CN113009163B

CN113009163B - Analysis system for sample analyzer and sample analyzer

Info

Publication number: CN113009163B
Application number: CN201911329089.5A
Authority: CN
Inventors: 尹剀
Original assignee: Shenzhen Dymind Biotechnology Co Ltd
Current assignee: Shenzhen Dymind Biotechnology Co Ltd
Priority date: 2019-12-20
Filing date: 2019-12-20
Publication date: 2023-02-17
Anticipated expiration: 2039-12-20
Also published as: CN113009163A

Abstract

The embodiment of the invention discloses an analysis system for a sample analyzer, which comprises a host module and an IPU module in communication connection with the host module; the host module comprises a first interface coding unit; the IPU module comprises a second interface rendering unit; wherein: the first interface coding unit codes interface data according to analysis result data corresponding to the sample analyzer to generate target interface data; and the second interface rendering unit renders according to target interface data so as to display an interface corresponding to the target interface data on a display interface of the IPU module. In addition, the embodiment of the invention also discloses a sample analyzer. By adopting the invention, the loss rate of the analysis result data can be reduced, and the data accuracy and safety can be improved.

Description

Analysis system for sample analyzer and sample analyzer

Technical Field

The invention relates to the technical field of medical equipment, in particular to an analysis system for a sample analyzer and the sample analyzer.

Background

The blood cell analyzer is an instrument widely applied to clinical examination in hospitals, and a sample analysis system and a data processing system of the blood cell analyzer are respectively a host module and an IPU information processing system at an instrument end. In the related technical solution, because the storage space and the computing power of the host are limited, the storage of the analysis result data is not performed at the host end, or only a small amount of analysis data is stored, but most of the analysis result data is stored at the IPU end. That is to say, after the host module completes the detection and analysis process, the analysis result data is sent to the IPU end for storage, data analysis and data display.

However, in this case, the IPU end corresponding to the analyzer is generally fixed and cannot be replaced at will, and once the equipment corresponding to the IPU end is replaced, the analysis result data is stored in the IPU end, which may cause the loss of the analysis result data. And if the communication connection between the host and the IPU end is in a problem, the analysis result data cannot be sent in time, the host cannot store the data, data loss may occur, or the host module needs to suspend subsequent analysis operation to wait for the analysis result data to be successfully generated before continuing to execute subsequent analysis tasks.

That is, in the above-described related art scheme:

1. because the data is stored at the IPU end, the frequency of data loss of the analysis result is high, and the overall data accuracy of the analyzer is influenced;

2. after the analysis result data is acquired, the analysis result data needs to be sent to the IPU end through the communication connection between the host module and the IPU end, and subsequent analysis tasks cannot be executed under the condition that the data is not sent successfully, so that the working efficiency of the analyzer is low.

Disclosure of Invention

In view of the above, it is necessary to provide an analysis system for a sample analyzer and a sample analyzer.

An analysis system for a sample analyzer, the system comprising a host module and an IPU module communicatively connected to the host module;

the host module comprises a first interface coding unit;

the IPU module comprises a second interface rendering unit;

wherein:

the first interface coding unit codes interface data according to analysis result data corresponding to the sample analyzer to generate target interface data;

and the second interface rendering unit renders according to the target interface data so as to display an interface corresponding to the target interface data on a display interface of the IPU module.

Wherein the host module further comprises a data storage unit storing analysis result data of the sample analyzer;

the data storage unit is a memory space, a hard disk storage area, an external storage device connected with the host module, or a data server connected with the host module.

The data storage unit is connected with the cloud server of the host module;

and the host module uploads the analysis result data to the cloud server.

After the analysis result data is obtained, the host module stores the analysis result data into a memory space/hard disk storage area corresponding to the host module;

and/or the host module synchronizes the analysis result data stored in the memory space/hard disk storage area to the cloud server.

The data storage unit further comprises a configuration file storage subunit for storing a configuration file.

