CN113704368A

CN113704368A - Inspection information tracing method and device, computer equipment and storage medium

Info

Publication number: CN113704368A
Application number: CN202111012790.1A
Authority: CN
Inventors: 王贤乐; 潘广; 王文杰
Original assignee: Shenzhen Yajiada Information Technology Co ltd
Current assignee: Shenzhen Yajiada Information Technology Co ltd
Priority date: 2021-08-31
Filing date: 2021-08-31
Publication date: 2021-11-26

Abstract

The application relates to a method and a device for tracing inspection information, computer equipment and a storage medium. The method comprises the following steps: acquiring dimension input information aiming at inspection condition elements involved in inspection; the inspection condition element dimension comprises at least two of a personnel dimension, an equipment dimension, a consumable dimension, a file dimension and an environment dimension; the information comprises related information which is generated under each inspection condition element dimension in the inspection process and needs to be traced; establishing an association relation between the information of each inspection condition element dimension; and when a problem occurs in the inspection process or an inspection result occurs, tracing a problem element causing the problem from the dimension information of each inspection condition element based on the pre-established association relation, and positioning a link in which the problem element is positioned in the inspection process. The method can improve the accuracy of the test result.

Description

Inspection information tracing method and device, computer equipment and storage medium

Technical Field

The present application relates to the field of information processing technologies, and in particular, to a method and an apparatus for tracing inspection information, a computer device, and a storage medium.

Background

With the development of information processing technology, the quality requirements of medical laboratories for test results are higher and higher. However, the tracing information of the inspection process or result in the existing medical laboratory information system is basically embodied in the inspection original record (i.e. test data) and the inspection report, so that the information amount is limited, the tracing of the inspection process or result is often not comprehensive enough, and the reason influencing the accuracy of the inspection result cannot be timely and accurately found, so that the inspection result cannot be in an objective and real state, and the accuracy of the inspection result is influenced.

Disclosure of Invention

In view of the above, it is necessary to provide a test information tracing method, a device, a computer device, and a storage medium capable of improving the accuracy of a test result in order to solve the above-mentioned technical problems.

A verification information tracing method, the method comprising:

acquiring dimension input information aiming at inspection condition elements involved in inspection; the inspection condition element dimension comprises at least two of a personnel dimension, an equipment dimension, a consumable dimension, a file dimension and an environment dimension; the information comprises related information which is generated under each inspection condition element dimension in the inspection process and needs to be traced;

establishing an association relation between the information of each inspection condition element dimension;

when a problem occurs in the inspection process or the inspection result has a problem, then

Based on the pre-established association relationship, tracing problem elements causing problems from the dimension information of each inspection condition element, and positioning links where the problem elements are located in the inspection process.

In one embodiment, the dimension of the inspection condition elements comprises a personnel dimension;

the step of obtaining information entered for the dimensions of the elements of the test conditions involved in the test comprises:

after logging in through a checking personnel account, acquiring checking operation information and relevant information of checking personnel under the personnel dimensionality; the inspector account number is used to uniquely identify the inspector.

In one embodiment, the dimension of the checking condition element comprises a device dimension; the information input aiming at the equipment dimension comprises equipment basic information and equipment detection records;

acquiring the basic information of the equipment input in an equipment information input interface;

and under the condition of meeting equipment detection conditions, triggering to carry out accuracy detection on the detection equipment to obtain the equipment detection record.

In one embodiment, the dimension of the inspection condition elements comprises a consumable dimension; the information input aiming at the consumable dimension comprises consumable basic information and a consumable circulation record corresponding to the consumable identification;

acquiring the basic information of the consumable part input in an equipment information input interface;

and recording each node where the consumable passes in the consumable circulation process to obtain the consumable circulation record.

In one embodiment, the dimension of the checking condition element comprises a document dimension; the information input aiming at the file dimension comprises a file related to the inspection and an operation record for operating on the file;

if an operation request for uploading files is received, acquiring the uploaded files related to the inspection;

if at least one operation request of downloading, auditing, previewing, online editing and reviewing the file is received, at least one operation process of downloading, auditing, previewing, online editing and reviewing the file is carried out;

and storing an operation record corresponding to the operation processing performed on each operation request.

In one embodiment, the dimension of the checking condition element comprises an environment dimension; the information input aiming at the environment dimension comprises environment information where a monitoring object is located;

positioning the current physical position of the monitored object in real time based on the identification code corresponding to the monitored object;

determining the monitoring equipment corresponding to the current physical position according to the preset corresponding relation between the physical position and the monitoring equipment;

and monitoring the environmental information of the current physical position according to the determined monitoring equipment to obtain and record the environmental information of the monitored object.

In one embodiment, the method further comprises:

responding to an automatic mode starting instruction, and entering an automatic tracing mode;

in the automatic tracing mode, identifying problems appearing in the inspection result according to preset conditions, executing the pre-established association relationship, tracing problem elements causing the problems from the dimension information of the elements of each inspection condition, and positioning links where the problem elements are located in the inspection process.

