CN113919288A - Blood analyzer, sample numbering method, and computer-readable storage medium - Google Patents

Abstract

The embodiment of the application discloses a blood analyzer, a sample numbering method and a computer readable storage medium, wherein a sample numbering setting interface can be displayed, and at least an information editing area is included in the sample numbering setting interface; receiving a grouping strategy corresponding to each group input in the information editing area; and when a sample to be numbered is received, numbering the sample according to the grouping strategy of the group to which the sample belongs. According to the scheme, the samples are rapidly and accurately numbered based on the grouping strategy of the group to which the samples belong, and the efficiency of numbering the samples is improved.

Description

Blood analyzer, sample numbering method, and computer-readable storage medium

Technical Field

The present application relates to the field of medical device technology, and in particular, to a blood analyzer, a sample numbering method, and a computer-readable storage medium.

Background

At present, a blood analyzer can be used for testing a sample, before the sample is tested on a machine, an operator needs to perform sample signing operation, specifically, the operator needs to set a sample number on the blood analyzer, manually copy the number generated on the blood analyzer on a sample tube, and if the sample needs to be numbered in groups, each operator must manually adjust the number of the group each time, which causes the manual number adjustment to be troublesome. In addition, when the sample grouping is switched, the setting needs to be modified again manually, and particularly when a plurality of devices are watched by one person at the same time, the serial number needs to be modified manually frequently, so that the efficiency is greatly reduced for the scene of frequently switching the sample grouping.

Disclosure of Invention

The embodiment of the application provides a blood analyzer, a sample numbering method and a computer readable storage medium, which can improve the efficiency of numbering samples.

In a first aspect, embodiments of the present application provide a blood analyzer including a sample processing component, a display, a memory, and a processor, wherein,

the sample processing part is used for processing a sample;

the display is used for displaying an interface;

the memory for storing a computer program;

the processor is configured to invoke the computer program in the memory to perform:

controlling the display to display a sample number setting interface, wherein the sample number setting interface at least comprises an information editing area, and the information editing area is used for inputting grouping strategies corresponding to each group;

and when a sample to be numbered is received, numbering the sample according to the grouping strategy of the group of the sample.

In a second aspect, an embodiment of the present application further provides a sample numbering method, including:

displaying a sample number setting interface, wherein the sample number setting interface at least comprises an information editing area;

receiving a grouping strategy corresponding to each group input in the information editing area;

and when a sample to be numbered is received, numbering the sample according to the grouping strategy of the group of the sample.

In a third aspect, an embodiment of the present application further provides a computer-readable storage medium, where the computer-readable storage medium is used to store a computer program, and the computer program is loaded by a processor to execute any one of the sample numbering methods provided in the embodiment of the present application.

According to the embodiment of the application, the sample number setting interface comprising the information editing area can be displayed through the display, the grouping strategy corresponding to each group can be input into the information editing area, and when the sample to be numbered is received, the sample can be numbered according to the grouping strategy of the sample group. According to the scheme, the samples are rapidly and accurately numbered based on the grouping strategy of the group to which the samples belong, and the efficiency of numbering the samples is improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic diagram of an architecture of a blood analyzer provided in an embodiment of the present application;

FIG. 2 is a schematic structural diagram of a blood analyzer provided in an embodiment of the present application;

fig. 3 is a schematic flowchart of a sample numbering method according to an embodiment of the present application;

FIG. 4 is a schematic diagram of a sample number setting interface provided by an embodiment of the present application;

FIG. 5 is another schematic diagram of a sample number setting interface provided by an embodiment of the present application;

FIG. 6 is another schematic diagram of a sample number setting interface provided by an embodiment of the present application;

FIG. 7 is a schematic diagram of a sample number setting interface display provided by an embodiment of the present application;

FIG. 8 is another illustration of a sample number setting interface display provided by an embodiment of the present application;

FIG. 9 is another illustration of a sample number setting interface display provided by an embodiment of the application;

FIG. 10 is another illustration of a sample number setting interface display provided by an embodiment of the present application;

FIG. 11 is another illustration of a sample number setting interface display provided by an embodiment of the present application;

FIG. 12 is another illustration of a sample number setting interface display provided by an embodiment of the present application;

FIG. 13 is another illustration of a sample number setting interface display provided by an embodiment of the application;

FIG. 14 is another illustration of a sample number setting interface display provided by an embodiment of the present application;

FIG. 15 is another illustration of a sample number setting interface display provided by an embodiment of the application;

FIG. 16 is another illustration of a sample number setting interface display provided by an embodiment of the present application;

FIG. 17 is another illustration of a sample number setting interface display provided by an embodiment of the application;

FIG. 18 is another illustration of a sample number setting interface display provided by an embodiment of the present application;

FIG. 19 is another illustration of a sample number setting interface display provided by an embodiment of the application;

FIG. 20 is another illustration of a sample number setting interface display provided by an embodiment of the application;

FIG. 21 is another illustration of a sample number setting interface display provided by an embodiment of the application;

FIG. 22 is another illustration of a sample number setting interface display provided by an embodiment of the application;