The host module also comprises a data processing unit which is used for calculating and processing the analysis result data so as to enable the analysis result data to be directly used for interface display.

The host module also comprises a control unit which controls the host module to execute analysis operation and acquire corresponding analysis result data;

the control unit comprises an authority control subunit, receives a user identity authentication request input by a user through an IPU module, and determines user identity information contained in the user identity authentication request; and performing identity authentication according to the user identity information, and determining the user authority corresponding to the user identity information which passes the authentication under the condition that the authentication passes.

The IPU module further comprises a second communication unit;

the IPU module receives user input, generates a corresponding data interaction instruction according to the user input, and sends the data interaction instruction to the first communication unit through the second communication unit;

the control unit controls the first interface coding unit to generate a target display interface corresponding to the data interaction instruction according to the data interaction instruction, and the target display interface is sent to the second communication unit through the first communication unit, so that the second interface rendering unit renders the target display interface.

The data interaction instruction is a data display instruction;

the IPU module receives an input data display instruction and sends the data display instruction to the first communication unit through the second communication unit;

and the control unit acquires target display data corresponding to the data display instruction from the data storage unit according to the data display instruction, and codes the target display data through the first interface coding unit to generate the target display interface.

Wherein, the system comprises at least 2 IPU modules connected with the host computer module.

A sample analyzer comprising a sample analyzer and an analysis system as described above for the sample analyzer, wherein the host module is disposed on the sample analyzer and the IPU module is disposed on a computer device electrically connected to the sample analyzer.

The embodiment of the invention has the following beneficial effects:

after the analysis system for the sample analyzer and the sample analyzer are adopted, functions of data processing, interface display coding and the like are integrated in the host module, and only an interface rendering function is configured in the IPU module, so that under the condition that communication connection between the host module and the IPU module is in a problem, data transmission failure or data loss caused by communication connection failure or data loss caused by equipment replacement corresponding to the IPU module can be avoided, and the integrity and the accuracy of analysis result data are improved.

Furthermore, all analysis result data of the sample analyzer are stored in the data storage unit of the host module, and the analysis result data do not need to be sent to other equipment, so that the waiting condition that the data are not sent successfully and need to be carried out is avoided, the problem of low working efficiency caused by the fact that the execution of other tasks is suspended due to the fact that the sending of the analysis result data needs to be waited is avoided, the working efficiency of the sample analyzer is improved, and the user experience is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Wherein:

FIG. 1 is a schematic diagram of an analysis system for a sample analyzer in one embodiment;

FIG. 2 is a schematic diagram of an analysis system for a sample analyzer in one embodiment;

FIG. 3 is a schematic diagram of an analysis system for a sample analyzer in one embodiment;

FIG. 4 is a block diagram of a host module in one embodiment;

FIG. 5 is a schematic diagram of a host module in one embodiment;

FIG. 6 is a schematic diagram of a data storage unit in one embodiment;

FIG. 7 is a schematic diagram of a control unit according to an embodiment;

FIG. 8 is a schematic diagram of an analysis system for a sample analyzer in one embodiment;

fig. 9 is a schematic diagram of a sample analyzer in one embodiment.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In this embodiment, an analysis system for a sample analyzer is provided, which can reduce the loss rate of analysis result data in the sample analyzer and improve the work efficiency of the sample analyzer by changing the functional design and communication mode between a host module and an IPU module included in the analyzer.

The analysis system for a sample analyzer is based on a sample analyzer, wherein the sample analyzer may be a medical test device such as a blood analyzer, for example, a sample analyzer device such as an immunoassay analyzer, a biochemical analyzer, a blood cell analyzer, a blood coagulation analyzer, and the like. As shown in fig. 1, an analysis system 10 for a sample analyzer includes a host module 20 and an IPU module 30 communicatively coupled to the host module 20. The host module 20 is a computer device integrated on the analyzer device, such as a single chip microcomputer or other computer devices or systems. The IPU module 30 is a computer device connected to the host module 20, for example, for displaying analysis result data obtained by analyzing a sample by the analyzer, and a user can input an instruction through the IPU module to control the analyzer.

