard work order according to the incidence relation between the test work order and the standard work order, inquires process description information or sets a keyword set in the standard work order according to the process identification, and returns the inquired process description information or set keyword set to the terminal.

In this embodiment, by generating the information query request and querying the process description information or setting the keyword set in the server based on the information query request, the probability that the process description information or the keyword set cannot be obtained due to information loss caused by equipment failure in the process of generating or analyzing the test work order can be reduced.

In one embodiment, sending the test parameters to the nuclear power plant to be tested based on the communication link includes: 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 is a word library set containing a plurality of logical relation words.

Specifically, when the test parameters are obtained, the terminal may extract the logical relation words from the test parameters based on the keyword library, 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 sequentially connect the set keywords and the parameter values in the test parameters based on the logical 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 terminal judges whether a plurality of test parameters extracted from the process description information are successfully converted into corresponding logic conditions, if so, the terminal correspondingly displays the plurality of logic conditions in a local screen, so that a test operator can quickly confirm whether the current logic conditions are correct, and when receiving confirmation information aiming at the displayed logic conditions, the terminal sends the test parameters to the nuclear power equipment to be tested.

In the embodiment, the test parameters are correspondingly converted into the logic conditions, and the logic conditions are correspondingly displayed on the screen, so that a test operator can conveniently and quickly confirm whether the currently obtained test parameters are correct or not, and can send the test parameters to the nuclear power equipment to be tested after confirming that the test parameters are correct, the probability of sending wrong test parameters can be reduced, and the accuracy of a nuclear power experiment is improved.

In one embodiment, the method for executing the test procedure in the nuclear power test further includes: obtaining a test result of a current test procedure to be executed; judging the result type of the test result; determining position information to be filled according to the result type; and filling the test result to the corresponding position of the result display page based on the position information.

Specifically, the test result may be of a plurality of types, such as a time type, a numerical type, a selection type, and the like, and the filling positions of different types of test results of the same test procedure to be performed are different. As shown in fig. 5, the periodic test APP has a result display area corresponding to each test process, and the result display area has different types of test result input boxes therein. FIG. 5 is a diagram of the result display area in one embodiment. When a test result of a current test procedure to be executed returned by the nuclear power equipment to be tested is obtained, the APP is tested periodically to judge the type of the test result, a test result input frame of a corresponding type is determined according to the type of the test result, then the test result input frame of the corresponding type is determined, the received test result is filled into the corresponding test result input frame according to the position information in a result display area corresponding to the current test procedure to be executed, and therefore a test operator can judge whether the nuclear power test equipment fails according to the content in the test result input frame. For example, when the process identifier of the current test process to be executed is a and the test result type is a time type, the terminal determines a result display area corresponding to the a, determines the position information of the test result input box of the time type in the result display area, and then inputs the test result of the time type into the test result input box of the time type.

In one embodiment, when the test result is a numerical value type, the periodic test APP determines whether unit information exists after the test result input box of the numerical value type, and if the unit information exists, the periodic test APP identifies the unit information through a preset image identification algorithm to obtain a specific first unit value, for example, m/s. And the APP of the periodic test determines the equipment parameters of the nuclear power equipment to be tested according to the equipment information, and calculates a second unit value of the test result according to the equipment parameters, for example, calculates the second unit value to be cm/s according to information such as rated power of the equipment. Meanwhile, the periodic test APP carries out unit transformation on the second unit value to obtain a test result under the first unit value, and the test result is input into a test result input box of a numerical type.

In one embodiment, when the test operator confirms that the test result in the test result input box is correct, the correct test result can be sent to the server, and the server integrates the test results. More specifically, when the test results of each test procedure are received, the server extracts procedure identifications of the test procedures from the test results, and determines the test work orders to which the test results belong according to the procedure identifications. And the server determines the standard work order to which each test result belongs according to the test work order to which each test result belongs and the incidence relation between the test work order and the standard work order. The server determines the execution sequence of each test procedure in the standard work order according to the procedure identification of the procedure and combines the test results of the test procedures according to the execution sequence.