A traceability device for verifying information, said device comprising:

the acquisition module is used for acquiring information input aiming at dimension of the inspection condition elements involved in the inspection; the inspection condition element dimension comprises at least two of a personnel dimension, an equipment dimension, a consumable dimension, a file dimension and an environment dimension; the information comprises related information which is generated under each inspection condition element dimension in the inspection process and needs to be traced;

the incidence relation establishing module is used for establishing incidence relation among the information of each inspection condition element dimension;

and the problem tracing module is used for tracing problem elements causing problems from the dimension information of each element of the inspection condition based on the pre-established association relation when problems occur in the inspection process or the inspection result occurs, and positioning links where the problem elements are located in the inspection process.

A computer device comprising a memory and a processor, wherein the memory stores a computer program, and the processor executes the computer program to implement the steps in the verification information tracing method according to the embodiments of the present application.

A computer-readable storage medium, on which a computer program is stored, wherein the computer program, when executed by a processor, implements the steps in the verification information tracing method according to the embodiments of the present application.

The inspection information tracing method, the inspection information tracing device, the computer equipment and the storage medium acquire information input aiming at the dimension of the inspection condition elements involved in the inspection, establish an incidence relation among the information of the dimension of each inspection condition element, trace problem elements causing problems from the information of the dimension of each inspection condition element based on the pre-established incidence relation when problems occur or inspection results occur in the inspection process, and position the links where the problem elements are located in the inspection process. Through establishing complete incidence relation among personnel, equipment, consumables, files and environments, data sharing among all element records is realized, when problems occur in the inspection process or the result, which link of which element specifically occurs the problem can be traced, the comprehensive tracing of the inspection result is realized, the reason influencing the accuracy of the inspection result is accurately found, and the accuracy of the inspection result is improved.

Drawings

FIG. 1 is a diagram of an application environment of a method for tracing verification information in one embodiment;

FIG. 2 is a schematic flow chart of a verification information tracing method according to an embodiment;

FIG. 3 is a schematic flow diagram illustrating the process of obtaining environment dimension entered information in one embodiment;

FIG. 4 is a block diagram of a trace-back device for checking information in one embodiment;

FIG. 5 is a diagram illustrating an internal structure of a computer device according to an embodiment;

fig. 6 is an internal structural view of a computer device in another 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 inspection information tracing method provided by the application can be applied to the application environment shown in fig. 1. Wherein the terminal 102 communicates with the server 104 via a network. The terminal 102 may obtain information in the dimension of the element of the inspection condition involved in the inspection by receiving or detecting the information. The terminal 102 transmits information obtained for the inspection condition element dimensions involved in the inspection to the server 104, and the server 104 stores the obtained information and establishes an association relationship between the information of each inspection condition element dimension. When a problem occurs in the inspection process or an inspection result has a problem, the server 104 can trace the problem element causing the problem from the information of each inspection condition element dimension and locate the link in which the problem element is located in the inspection process based on the association relationship established in advance between the information of each inspection condition element dimension, and can trace out which link of which element has a problem, and accurately find out the reason influencing the accuracy of the inspection result, thereby improving the accuracy of the inspection result. The terminal 102 may be, but not limited to, various personal computers, notebook computers, smart phones, tablet computers, and portable wearable devices, and the server 104 may be implemented by an independent server or a server cluster formed by a plurality of servers.

In one embodiment, when a problem occurs in the inspection process or an inspection result has a problem, the terminal 102 may send a problem tracing instruction to the server 104, and the server 104 traces a problem element causing the problem from the information of each inspection condition element dimension based on an association relationship established in advance between the information of each inspection condition element dimension in response to the problem tracing instruction, and locates a link in which the problem element is located in the inspection process.

In other embodiments, when a problem occurs in the inspection process or an inspection result occurs, the server 104 may also autonomously trace the problem element causing the problem from the information of each inspection condition element dimension based on a pre-established association relationship, and locate the link where the problem element is located in the inspection process.

In one embodiment, as shown in fig. 2, a verification information tracing method is provided, which is described by taking the method as an example applied to the server 104 in fig. 1, and includes the following steps:

s202, information recorded aiming at dimension of the inspection condition elements involved in the inspection is acquired.

The inspection condition elements are elements that provide conditions for inspection, that is, condition elements that depend on inspection. For example, in order to carry out a test on a specimen, it is necessary to depend on a person who performs a test operation, equipment for testing the specimen, and the like.

The test condition elements are different from the test results, and the test results are generated after the test is performed depending on the test condition elements, and for example, after the test is performed on the specimen by the test condition elements such as the person who performs the test operation and the test equipment, the test results such as the test original record (i.e., the test data) and the test report are generated.

The inspection condition element dimension includes at least two of a personnel dimension, an equipment dimension, a consumable dimension, a document dimension, and an environment dimension. The information comprises related information which is generated under the dimension of each inspection condition element in the inspection process and needs to be traced.

In one embodiment, the user terminal is provided with an entry interface for dimension information of each checking condition element, and the user terminal can respond to entry operation of a user on the interface, acquire information under the dimension of the checking condition element involved in checking and send the acquired information to the server.

In another embodiment, the device terminal may detect information in the dimension of the element of the inspection condition involved in the inspection, and send the detected information to the server. For example, the device terminal such as the inspection device or the monitoring device may send the information in the dimension of each inspection condition element that is automatically detected to the server.

In one embodiment, the information further comprises basic information to be traced under each dimension of the element of the examination condition involved in the examination. It can be understood that the basic information is not information generated in the inspection process, but information in which each inspection condition element dimension itself objectively exists, for example, the basic information in the equipment dimension refers to information such as an equipment model and the like which belongs to the equipment itself objectively existence.