In a specific embodiment, the IPU module is an information processing system connected to a host, and in general, the IPU module is used for storing and processing data of the sample analyzer, and a user can perform interface interaction through the IPU module. In a particular embodiment, the IPU module may be a DPS system (data processing system), or referred to as an information processing system.

Specifically, as shown in fig. 2, the host module includes a first interface encoding unit 203. The first interface coding unit 203 codes the interface data of the analysis result data according to the requirement of interface display of the analysis result data of the sample analyzer, and generates coded target interface data; in the subsequent display of the target interface data, data processing or other operations except page rendering are not needed, and only the encoded target interface data are needed to be rendered.

As shown in fig. 2, the IPU module 30 includes a second interface rendering unit 301. The second interface rendering unit 302 performs rendering according to the target interface data, so as to display an interface corresponding to the target interface data on the display interface of the IPU module.

In the analysis system for the sample analyzer, only the interface rendering function is provided in the IPU module 30, and other functions such as interface interaction, interface coding, and the like are integrated in the host module 20. Therefore, when there is a problem in the communication connection between the host module 20 and the IPU module 30, the data transmission failure or data loss caused by the communication connection failure or the data loss caused by the replacement of the device corresponding to the IPU module may not occur, and the integrity and accuracy of the analysis result data may be improved.

Further, as shown in fig. 3, the host module further includes a data storage unit 201, a control unit 202, and a first communication unit 204. The control unit 202 controls the host module 20 to perform analysis operations and obtain analysis result data; i.e., control each module or component connected with the host module 20 to perform a corresponding task to complete the execution of the analysis task, thereby obtaining corresponding analysis result data. The data storage unit 201 is used to store analysis result data. The first communication unit 204 is a communication unit in the host module, and the host module 20 communicates with other devices, for example, data transmission with the IPU module and data communication with other external devices, through the first communication unit 204.

As shown in fig. 3, the IPU module 30 further includes a second communication unit 302. The second communication unit 302 is a communication unit of the IPU module 30, and the IPU module 302 performs data transmission with the host module 20 or performs communication with other external devices through the second communication unit 302.

In a specific embodiment, after the host module 20 finishes encoding the target interface data, the first communication unit 204 sends the target interface data to the second communication unit 302, and then the IPU module 30 renders the target interface data through the second interface rendering unit 301, so as to display an interface corresponding to the target interface data on the device side corresponding to the IPU module.

In the analysis system for the sample analyzer, the control function, the data storage function, the interface interaction function, and other functions are integrated in the host module 20, and only the interface rendering function is provided in the IPU module 30. Therefore, under the condition that the communication connection between the host module 20 and the IPU module 30 is in a problem, the situations of data transmission failure or data loss caused by the communication connection failure or data loss caused by the replacement of the equipment corresponding to the IPU module and the like are avoided, and the integrity and the accuracy of the analysis result data are improved.

Further, in this embodiment, the host module 20 is provided with a data storage unit, so that the analysis result data does not need to be sent to other devices, and waiting is not needed because the data is not successfully sent yet, thereby avoiding the problem of low working efficiency caused by suspending execution of other tasks due to the need of waiting for sending of the analysis result data.

It should be noted that, in the related art, because a plurality of functions such as control, data storage, interface interaction, etc. are dispersed in the host module and the IPU module, and a certain function repetition or cooperation exists between the host module and the IPU module, data transmission needs to be performed through a communication protocol when the host module and the IPU module access each other. Moreover, in order to implement the corresponding functions, frequent data communication between the host module and the IPU module is required, and the requirements of data communication under different services are different, which results in that the communication protocol between the host module and the IPU module is not only simple data transmission. In this embodiment, all functions are integrated in the host module 20, and the host module 20 only needs to send encoded target interface data and operation data of a user for operating an interface through communication connection with the IPU module 30, so that requirements on data transmission and a communication protocol are simple, and requirements on communication between the host module and the IPU module 30 are reduced.