After the test results are obtained, the test results of all the test procedures are collected and combined, so that the combined test results can be comprehensively analyzed subsequently.

In the embodiment, the test result is displayed on the display page, so that test operators can quickly and intuitively judge whether the test result is correct or not, and the test efficiency of the nuclear power test is improved.

In one embodiment, the obtaining of the test result of the current test procedure to be performed includes: determining an input mode of a test result; converting the test result according to an input mode to obtain a result text; filling the test result to the corresponding position of the result display page based on the position information comprises: generating a test result input control corresponding to the result text type; and filling the result text into the test result input control, and displaying the result text at the corresponding position of the result display page based on the position information.

The input mode refers to an input mode of the test result, and the test result can be input into the terminal in various modes, specifically, the test result can be input in a voice mode, a character mode, an image mode and the like. The result text is a document for recording test results in a text form, and the result text can be classified according to specific contents in the result text to obtain various types of result texts. For example, when the result text records time information, the corresponding type is a time type, and when the result text records numerical information, the corresponding type is a numerical type.

Specifically, the test results generated by different types of intelligent nuclear power equipment are stored in different ways, so that the corresponding input ways are different. For example, the test result is stored in a voice file by the type a nuclear power equipment, and the test result is stored in an image by the type B nuclear power equipment, so that the test result is transmitted to the terminal by the type a nuclear power equipment in a voice manner, and the test result is transmitted to the terminal by the type B nuclear power equipment in an image manner. And the terminal receives the test result transmitted by the nuclear power equipment, determines the transmission mode of the test result, and converts the test result according to the transmission mode to obtain a plain text result text. For example, when the input mode is voice transmission, the terminal performs voice recognition on a received voice file, so as to convert the voice into characters; for another example, when the input method is image transmission, the terminal performs image recognition on the received image to convert the image into characters.

Further, the terminal carries out semantic analysis on characters in the result text, determines specific contents in the result text according to semantic analysis results, determines the text type of the result text according to the specific contents, and then generates a test result input control corresponding to the text type of the result text. For example, when the specific content in the result text is a time value, the corresponding text type is the time type, and at this time, the terminal may generate the time control shown in fig. 6, so that the test operator can confirm whether the current test result is correct. FIG. 6 is a diagram of a time control in one embodiment. And the terminal fills the result text into the test result input control and displays the result text at the corresponding position of the result display page based on the position information.

In the embodiment, the test results with different input modes are converted to obtain the result text with a uniform expression form, so that the text type of the result text can be determined quickly in the follow-up process; by determining the text type of the result text, the input control corresponding to the text type can be generated, so that test operators can intuitively determine whether the current test result is correct, and the user experience is greatly improved.

It should be understood that although the steps in the flowcharts of fig. 2 and 4 are shown in sequence as indicated by the arrows, the steps are not necessarily performed in sequence 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 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 steps or stages is not necessarily sequential, but may be performed alternately or alternately with other steps or at least some of the other steps or stages.

In one embodiment, as shown in fig. 7, there is provided a test procedure performing apparatus 700 in a nuclear power test, including: an information obtaining module 702, a test parameter obtaining module 704 and a sending module 706, wherein:

the information acquisition module 702 is configured to, in a nuclear power test process, acquire a procedure identifier of a current test procedure to be executed, and determine a nuclear power device to be tested, procedure description information, and a set of keywords corresponding to the procedure identifier.

A test parameter obtaining module 704, configured to perform part-of-speech tagging and semantic tagging on each participle in the process description information according to location information of each set keyword in the set keyword set in the process description information; extracting target participles of which the part-of-speech labels or semantic labels meet preset conditions; and 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 the sending module 706 is configured to send the test parameters to the nuclear power equipment to be tested, so that the nuclear power equipment to be tested performs a nuclear power test according to the test parameters.