FIG. 23 is another illustration of a sample number setting interface display provided by an embodiment of the application;

FIG. 24 is a block diagram illustrating a sample number setting interface according to an embodiment of the present disclosure;

FIG. 25 is another illustration of sample number setting interface hiding as provided by an embodiment of the present application;

FIG. 26 is another illustration of sample number setting interface hiding as provided by an embodiment of the present application;

FIG. 27 is another illustration of sample number setting interface hiding as provided by an embodiment of the present application;

FIG. 28 is another illustration of a sample number setting interface display provided by an embodiment of the application;

FIG. 29 is another illustration of a sample number settings interface display provided by an embodiment of the application;

FIG. 30 is another illustration of a sample number setting interface display provided by an embodiment of the application;

FIG. 31 is another illustration of a sample number setting interface display provided by an embodiment of the application;

FIG. 32 is another illustration of a sample number setting interface display provided by an embodiment of the application;

FIG. 33 is another illustration of a sample number setting interface display provided by an embodiment of the application;

FIG. 34 is a schematic diagram of deletion of a region in an editable interface provided in an embodiment of the application;

FIG. 35 is another illustration of deletion of a region in an editable interface provided by an embodiment of the application;

FIG. 36 is a schematic diagram of a modification to a region in an editable interface provided by an embodiment of the application;

FIG. 37 is another illustration of a modification to a region in an editable interface provided by an embodiment of the application;

FIG. 38 is a schematic diagram illustrating the addition of regions to an editable interface provided by an embodiment of the application;

FIG. 39 is another illustration of an addition of a region in an editable interface provided by an embodiment of the application;

FIG. 40 is another illustration of an addition of a region in an editable interface provided by an embodiment of the application;

FIG. 41 is a schematic diagram of region movement in an editable interface provided in an embodiment of the application;

FIG. 42 is a schematic diagram of sample types entered in an information editing area as provided by an embodiment of the present application;

FIG. 43 is another schematic diagram of sample types entered in an information editing area as provided by an embodiment of the present application;

FIG. 44 is another illustration of sample types entered in an information editing area as provided by an embodiment of the present application;

FIG. 45 is another schematic diagram of sample types entered in an information editing area as provided by embodiments of the present application;

FIG. 46 is a diagram illustrating grouping policy settings corresponding to groups provided by an embodiment of the present application;

FIG. 47 is another illustration of grouping policy settings corresponding to groups provided by an embodiment of the present application;

FIG. 48 is another illustration of grouping policy settings corresponding to groups provided by an embodiment of the present application;

FIG. 49 is another illustration of grouping policy settings corresponding to groups provided by an embodiment of the present application;

FIG. 50 is another illustration of grouping policy settings corresponding to groups provided by an embodiment of the present application;

FIG. 51 is another illustration of grouping policy settings corresponding to groups provided by an embodiment of the present application;

fig. 52 is a schematic diagram illustrating deletion of a preset group in a sample number setting interface according to an embodiment of the present application;

fig. 53 is another schematic diagram illustrating deletion of a preset group in a sample number setting interface according to an embodiment of the present application;

fig. 54 is another schematic diagram illustrating deletion of a preset group in a sample number setting interface according to an embodiment of the present application;

fig. 55 is a schematic diagram illustrating adding preset groups in a sample number setting interface according to an embodiment of the present application;

fig. 56 is a schematic diagram illustrating a modification to a preset group in a sample number setting interface according to an embodiment of the present application;

FIG. 57 is another diagram illustrating modification of preset groups in a sample number setting interface according to an embodiment of the present application;

fig. 58 is a schematic diagram illustrating movement of preset groups in a sample number setting interface according to an embodiment of the present application;

FIG. 59 is a schematic illustration of hiding a sample number setting interface provided by an embodiment of the present application;

FIG. 60 is another illustration of the hiding of the sample number setting interface provided by an embodiment of the present application;

fig. 61 is another schematic diagram of hiding a sample number setting interface according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, 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 application.

The flow diagrams depicted in the figures are merely illustrative and do not necessarily include all of the elements and operations/steps, nor do they necessarily have to be performed in the order depicted. For example, some operations/steps may be decomposed, combined or partially combined, so that the actual execution sequence may be changed according to the actual situation.

Embodiments of the present application provide a blood analyzer, a sample numbering method, and a computer-readable storage medium. The sample numbering method can be applied to a blood analyzer and is used for displaying a sample number setting interface at least comprising an information editing area through a display, wherein the information editing area is used for inputting grouping strategies corresponding to each group; and when the samples to be numbered are received, numbering the samples according to the grouping strategy of the group to which the samples belong. Therefore, the samples can be numbered accurately and quickly based on the grouping strategy of the group to which the samples belong, and the efficiency of numbering the samples is improved.

Some embodiments of the present application will be described in detail below with reference to the accompanying drawings. The embodiments described below and the features of the embodiments can be combined with each other without conflict.

Referring to fig. 1, fig. 1 is a schematic block diagram of a blood analyzer according to an embodiment of the present disclosure. The blood analyzer is used to perform the sample numbering method provided in the examples of the present application.