With the development of computer technology, the functions of computer devices (e.g., a single chip microcomputer, or a microcomputer) integrated in an analyzer apparatus are increasingly powerful, so that more and more functions are implemented in the host module 20. In the present embodiment, the implementation of the scheme for changing the functional design and communication mode between the host module and the IPU module in the sample analyzer in the analysis system for the sample analyzer is based on the development of computer technology.

In this embodiment, the processing of the data from the analysis result data obtained by executing the analysis task to the target interface data includes not only the encoding of the interface but also the processing of the analysis result data. For example, according to a preset method or algorithm, the analysis result data is processed to obtain data meeting preset requirements, and the corresponding data can be directly used for display or other data analysis. Specifically, as shown in fig. 4, the host module 20 further includes a data processing unit 205 for calculating and processing the analysis result data. The data processing unit 205 can analyze and process the analysis result data, so that the analysis function of the data in the host module 20 is richer and more powerful, and the method can adapt to more scenes of sample analysis and data analysis.

For example, the data storage unit 201 needs to store a large amount of analysis result data, and the storage of the analysis result data may be implemented by configuring a hard disk storage device with a large capacity based on a hard disk storage area in the host module 20. And the analysis result data is stored through the hard disk storage area, and the permanent storage performance of the hard disk storage area is utilized, so that the safety of the analysis result data storage is improved.

With the execution of the analysis task, the data amount of the analysis result data stored in the host module 209 may be very large, and the storage requirement may not be satisfied even if the data is stored by a hard disk storage device. In one embodiment, the data storage unit 201 may also be an external storage device connected to the host module 20, for example, an external storage device. The capacity expansion of the external storage device is simpler than that of the hard disk storage device, and under the condition that the storage space is insufficient, the capacity expansion of the storage space can be simply realized through the external storage device.

In another embodiment, as shown in fig. 5, the data storage unit 201 may also be a data server connected with the host module, for example, a cloud server. The storage capacity of a data server such as a cloud server is larger than that of a hard disk storage device or an external storage device, and the capacity expansion is simpler, and the storage of analysis result data in an ultra-large capacity can be realized by storing the analysis result data in the data server. That is, after the control unit 202 of the host module 20 acquires the analysis result data, the analysis result data is uploaded to the data server to be stored.

It should be noted that, in this embodiment, in the case that the data storage unit 201 may also be a data server connected to the host module, it is not necessary that the analysis result data is uploaded to the data server immediately after the analysis result data is acquired. After the analysis result data is obtained, the analysis result data is stored in the memory space or the hard disk storage area in the host module 20; and then, according to a certain period duration or data volume requirement, synchronizing the analysis result data stored in the memory space or the hard disk storage area to the cloud server.

The data storage unit in the host module 20 not only stores analysis result data, but also includes configuration files or other files required by the analyzer or the host module during operation. In the related technical scheme, most of the configuration files are stored in the host module, and a small amount of the configuration files are stored in the IPU module; in this embodiment, since the function of the IPU module 30 is limited to rendering the interface according to the encoded target interface data, no configuration file is needed, and therefore, the configuration files are stored in the host module 20. The specific implementation is completed by a configuration file storage subunit 2011 included in the data storage unit shown in fig. 6.

The security level of the host module 20 is much higher than that of the IPU module 30, and therefore, the storage of the configuration file in the host module 20 can improve the security of the configuration file, and improve the system security and the data security.

In one embodiment, the IPU module 30 can be used not only for rendering the encoded interface data of the host module, but also for receiving a relevant instruction input by a user at a device corresponding to the IPU module, for example, a confirmation instruction, a data feedback instruction, or a data display instruction.