In one embodiment, the information obtaining module 702 further includes an authorization module 7021, configured to determine, according to an execution area of the nuclear power test, a test work order to be downloaded and a corresponding work order identifier; when the test work order is forbidden to be downloaded, obtaining a test operator identification and an authorized personnel identification which are associated with the test work order; generating an authorization request according to the work order identifier, the test operator identifier and the authorization personnel identifier, and sending the authorization request to a server so that the server authorizes the test work order according to the authorization request; and downloading the authorized test work order, and determining the process identification of the current test process to be executed based on the authorized test work order.

In one embodiment, the information obtaining module 702 further includes a matching module 7022, configured to determine, based on the test work order, first nuclear power plant information associated with the process identifier; determining candidate test equipment located in the execution area according to the first nuclear power equipment information; scanning the coded image of the candidate test equipment to obtain a coded sequence corresponding to the coded image; analyzing the coding sequence to obtain second nuclear power equipment information of the candidate test equipment; and when the first nuclear power equipment information is matched with the second nuclear power equipment information, judging the candidate test equipment as the nuclear power equipment to be tested corresponding to the process identification.

In one embodiment, the information acquisition module 702 is further configured to determine a test work order corresponding to the process identifier; the test work order is obtained by dividing a standard work order; when the test work order does not have process description information associated with the process identification or a set of keywords, acquiring the work order identification of the test work order; generating an information query request based on the work order identification and the process identification; and sending the information query request to a server so that the server determines a corresponding standard work order according to the work order identification, and queries corresponding process description information or sets a keyword set from the standard work order based on the process identification.

In one embodiment, the sending module 706 is further configured to obtain 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.

In an embodiment, the test procedure executing apparatus 700 in the nuclear power test further includes a result displaying module 708, configured to obtain a test result of a current test procedure to be executed; judging the result type of the test result; determining position information to be filled according to the result type; and filling the test result to the corresponding position of the result display page based on the position information.

In one embodiment, the result presentation module 708 is further configured to determine an input manner of the test result; converting the test result according to the input mode to obtain a result text; generating a test result input control corresponding to the text type of the result text; and filling the result text into the test result input control, and displaying the result text at the corresponding position of the result display page based on the position information.

For specific limitations of the test procedure execution device in the nuclear power test, reference may be made to the above limitations of the test procedure execution method in the nuclear power test, and details are not repeated here. All or part of each module in the test procedure execution device in the nuclear power test can be realized by 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 a terminal, and its internal structure diagram may be as shown in fig. 8. 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 test procedure execution method in a nuclear power test. 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. 8 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 and a processor, the memory having a computer program stored therein, the processor implementing the following steps when executing the computer program:

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

performing part-of-speech tagging and semantic tagging on each participle in the process description information according to position information of each set keyword in the set keyword set in the process description information;

extracting target participles of which the part-of-speech labels or semantic labels meet preset conditions;

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 performs nuclear power tests according to the test parameters.

In one embodiment, the processor, when executing the computer program, further performs the steps of:

determining a test work order to be downloaded and a corresponding work order identifier according to an execution area of a nuclear power test;

when the test work order is forbidden to be downloaded, obtaining a test operator identification and an authorized personnel identification which are associated with the test work order;

generating an authorization request according to the work order identifier, the test operator identifier and the authorization personnel identifier, and sending the authorization request to a server so that the server authorizes the test work order according to the authorization request;

and downloading the authorized test work order, and determining the process identification of the current test process to be executed based on the authorized test work order.

In one embodiment, the current test procedure to be performed is located in a test work order; the processor, when executing the computer program, further performs the steps of:

determining first nuclear power equipment information associated with the procedure identification based on the test work order;

determining candidate test equipment located in the execution area according to the first nuclear power equipment information;

scanning the coded image of the candidate test equipment to obtain a coded sequence corresponding to the coded image;

analyzing the coding sequence to obtain second nuclear power equipment information of the candidate test equipment;

and when the first nuclear power equipment information is matched with the second nuclear power equipment information, judging the candidate test equipment as the nuclear power equipment to be tested corresponding to the process identification.