And S204, establishing an association relation between the information of each inspection condition element dimension.

Specifically, the server stores information entered for the inspection condition element dimensions involved in the inspection acquired in S202, and establishes a corresponding association relationship between the information of each inspection condition element dimension according to the association generated in the inspection process by the information of each inspection condition element dimension.

And S206, when problems occur in the inspection process or the inspection result occurs, tracing problem elements causing the problems from the dimension information of each inspection condition element based on the pre-established association relation, and positioning links where the problem elements are located in the inspection process.

The problem element refers to an inspection condition element causing a problem in an inspection process or a problem in an inspection result.

Specifically, when a problem occurs in the inspection process or an inspection result occurs, the server may trace the information of each inspection condition element dimension in at least one of a manual tracing manner and an automatic tracing manner. The server can trace problem elements causing problems from the stored information of the dimensions of the elements of the inspection conditions according to the incidence relation established among the information of the dimensions of the elements of the inspection conditions in advance, and locate links where the problem elements are located in the inspection process.

The manual tracing refers to that a user manually inputs a query condition to trace a problem. Automatic tracing means that the server autonomously performs problem tracing.

According to the inspection information tracing method, information input aiming at the dimension of the inspection condition elements involved in the inspection is obtained, an incidence relation is established among the information of the dimension of each inspection condition element, when a problem occurs in the inspection process or an inspection result has a problem, problem elements causing the problem are traced from the information of the dimension of each inspection condition element based on the pre-established incidence relation, and the links where the problem elements are located in the inspection process are positioned. Through establishing complete incidence relation among personnel, equipment, consumables, files and environments, data sharing among all element records is realized, when problems occur in the inspection process or the result, which link of which element specifically occurs the problem can be traced, the comprehensive tracing of the inspection result is realized, the reason influencing the accuracy of the inspection result is accurately found, and the accuracy of the inspection result is improved.

In one embodiment, the inspection condition element dimension includes a personnel dimension. The step of obtaining information entered for the dimensions of the elements of the test conditions involved in the test comprises: and after logging in through the checking personnel account, acquiring the logged checking operation information under the personnel dimensionality and the related information of the checking personnel.

Wherein the inspector account number is used to uniquely identify the inspector. It will be appreciated that the information entered under the people dimension may include inspection operation information and information related to the inspection personnel. The inspection operation information is information related to an inspection operation performed by an inspector. The information related to the inspector is information related to the inspector corresponding to the inspection operation information.

Specifically, the inspector has a corresponding inspector account, the inspector can use the inspector account to perform login operation based on the terminal, and after the login is successful, the terminal can provide an inspection information entry interface. When the inspection personnel perform inspection operation, each step or one work is finished, information such as inspection operation information and relevant information of the inspection personnel can be input through the inspection information input interface, and the terminal can send the input information to the server.

In one embodiment, the inspection operation information may include operation records during the inspection operation performed by the inspector, results and problems generated by the inspection operation, and quality status marks filled in corresponding information fields. It is to be understood that the operational record may include a record of operational behavior as well as data entered to perform the operational behavior.

In one embodiment, the information related to the inspector may include at least one of a name of the inspector who performed the inspection, a time and a place when the inspector performed the inspection, and a situation analysis performed by the inspector.

In one embodiment, at least one of department, position, job and role identification information and corresponding auditing and approval authority information can be configured for the inspector account.

In this embodiment, the inspection operation information and the inspection person related information recorded by the inspection person during the inspection process are streamed in synchronization with the inspection in the server. When a problem occurs in the inspection process or an inspection result occurs, inspection operation information recorded by all inspection personnel involved in the inspection in the problematic inspection process and related information of all inspection personnel involved in the inspection can be traced, the control and tracing of the dimension of the personnel are realized, and the influence of the dimension of the personnel on the inspection result is timely and accurately found.

In one embodiment, the check condition element dimension includes a device dimension; the information input aiming at the equipment dimension comprises equipment basic information and equipment detection records; the step of obtaining information entered for the dimensions of the elements of the test conditions involved in the test comprises: acquiring basic equipment information input in an equipment information input interface; and under the condition of meeting equipment detection conditions, triggering to carry out accuracy detection on the detection equipment to obtain equipment detection records.

The device basic information refers to information that the device itself objectively exists. The device detection record refers to a record generated in the process of detecting for the device. The equipment information entry interface is an interface for entering equipment information. The device information may include at least one of device grounding information and device detection records. The equipment detection condition is a condition for triggering the accuracy detection of the inspection equipment. The accuracy detection means detection corresponding to a device detection condition for checking the device state.

Specifically, the terminal may have an equipment information entry interface, and the user enters the equipment basic information on the equipment information entry interface. The terminal responds to the input operation of the user, the equipment basic information input by the user is triggered to be sent to the server, and the server can receive the equipment basic information sent by the terminal. The server can judge the state of the inspection equipment according to the equipment detection condition, and trigger the accuracy detection of the inspection equipment under the condition that the state of the inspection equipment meets the equipment detection condition to obtain an equipment detection record.