In a specific embodiment, when the IPU module displays the relevant target interface data, or in other cases, the user may input a corresponding instruction through the input device according to a requirement, so as to request the corresponding data or interface from the host module 20.

Specifically, the IPU module 30 receives a user input, generates a corresponding data interaction command according to the user input, and sends the data interaction command to the first communication unit 204 through the second communication unit 302, so as to send the data interaction command to the host module 20. Then, in the host module 20, the control unit 202 controls the first interface encoding unit 203 to generate a target display interface corresponding to the data interaction instruction according to the data interaction instruction, and sends the target display interface to the second communication unit 302 through the first communication unit 204, so that the second interface rendering unit 301 renders the target display interface.

In this embodiment, a user can make a request for data or a task from the host module 20 through the IPU module 30, so as to satisfy different user requirements for task processing and data of the analyzer, thereby greatly improving user experience.

In a specific embodiment, the data interaction instruction is a data presentation instruction; a user may request the required data from the host module 20 via a data presentation instruction for presentation in the IPU module 30.

When the IPU module displays the relevant target interface data, or in other cases, the user may input a data display instruction through the input device according to the requirement, so as to request the host module 20 for the corresponding data.

Specifically, the IPU module 30 receives an input data display instruction and sends the data display instruction to the first communication unit 204 of the host module 20 through the second communication unit 302; after the host module 20 receives the data display instruction, the data display instruction is analyzed, then the control unit 202 obtains target display data corresponding to the data display instruction from the data storage unit 201, the target display data is encoded through the first interface encoding unit 203 to generate a target display interface, and the target display interface is sent to the second communication unit 302 of the IPU module 30 through the first communication unit 204, so that the second interface rendering unit 201 renders the target display interface to complete the response to the data display instruction.

In this embodiment, a user may request the host module 20 for needed data through the IPU module 30, so as to satisfy different data requirements of different users, and greatly improve user experience.

The control unit 202 included in the host module 20 may control each component of the host module 20 to perform a corresponding analysis task to obtain analysis result data; specifically, the implementation of the control function of this part may be performed based on the operation control subunit 2021 of the control unit 202. As shown in fig. 7, the control unit 202 further includes an operation control subunit 2021.

In another embodiment, the control unit 202 may also include other control sub-units. Specifically, as shown in fig. 7, the control unit 202 includes a right control subunit 2022, and the right control subunit 2022 is configured to perform authentication on a user of the analysis system for the sample analyzer, so as to determine whether the current user has the right to perform the current operation.

Specifically, the permission control subunit 2022 receives a user identity authentication request input by the user through the IPU module 30, determines user identity information included in the user identity authentication request, then performs identity verification according to the user identity information, and determines a user permission corresponding to the user identity information that is verified when the user identity authentication request passes the verification. In specific implementation, during the operation process of the user, the user needs to perform identity authentication through the corresponding user login module, and then the host module 20 verifies the identity of the user and determines the corresponding user right. The user authority includes administrator authority, general user authority and the like. The safety of the system and data can be improved by verifying the user identity; and through the definition of the user authority, different user authorities can be set according to different user requirements, different operation authorities are provided for different users on the premise of guaranteeing the system safety, and the user experience is improved.

As described above, since the control function, the data storage function, the interface interaction function, and other functions are integrated in the host module 20, the data loss caused by the replacement of the corresponding device of the IPU module will not occur. Furthermore, because the functions configured in the IPU module only include the function of interface rendering, the requirement for the device corresponding to the IPU module is lower, and the difference of the effect achieved by the IPU module due to the difference of the device configuration or performance is not caused. Moreover, the IPU module is not provided with functions such as data storage and the like, and equipment corresponding to the IPU module can be replaced. Under the condition of replacing the equipment corresponding to the IPU module, only the preset software is required to be installed on the equipment and the communication connection between the equipment and the host module is established.