In one embodiment, the processor, when executing the computer program, further performs the steps of:

determining a test work order corresponding to the process identification; the test work order is obtained by dividing a standard work order;

when the test work order does not have process description information associated with the process identification or a set of keywords, acquiring the work order identification of the test work order;

generating an information query request based on the work order identification and the process identification;

and sending the information query request to a server so that the server determines a corresponding standard work order according to the work order identification, and queries corresponding process description information or sets a keyword set from the standard work order based on the process identification.

In one embodiment, the processor, when executing the computer program, further performs the steps of:

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.

In one embodiment, the processor, when executing the computer program, further performs the steps of:

obtaining a test result of a current test procedure to be executed;

judging the result type of the test result;

determining position information to be filled according to the result type;

and filling the test result to the corresponding position of the result display page based on the position information.

In one embodiment, the processor, when executing the computer program, further performs the steps of:

determining an input mode of a test result;

converting the test result according to the input mode to obtain a result text;

populating the test results to the corresponding locations of the result presentation page based on the location information includes:

generating a test result input control corresponding to the text type of the result text;

and filling the result text into the test result input control, and displaying the result text at the corresponding position of the result display page based on the position information.

In one embodiment, a computer-readable storage medium is provided, having a computer program stored thereon, which when executed by a processor, performs the steps of:

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

performing part-of-speech tagging and semantic tagging on each participle in the process description information according to position information of each set keyword in the set keyword set in the process description information;

extracting target participles of which the part-of-speech labels or semantic labels meet preset conditions;

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 performs nuclear power tests according to the test parameters.

In one embodiment, the computer program when executed by the processor further performs the steps of:

determining a test work order to be downloaded and a corresponding work order identifier according to an execution area of a nuclear power test;

when the test work order is forbidden to be downloaded, obtaining a test operator identification and an authorized personnel identification which are associated with the test work order;

generating an authorization request according to the work order identifier, the test operator identifier and the authorization personnel identifier, and sending the authorization request to a server so that the server authorizes the test work order according to the authorization request;

and downloading the authorized test work order, and determining the process identification of the current test process to be executed based on the authorized test work order.

In one embodiment, the current test procedure to be performed is located in a test work order; the computer program when executed by the processor further realizes the steps of:

determining first nuclear power equipment information associated with the procedure identification based on the test work order;

determining candidate test equipment located in the execution area according to the first nuclear power equipment information;

scanning the coded image of the candidate test equipment to obtain a coded sequence corresponding to the coded image;

analyzing the coding sequence to obtain second nuclear power equipment information of the candidate test equipment;

and when the first nuclear power equipment information is matched with the second nuclear power equipment information, judging the candidate test equipment as the nuclear power equipment to be tested corresponding to the process identification.

In one embodiment, the computer program when executed by the processor further performs the steps of:

determining a test work order corresponding to the process identification; the test work order is obtained by dividing a standard work order;

when the test work order does not have process description information associated with the process identification or a set of keywords, acquiring the work order identification of the test work order;

generating an information query request based on the work order identification and the process identification;

and sending the information query request to a server so that the server determines a corresponding standard work order according to the work order identification, and queries corresponding process description information or sets a keyword set from the standard work order based on the process identification.

In one embodiment, the computer program when executed by the processor further performs the steps of:

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.

In one embodiment, the computer program when executed by the processor further performs the steps of:

obtaining a test result of a current test procedure to be executed;

judging the result type of the test result;

determining position information to be filled according to the result type;

and filling the test result to the corresponding position of the result display page based on the position information.

In one embodiment, the computer program when executed by the processor further performs the steps of:

determining an input mode of a test result;

converting the test result according to the input mode to obtain a result text;

populating the test results to the corresponding locations of the result presentation page based on the location information includes:

generating a test result input control corresponding to the text type of the result text;

and filling the result text into the test result input control, and displaying the result text at the corresponding position of the result display page based on the position information.