In one embodiment, under the condition that the state of the inspection equipment meets the equipment detection condition, the server can send prompt information to the terminal, the prompt information is displayed through the terminal to prompt a user to perform accuracy detection on the inspection equipment, the user can enter equipment detection records on an equipment information entry interface of the terminal, the terminal responds to entry operation of the user and triggers the equipment detection records entered by the user to be sent to the server, and the server can receive the equipment detection records sent by the terminal.

It can be understood that, when the inspection equipment is out of alignment and continues to be used, an erroneous judgment or a misjudgment is caused, so that the server can trigger and generate prompt information for detecting at least one of acceptance, verification, calibration, use, maintenance, adverse event, handover, scrapping and the like of the equipment under the condition that the equipment detection condition is met, and send the prompt information to the terminal to prompt a user to perform accuracy detection on the inspection equipment.

In another embodiment, the server may also trigger a detection logic for performing accuracy detection on the inspection device under the condition that the state of the inspection device satisfies the device detection condition, so as to autonomously perform accuracy detection on the inspection device to obtain a device detection record.

In one embodiment, the device infrastructure information may include at least one of a name, a model number, a factory number, a place of manufacture, a manufacturer, a factory date, an asset number, a supplier, a department in charge, a department of use, a location, and a person in charge of the test device.

In one embodiment, the device basic information may further include at least one of file information such as a production license, a product certification, a quality assurance certificate, a manual, and an SOP (Standard Operating Procedure) of the inspection device. It can be understood that the equipment information input interface can upload files, and a user can input files such as production licenses, product certificates, quality guarantee certificates, instruction manuals and SOPs of the inspection equipment on the equipment information input interface.

In one embodiment, the device test records may include at least one of a record of acceptance, validation, calibration, use, maintenance, repair, adverse events, transfer and retirement of the test device, and a record of the content of the operation, time, status of the device, and personnel of the device test. The device status may include at least one of whether to verify, whether to calibrate, and whether to service.

In one embodiment, the device detection condition may be that a detection period for detecting the inspection device is reached. It will be appreciated that the test device has a fixed detection period. The inspection cycle refers to a corresponding cycle for inspecting the inspection equipment. The verification period may include at least one of a calibration period, a maintenance period, a verification period, and the like. The accuracy detection may include at least one of calibration, maintenance, and verification, among others.

Specifically, when the inspection device exceeds the detection period, the server may determine that the inspection device does not perform detection corresponding to the detection period, and record that the corresponding device state is abnormal. It will be appreciated that the server records whether the device is calibrated for a test device that exceeds the calibration period, for example. The server can send the abnormal equipment state to the terminal, and the terminal displays the received abnormal equipment state to prompt the user. And the user performs corresponding accuracy detection on the inspection equipment by analyzing the abnormal equipment state of the inspection equipment, and inputs an equipment detection record corresponding to the accuracy detection on an equipment information input interface. It will be appreciated that if the test device is determined to be abnormal due to exceeding the calibration period, the corresponding accuracy is detected as calibration.

In one embodiment, the user may manually find the abnormality of the inspection equipment, enter the abnormality information of the inspection equipment in the equipment information entry interface, or directly change the equipment state of the inspection equipment corresponding to the abnormality information.

In one embodiment, a user may identify a test device by scanning a mobile APP (Application) code and uploading a device test record.

In this embodiment, the inspector can enter the device basic information and the device detection record on the device information entry interface. In order to refine the inspection device, the server may prompt the user for detection and form a detection record for periodic detection of the inspection device. When a problem occurs in the inspection process or an inspection result occurs, all inspection personnel involved in the inspection or the server can trace the equipment basic information and the equipment detection record recorded in the problematic inspection process, and the server can judge whether the inspection equipment has a problem in a certain period of specific time or not according to the recorded equipment information, and whether the problem occurs because the equipment is not calibrated in time, maintained or the like, so that the control and tracing of the equipment dimension are realized, and the influence of the equipment dimension on the inspection result is timely and accurately found.

In one embodiment, the check condition element dimensions include a consumable dimension; the information input aiming at the consumable dimension comprises consumable basic information and a consumable circulation record corresponding to the consumable identification; the step of obtaining information entered for the dimensions of the elements of the test conditions involved in the test comprises: acquiring consumable basic information input in an equipment information input interface; in the consumable circulation process, recording each node where the consumable passes to obtain a consumable circulation record.

The consumable is a consumable in the inspection process, and may include at least one of a reagent, a burette, a cryopreservation tube, a reagent bottle, and the like. The consumable basic information refers to the information that the consumable itself objectively exists. The consumable circulation process refers to the circulation process of the consumable. The consumable circulation record refers to relevant records aiming at the consumable circulation process.

Specifically, the terminal has a consumable information entry interface, and the terminal can respond to the entry operation of a user on the consumable information entry interface, acquire at least one of consumable basic information and consumable circulation records entered by the user, and send the acquired information to the server. And the server stores the received consumable basic information and consumable circulation records.

In one embodiment, the basic information of the consumable may include at least one of the information of the name, code number, contract name, specification, expiration date, manufacturer, cargo number, registration certificate number, registration expiration date, supplier, storage location, verification method, purchase time, daily usage, upper and lower limits of inventory, upper and lower limits of temperature, and place of production.

In one embodiment, the consumable circulation record may include at least one record of approval, confirmation, transportation, acceptance, warehousing and the like of an order for the consumable, and may also include at least one record of verification, inventory, consumption, scrapping, returning, changing, lending, returning, transferring and the like for the consumable, and at least one record of claiming, ex-warehouse, self-service, bottle opening, use completion and the like for the consumable by an inspector.