In another alternative embodiment, multiple IPU modules 30 may also be connected to one host module 20. As shown in fig. 8, the host module 20 is connected to a plurality of IPU modules 30. Under the condition that the host module 20 is connected with the plurality of IPU modules 30, the plurality of IPU modules 30 may be undifferentiated, and under the condition that the IPU modules are running, the plurality of IPU modules may be used to display the target interface data encoded by the host module 20, and the target interface data displayed on different IPU modules are the same. In another embodiment, different IPU modules may correspond to different analysis tasks in the host module 20, and are used to display analysis result data corresponding to the analysis tasks corresponding to the IPU modules.

In one embodiment, there is also provided a sample analyzer comprising a sample analysis device and an analysis system for a sample analyzer as described above. As shown in fig. 9, in the sample analyzer 100, the host module 20 corresponds to the sample analyzer 200, and the IPU module 30 corresponds to a computer device 300 electrically connected to the sample analyzer 200. The host module 20 controls the sample analyzer 200 to execute an analysis task, and then each functional module in the host module 20 completes analysis, processing, storage of analysis result data corresponding to the analysis task and encoding of interface data, and then sends the analysis result data to the IPU module 30, and the IPU module 30 renders an interface and displays the interface in a display interface of the computer device 300.

By adopting the embodiment of the invention, the following beneficial effects are achieved:

after the analysis system for the sample analyzer and the sample analyzer are adopted, functions of data processing, interface display coding and the like are integrated in the host module, and only an interface rendering function is configured in the IPU module, so that under the condition that communication connection between the host module and the IPU module is in a problem, data transmission failure or data loss caused by communication connection failure or data loss caused by equipment replacement corresponding to the IPU module can be avoided, and the integrity and accuracy of analysis result data are improved.

Furthermore, all analysis result data of the analyzer are stored in the data storage unit of the host module, and the analysis result data do not need to be sent to other equipment, so that the waiting caused by the fact that the data are not sent successfully and need to be sent is avoided, the problem of low working efficiency caused by the fact that the execution of other tasks is suspended due to the fact that the sending of the analysis result data needs to be waited is avoided, the working efficiency of the analyzer is improved, and the user experience is improved.

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 specific and detailed, but not construed as limiting the scope of the present application. 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. An analysis system for a sample analyzer, the system comprising a host module and an IPU module communicatively coupled to the host module;

the host module comprises a first interface coding unit;

the IPU module comprises a second interface rendering unit;

wherein:

the first interface coding unit codes interface data according to analysis result data corresponding to the sample analyzer to generate target interface data, wherein the target interface data are coded data which can be displayed only by rendering the target interface data when the target interface data are displayed;

the second interface rendering unit renders according to target interface data so as to display an interface corresponding to the target interface data on a display interface of the IPU module;

2. The system of claim 1, wherein the host module further comprises a data storage unit that stores analysis result data of the sample analyzer;

3. The system of claim 2, wherein the data storage unit is a cloud server connected to the host module;

and the host module uploads the analysis result data to the cloud server.

4. The system according to claim 3, wherein after the analysis result data is obtained, the host module stores the analysis result data into a memory space/hard disk storage area corresponding to the host module;

5. The system of claim 2, wherein the data storage unit further comprises a profile storage subunit storing a profile.

6. The system of claim 1, wherein the host module further comprises a control unit for controlling the host module to perform the analysis operation to obtain the corresponding analysis result data;

7. The system of claim 6, wherein the host module further comprises a first communication unit, the IPU module further comprises a second communication unit;

8. The system of claim 7, wherein the data interaction instruction is a data presentation instruction;

and the control unit acquires target display data corresponding to the data display instruction from a data storage unit according to the data display instruction, and codes the target display data through the first interface coding unit to generate the target display interface.

9. The system of claim 1, comprising at least 2 IPU modules connected to the host module.

10. A sample analyzer comprising a sample analysis device and the system of any of claims 1-9, wherein the host module is disposed on the sample analysis device and the IPU module is disposed on a computer device electrically connected to the sample analysis device.