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 can include at least one of non-volatile and volatile memory. Non-volatile Memory may include Read-Only Memory (ROM), magnetic tape, floppy disk, flash Memory, optical storage, or the like. Volatile Memory can include Random Access Memory (RAM) or external cache Memory. By way of illustration and not limitation, RAM can take many forms, such as Static Random Access Memory (SRAM) or Dynamic Random Access Memory (DRAM), among others.

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 (10)

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

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

performing part-of-speech tagging and semantic tagging on each participle in the process description information according to position information of each set keyword in the set keyword set in the process description information;

extracting target participles of which the part-of-speech labels or semantic labels meet preset conditions;

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 performs nuclear power tests according to the test parameters.

2. The method of claim 1, wherein the obtaining the process identification of the current test process to be performed comprises:

determining a test work order to be downloaded and a corresponding work order identifier according to an execution area of a nuclear power test;

when the test work order is forbidden to be downloaded, obtaining a test operator identifier and an authorized person identifier which are associated with the test work order;

generating an authorization request according to the work order identifier, the test operator identifier and the authorization personnel identifier, and sending the authorization request to a server so that the server authorizes the test work order according to the authorization request;

and downloading the authorized test work order, and determining the process identification of the current test process to be executed based on the authorized test work order.

3. The method of claim 1, wherein the current test procedure to be performed is located in a test work order; the step of determining the nuclear power equipment to be tested corresponding to the process identification comprises the following steps:

determining first nuclear power equipment information associated with the procedure identification based on the test work order;

determining candidate test equipment in an execution area according to the first nuclear power equipment information;

scanning the coded image of the candidate test equipment to obtain a coded sequence corresponding to the coded image;

analyzing the coding sequence to obtain second nuclear power equipment information of the candidate test equipment;

and when the first nuclear power equipment information is matched with the second nuclear power equipment information, judging the candidate test equipment as the nuclear power equipment to be tested corresponding to the process identification.

4. The method of claim 1, wherein determining associated process description information and set of keywords from the process identification comprises:

determining a test work order corresponding to the process identification; the test work order is obtained by dividing a standard work order;

when the test work order does not have process description information or a set of keywords associated with the process identification, acquiring the work order identification of the test work order;

generating an information query request based on the work order identification and the process identification;

and sending the information query request to a server so that the server determines a corresponding standard work order according to the work order identification, and queries corresponding process description information or sets a keyword set from the standard work order based on the process identification.

5. The method of claim 1, wherein the sending the test parameters to the nuclear power plant to be tested 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.

6. The method of claim 1, further comprising:

obtaining a test result of the current test procedure to be executed;

judging the result type of the test result;

determining position information to be filled according to the result type;

and filling the test result to the corresponding position of a result display page based on the position information.

7. The method of claim 6, wherein the obtaining the test result of the current test procedure to be performed comprises:

determining an input mode of the test result;

converting the test result according to the input mode to obtain a result text;

the populating the test results to the corresponding locations of a result presentation page based on the location information includes:

generating a test result input control corresponding to the text type of the result text;

and filling the result text into the test result input control, and displaying the result text at the corresponding position of a result display page based on the position information.

8. A test procedure execution device in a nuclear power test is characterized by comprising:

the information acquisition module is used for acquiring a process identification of a current test process to be executed in the nuclear power test process, and determining nuclear power equipment to be tested, process description information and a set keyword corresponding to the process identification;

the test parameter acquisition module is used for performing part-of-speech tagging and semantic tagging on each participle in the process description information according to the position information of each set keyword in the set keyword set in the process description information; extracting target participles of which the part-of-speech labels or semantic labels meet preset conditions; 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 the sending module is used for sending the test parameters to the nuclear power equipment to be tested so as to enable the nuclear power equipment to be tested to carry out nuclear power test according to the test parameters.

9. A computer device comprising a memory and a processor, the memory storing a computer program, characterized in that the processor, when executing the computer program, implements the steps of the method of any of claims 1 to 7.

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 of any one of claims 1 to 7.

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