The method has the advantages that after the user finishes auditing and ordering the consumable orders, corresponding consumables are transported by a supplier, the user can enter corresponding consumable order corresponding consumable basic information and consumable circulation information through the consumable information entry interface, and logistics data and cold chain data are transported.

In one embodiment, the server may configure the consumable with an identification code that is used to uniquely identify the consumable. The identification code may be at least one of a bar code and a number.

In one embodiment, a user may manually dispense a reagent, enter a reagent recipe at a consumable information entry interface and store in a server, which assigns a unique barcode to the manually dispensed reagent.

In this embodiment, the user can enter the basic information of the consumable and the circulation record of the consumable on the consumable information entry interface. The server can save all consumptive material records in the laboratory, guarantees that any consumptive material in the laboratory can all trace back, when the problem appears or the inspection result appears in the inspection process, can in time accurately discover the influence of consumptive material dimension to the inspection result.

In one embodiment, the dimensions of the checking condition elements comprise file dimensions; the information input aiming at the file dimension comprises a file related to the inspection and an operation record for operating the file; the step of obtaining information entered for the dimensions of the elements of the test conditions involved in the test comprises: if an operation request for uploading files is received, acquiring the uploaded files related to the inspection; if at least one operation request of downloading, auditing, previewing, online editing and reviewing the file is received, at least one operation process of downloading, auditing, previewing, online editing and reviewing the file is carried out; and storing operation records corresponding to the operation processing performed on each operation request.

The files related to the inspection can comprise an operation flow file, an operation specification file and files under the dimension of each inspection condition element for each inspection item. The document under each inspection condition element dimension may include at least one of a consumable part-related document, an equipment-related document, a person-related document, and the like. It is understood that the device-related document refers to a document related to a device, and may include at least one of a production license, a product certificate, a warranty, a manual, and an SOP.

Specifically, the terminal has a file information management interface, and a user can perform at least one operation of uploading, downloading, auditing, previewing, online editing, reviewing and the like on a file through the file information management interface. The terminal can respond to the relevant operation of the user and send the corresponding operation request of the user to the server. And if the server receives the operation request of uploading the file, acquiring the uploaded file related to the inspection through the terminal. And if the server receives at least one operation request of downloading, auditing, previewing, online editing and reviewing the file, the terminal performs at least one operation process of downloading, auditing, previewing, online editing and reviewing the file, and stores operation records corresponding to the operation process performed on each operation request.

In one embodiment, the document management interface can classify and unify the documents related to the inspection for each department to establish a document file, and associate the documents related to the inspection of each department with the personnel, equipment, consumables and the like in each corresponding department.

In the embodiment, the server controls the authority of the file according to the operations of uploading, downloading, auditing, previewing, online editing and the like, and records the review and modification of the file, so that the traceability of the file is ensured, the fairness and the safety of the file are ensured, and the influence of the file on the inspection result can be timely and accurately found.

In one embodiment, the check condition element dimension includes an environment dimension; the information entered for the environment dimension includes environmental information where the monitored object is located.

As shown in fig. 3, the step of acquiring information entered for the dimension of the inspection condition element involved in the inspection includes the steps of:

s302, positioning the current physical position of the monitored object in real time based on the identification code corresponding to the monitored object.

The monitored object refers to an object to be monitored, and it can be understood that the monitored object is influenced by the environment. The environment information refers to the relevant information of the environment where the monitored object is located. And the identification code corresponding to the monitored object is used for uniquely identifying the monitored object. The current physical location of the monitored object refers to the current actual location of the monitored object.

In one embodiment, the environment in which the monitored object is located may include at least one of a laboratory, a work area, a freezer, a refrigerator, and the like.

In one embodiment, the environmental information may include at least one of temperature, humidity, illumination, noise, radiation, air pressure, and the like.

Specifically, the terminal may obtain the physical location of the monitored object in real time by identifying the identification code of the monitored object, and send the current physical location of the monitored object to the server.

In one embodiment, the Identification code corresponding to the monitoring object may include at least one of a graphic code and an RFID (Radio Frequency Identification). The terminal can locate the current physical position of the monitored object in real time by scanning the identification code for identifying the monitored object.

In one embodiment, the monitoring object may include at least one of a specimen, a reagent, an instrument, and the like.

S304, determining the monitoring equipment corresponding to the current physical position according to the preset corresponding relation between the physical position and the monitoring equipment.

The monitoring device is a device capable of monitoring environmental information at a current physical location.

Specifically, after receiving the current physical location of the monitored object, the server searches for the monitoring device corresponding to the current physical location according to a preset correspondence between the physical location and the monitoring device.

In one embodiment, the monitoring device may include at least one of a hygrothermograph, a barometer, a resistance meter, a voltmeter, and the like.

And S306, monitoring the environmental information of the current physical position according to the determined monitoring equipment to obtain and record the environmental information of the monitored object.

Specifically, after finding the monitoring device corresponding to the current physical location, the server sends a monitoring instruction to the monitoring device. The monitoring equipment responds to the monitoring instruction, monitors the environmental information of the current physical position of the monitored object, and sends the acquired environmental information to the server. And the server receives and records the environmental information of the monitored object.

The monitoring instruction is used for triggering the monitoring equipment to monitor the environmental information aiming at the current physical position.

In one embodiment, the server associates the environment in which the monitored object is located, the monitoring device, the monitored object, and the environmental facility. The environmental facility may include at least one of a water purifier and a UPS (Uninterruptible Power Supply), and the like. The server can monitor and record the environmental information of each physical position in real time through the monitoring equipment.

In one embodiment, the monitored object may be a specimen. The physical position of the specimen is constantly changed, the terminal monitors the specimen through RFID induction, the physical position of the specimen is sent to the server, the server acquires the current physical position of the specimen, the current physical position corresponds to the monitoring device, and the monitoring device can detect the temperature and humidity data of the physical position where the specimen is located.

In an embodiment, the server may determine whether the environmental state corresponding to the environmental index is abnormal according to the environmental index stored in the server for the recorded environmental information corresponding to the current physical location of the monitored object.

In one embodiment, the server can trace back the environmental status of any monitored object at any time and determine whether the environmental status is abnormal.

In this embodiment, the server monitors and records environmental information in real time, and realizes the management and control of conditions such as environment humiture, illuminance, noise, radiation, atmospheric pressure. The physical position of the monitored object is positioned and updated in real time by scanning the identification code of the monitored object, so that the environmental state of any monitored object can be traced at any time and whether the environmental information is suitable and qualified is judged. When a problem occurs in the inspection process or an inspection result has a problem, the influence of the environmental dimension on the inspection result can be timely and accurately discovered.

In one embodiment, the method further comprises: responding to an automatic mode starting instruction, and entering an automatic tracing mode; in the automatic tracing mode, problems occurring in the inspection result are identified according to preset conditions, and based on the pre-established association relationship, problem elements causing the problems are traced from the dimension information of the elements of the inspection conditions, and the links where the problem elements are located in the inspection process are located.

And the automatic mode starting instruction is used for triggering and starting the automatic tracing mode. The preset condition may include at least one of a condition preset for the inspection result and a condition preset for the inspection process. The problem elements refer to inspection condition elements causing a problem in the inspection result.

Specifically, the terminal sends an automatic mode starting instruction to the server, and the server responds to the automatic mode starting instruction and enters an automatic tracing mode. The server can analyze the problems of the inspection result according to the preset conditions aiming at the inspection result in the automatic tracing mode, trace the problem elements causing the problems according to the stored related information needing to be traced under the element dimensionality of each inspection condition in the inspection process and the incidence relation between the information of the element dimensionality of each inspection condition, position the links where the problem elements are located in the inspection process and generate suspicious problem analysis reports according to the tracing result. It will be appreciated that the suspicious problem analysis report may include the problem elements and the links in which they are located during the inspection process.

In one embodiment, in the checking process, the server can automatically identify abnormal information which does not meet the preset condition of the information of each checking condition element dimension, and send the abnormal information to the terminal to prompt the user. It will be appreciated that, for example, if the server recognizes that the user is not servicing the inspection equipment within a time frame in which the inspection equipment needs servicing, the user is prompted by a pop-up box on the visual interface of the terminal when the inspection personnel use the inspection equipment: "the instrument needs maintenance and the test result may be incorrect! ".

In this embodiment, when any link in the inspection process goes wrong or an inspection result goes wrong, the related information of each inspection element dimension involved in the inspection process can be traced back in an automatic tracing manner, and specific problem elements causing the problems and specific links of the problem elements appearing in the inspection process under the element dimension are found out. In the inspection process, the server can prompt the user for the information of each inspection element dimension which causes the condition that the server is not in accordance with the preset condition, so that the information of each abnormal inspection condition element dimension is prevented from influencing the inspection result, and the accuracy of the detection result is improved.

For convenience of understanding, the relationship between the detection condition elements will be described by taking the object to be examined as a specimen. It will be appreciated that a complete test involves the detection of one or more indicators of the specimen, each indicator having a corresponding test term. The terminal is provided with a checking information entry interface, a checking person can input account information on the interface to log in through an account, so that related information generated under each checking condition element dimension in the checking process aiming at the checking item is entered on the checking information entry interface, and the operation information of the checking person on the checking information entry interface can be sent to the server by the terminal. The server associates the received operation information with the person information of the inspector. It is understood that the examination items of the specimen are examined by a standard examination procedure file and a reference procedure standard file, i.e., the examination items of the specimen are associated with the corresponding files. It will be appreciated that where the testing person performs a testing operation on the test items of the specimen, the files associated with the test items will be indirectly linked to the personnel information of the testing person.

When the testing person tests the respective test device for the test items of the specimen, the test device can send the information of the tests to the server. It can be understood that, for example, the check out equipment can check out the consumptive material basic information of the consumptive material that the check out item used to with consumptive material basic information transmission to server, the server is associated the consumptive material basic information received to the equipment basic information of check out equipment, promptly, this consumptive material basic information can directly be associated to corresponding equipment basic information, consumptive material basic information and equipment basic information all can indirectly be associated to inspection personnel's personnel information.

The information verified by the verification device may include the verification result of the verification item. The server sends the inspection result to the terminal, the terminal can show the inspection result at the inspection information entry interface, the inspection personnel carry out analysis to the inspection result, the problem that the inspection result appears is entered at the inspection information entry interface, the terminal responds to the entry operation of the inspection personnel, the problem that the inspection result appears is sent to the server, the server stores the problem that the inspection result appears, namely the problem that the inspection result appears can directly be associated to the personnel information of the inspection personnel.

The server can send an environment detection instruction to the monitoring device after receiving the inspection information sent by the inspection device, and the monitoring device responds to the environment detection instruction, detects the environment information of the current physical position of the specimen, and sends the environment information to the server. The server stores the environmental information, and can understand that the environmental information is the environmental information of the physical position where the specimen is located when the specimen is tested according to the test item of the specimen, namely the environmental information can be directly related to the test item of the specimen, and the consumable information, the test equipment information, the personnel information and the file information related to the test item of the specimen generate an indirect association relation.

In this embodiment, the server can establish a complete association relationship among personnel, equipment, consumables, documents, and environments for the information entered by the dimension of each inspection condition element in the inspection process, thereby realizing data sharing among the inspection condition elements. When problems occur in the inspection process or inspection results occur, the comprehensive tracing of the inspection results can be realized based on the incidence relation among the element information of each inspection condition, the reasons influencing the accuracy of the inspection results can be accurately found, and the accuracy of the inspection results is improved.

In one embodiment, the user can manually determine the problem of the inspection result and trace the problem of the inspection result.

Specifically, the terminal has a tracing interface, and the terminal can respond to the operation of the user on the tracing interface and acquire the tracing condition information input by the user on the tracing interface. The terminal sends the obtained tracing condition information to the server, and the server can trace back the received tracing condition information according to the incidence relation established among the information of each checking condition element dimension in advance and the stored related information of each checking condition element dimension in the checking process, search the problem element and the link where the problem element is located in the checking process, and generate a suspicious problem analysis report according to the tracing result. And the server sends the suspicious problem analysis report to the terminal, and the terminal displays the suspicious problem analysis report to the user through a visual interface.

The tracing condition information refers to condition information obtained by analyzing problems of a user in manual judgment of inspection results. It can be understood that, the user analyzes the problem occurring in the inspection result, and can obtain the suspicious element causing the problem occurring in the inspection result, so as to set the tracing condition corresponding to the suspicious element.

In one embodiment, the server can send the related information traced back by the tracing condition information under each inspection element dimension to the terminal for display to the user, and the user can judge the problem element by himself according to the related information traced back under each inspection element dimension.

In one embodiment, the test device and the consumable have identification codes, which may include at least one of a number and a bar code, for uniquely identifying the test device and the consumable. It can be understood that, taking the inspection device as an example, the identification code of the inspection device is a serial number, the user can input the serial number of the inspection device on the tracing interface of the terminal, the terminal sends the serial number to the server, and the server can trace the problems of the inspection device and the time of the problems according to the received serial number.

In this embodiment, when a user finds that any link in the inspection process is in a problem or an inspection result is in a problem, the information of each inspection condition element related to the inspection process can be traced by a condition tracing manner, and a specific element causing the problem and a specific link in the inspection process in which the element appears are found out.

In one embodiment, the collation information tracing method is realized by creating a collation information tracing system. The inspection information tracing system is developed by adopting a J2EE (Java 2Platform Enterprise development) architecture, adopts a read-write separation technology for a database in the server, and applies a load balancing strategy to store data.

The read-write separation technology is a common database architecture, in which a database is divided into a master library and a slave library, one master library is used for writing data, a plurality of slave libraries complete data reading operation, and the master library and the slave library synchronize data through a certain mechanism. The load balancing policy is to balance and distribute loads (work tasks) to a plurality of operation units for operation, such as an FTP server, a Web server, an enterprise core application server, and other main task servers, so as to cooperatively complete the work tasks.

In this embodiment, J2EE can provide a good mechanism for building an enterprise system with scalability, flexibility, and easy maintainability, support good scalability, and ensure that the system achieves optimal performance. The access amount and the concurrency amount of the read data in the application can be improved to the maximum extent by adopting a read-write separation technology for the database. The load balancing strategy can reduce the access load of a single server and reduce the possibility of downtime. Good expandability is supported, and the system is ensured to achieve the optimal performance.

In one embodiment, the inspection information tracing system is deployed based on a browser and server architecture mode, the servers are deployed in the cloud and the local, and the local and the cloud can back up server data in real time.

The browser and server architecture mode is a network architecture mode, and can unify clients and centralize core parts for realizing system functions on a server. It can be understood that in this mode, the user only needs to install the maintenance server, and the client uses the browser to run the software.

In the embodiment, the core part for realizing the function of the inspection information tracing system is centralized on the server, so that the development, maintenance and use of the system are simplified. The server data can be backed up locally and in a cloud in real time, data loss can be prevented, and the server data can be called under any condition.

It should be understood that, although the steps in the flowchart of fig. 2 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 a portion of the steps in fig. 2 may include multiple steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, which are not necessarily performed in sequence, but may be performed in turn or alternately with other steps or at least a portion of the other steps or stages.

In one embodiment, the server may further perform eligibility identification on the inspection condition elements corresponding to the inspection condition element dimensions based on preset conditions and entered information;

and if the unqualified inspection condition elements are identified, generating a corresponding prompt.

In one embodiment, as shown in fig. 4, there is provided a traceability device 400 for checking information, comprising: an obtaining module 402, an association relationship establishing module 404 and a problem tracing module 406, wherein:

an obtaining module 402, configured to obtain information entered for dimensions of inspection condition elements involved in inspection; the inspection condition element dimension comprises at least two of a personnel dimension, an equipment dimension, a consumable dimension, a file dimension and an environment dimension; the information comprises related information which is generated under the dimension of each inspection condition element in the inspection process and needs to be traced.

And an association relationship establishing module 404, configured to establish an association relationship between information of each inspection condition element dimension.

And the problem tracing module 406 is configured to, when a problem occurs in the inspection process or an inspection result has a problem, trace a problem element causing the problem from the information of each inspection condition element dimension based on a pre-established association relationship, and locate a link in which the problem element is located in the inspection process.

In one embodiment, the inspection condition element dimension includes a personnel dimension. The obtaining module 402 is further configured to obtain the entered inspection operation information in the staff dimension and the related information of the inspection staff after logging in through the inspection staff account.

In one embodiment, the check condition element dimension includes a device dimension. The information entered for the device dimension includes device grounding information and device detection records. The obtaining module 402 is further configured to obtain the device basic information entered in the device information entry interface. The obtaining module 402 is further configured to trigger accuracy detection on the inspection device to obtain a device detection record when the device detection condition is met.

In one embodiment, the inspection condition element dimension includes a consumable dimension. The information entered for the consumable dimension includes consumable basic information and consumable circulation records corresponding to the consumable identification. The obtaining module 402 is further configured to obtain the basic information of the consumable part entered in the device information entry interface. The obtaining module 402 is further configured to record each node where the consumable part passes through in the consumable part circulation process, so as to obtain a consumable part circulation record.

In one embodiment, the verification condition element dimension includes a document dimension. The information entered for the file dimension includes the file associated with the verification and the record of operations performed on the file. The obtaining module 402 is further configured to obtain the uploaded file related to the verification if an operation request for uploading the file is received. The obtaining module 402 is further configured to perform at least one of downloading, examining, previewing, online editing, and reviewing if receiving at least one of operation requests for downloading, examining, previewing, online editing, and reviewing the file. The obtaining module 402 is further configured to store an operation record corresponding to the operation processing performed on each operation request.

In one embodiment, the verification condition element dimension includes an environment dimension. The information entered for the environment dimension includes environmental information where the monitored object is located. The obtaining module 402 is further configured to locate the current physical position of the monitored object in real time based on the identification code corresponding to the monitored object. The obtaining module 402 is further configured to determine a monitoring device corresponding to the current physical location according to a preset correspondence between the physical location and the monitoring device. The obtaining module 402 is further configured to monitor the environmental information of the current physical location according to the determined monitoring device, obtain the environmental information of the monitored object, and record the environmental information.

In one embodiment, the issue trace back module 406 is further configured to enter an auto trace back mode in response to an auto mode on command. The problem tracing module 406 is further configured to, in the automatic tracing mode, identify a problem occurring in the inspection result according to a preset condition, and trace a problem element causing the problem from information of each inspection condition element dimension based on a pre-established association relationship, and locate a link in which the problem element is located in the inspection process.

The inspection information tracing device acquires information input aiming at the dimension of the inspection condition elements involved in the inspection, establishes an incidence relation among the information of the dimension of each inspection condition element, and traces problem elements causing problems from the information of the dimension of each inspection condition element and positions links where the problem elements are located in the inspection process based on the incidence relation established in advance when problems occur or inspection results occur in the inspection process. Through establishing complete incidence relation among personnel, equipment, consumables, files and environments, data sharing among all element records is realized, when problems occur in the inspection process or the result, which link of which element specifically occurs the problem can be traced, the comprehensive tracing of the inspection result is realized, the reason influencing the accuracy of the inspection result is accurately found, and the accuracy of the inspection result is improved.

For specific limitations of the tracing device for the verification information, reference may be made to the above limitations of the verification information tracing method, which are not described herein again. The modules in the above tracing device for checking information can be wholly or partially realized by software, hardware and their combination. 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 server, the internal structure of which may be as shown in fig. 5. The computer device includes a processor, a memory, and a network interface 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, a computer program, and a database. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The database of the computer device is used for storing information of each check condition element dimension. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program is executed by a processor to implement a verification information tracing method.

In one embodiment, a computer device is provided, which may be a 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 implement a verification information tracing 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.

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 related to 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 examples 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 method for tracing inspection information, the method comprising:

2. The method of claim 1, wherein the inspection condition element dimensions include a people dimension;

3. The method of claim 1, wherein the inspection condition element dimensions include a device dimension; the information input aiming at the equipment dimension comprises equipment basic information and equipment detection records;

4. The method of claim 1, wherein the inspection condition element dimensions include a consumable dimension; the information input aiming at the consumable dimension comprises consumable basic information and a consumable circulation record corresponding to the consumable identification;

acquiring the basic information of the consumable input in a consumable information input interface;

5. The method of claim 1, wherein the inspection condition element dimensions include a document dimension; the information input aiming at the file dimension comprises a file related to the inspection and an operation record for operating on the file;

6. The method of claim 1, wherein the inspection condition element dimensions include an environment dimension; the information input aiming at the environment dimension comprises environment information where a monitoring object is located;

7. The method of claim 1, further comprising:

8. A traceability device for checking information, the device comprising:

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.