As shown in fig. 1, the blood analyzer may include a sample processing part 10, a display 20, a memory 30, a processor 40, and the like, which will be described in detail below.

As shown in fig. 2, the blood analyzer 100 may further include a sampling device 50, a sample preparation device 60, and the like. The sampling device 50 has a pipette with a pipette nozzle (e.g., a sampling needle) and a driving unit for driving the pipette to quantitatively suck a blood sample to be tested through the pipette nozzle, wherein the sampling needle is driven by the driving unit to move to suck the blood sample to be tested from a sample container filled with the blood sample.

The sample preparation device 60 has at least one reaction cell and a reagent supply device (not shown). The at least one reaction cell is used for receiving a blood sample to be tested sucked by the sampling device 50, and the reagent supply device supplies a processing reagent to the at least one reaction cell, so that the blood sample to be tested sucked by the sampling device 50 and the processing reagent supplied by the reagent supply device are mixed in the reaction cell to prepare a sample liquid to be tested. In some embodiments, the reagent supply comprises a first reagent supply for supplying a leukocyte reagent, for example comprising a haemolysing agent capable of lysing erythrocytes in a blood sample and of differentiating between different leukocyte types, optionally also comprising a fluorescent reagent capable of staining leukocytes. In some embodiments, the reagent supply comprises a second reagent supply for supplying a red blood cell reagent, such as a diluent. In other embodiments, the reagent supply device includes a third reagent supply for supplying a hemoglobin reagent, such as a hemolytic agent capable of lysing red blood cells in the blood sample, releasing hemoglobin in the red blood cells, and converting hemoglobin into methemoglobin. In some embodiments, the leukocyte reagent and the hemoglobin reagent are the same hemolytic agent, i.e., the first reagent supply and the third reagent supply are the same reagent supply.

The sample processing unit 10 is configured to analyze (analysis may also be referred to as testing or detection) a sample to be tested prepared by the sample preparation device 60 to obtain an analysis result such as a blood parameter.

The display 20 is configured to display an interface, for example, a sample number setting interface including at least an information editing area, and the like, and the display 20 may also display an analysis result of the blood analyzer 20. The display 20 may be a touch screen, a liquid crystal display, an LED display, an OLED display, or the like, and the display 20 is a display integrated on the blood analyzer.

The Processor 40 may be a Central Processing Unit (CPU), and may be other general purpose Processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), a Field Programmable Gate Array (FPGA) or other Programmable logic device, discrete Gate or transistor logic, discrete hardware components, etc. Wherein a general purpose processor may be a microprocessor or the processor may be any conventional processor or the like.

The Memory 30 may be a volatile Memory (volatile Memory), such as a Random Access Memory (RAM); or a non-volatile Memory (non-volatile Memory), such as a Read Only Memory (ROM), a flash Memory (flash Memory), a Hard Disk (Hard Disk Drive, HDD) or a Solid-State Drive (SSD); or a combination of the above kinds of memories. The memory 30 is used to store computer programs that may provide instructions and data to the processor 40.

The processor 40 is configured to execute the computer program stored in the memory 30, and when executing the computer program, implement any one of the sample numbering methods provided in the embodiments of the present application, specifically, the following methods may be implemented:

in some embodiments, the processor 40 is configured to execute the control of the display 20 to display a sample number setting interface, where at least an information editing area is included in the sample number setting interface, and the information editing area is used to input a grouping policy corresponding to each group; and when the samples to be numbered are received, numbering the samples according to the grouping strategy of the group to which the samples belong.

In some embodiments, upon receiving a user input of sample information and/or numbering plan information within the information editing region, the processor 40 generates a grouping plan based on the sample information and/or numbering plan information.

In some embodiments, the sample information includes a sample type, a sample source, and/or a test item, and the numbering policy information includes a class identification and/or a numbering increment step.

In some embodiments, the sample type comprises at least one of whole blood, body fluids, trace blood, and pre-dilution, the sample source comprises at least one of an emergency, an outpatient, an inpatient, and a physical examination, and the test items comprise one or more combinations of blood routine, white blood cell five classification, C-reactive protein, serum amyloid, reticulon, and blood sedimentation.

In some embodiments, in numbering the samples according to the grouping policy, the processor 40 further performs: and determining a grouping strategy matched with the sample information of the samples, and sequentially numbering the samples according to the classification identification and/or the numbering increasing step length of the group of the samples determined by the grouping strategy.

In some embodiments, at least one grouping policy and at least one group identifier are displayed in the information editing area, and when a connection instruction for connecting any one of the grouping policy and the group identifier is received from a user, the processor 40 establishes a mapping relationship between the group and the grouping policy.

In some embodiments, the information editing area includes at least one group sub-area and at least one display sub-area of the grouping policy, and when a dragging instruction for dragging any grouping policy to any group sub-area is received, which is input by a user in the display sub-area, the processor 40 establishes a mapping relationship between the groups and the grouping policy.

In some embodiments, an input text box is displayed in the information editing area, and the processor 40 controls the display 20 to display the received grouping policy entered by the user in the input text box.

In some embodiments, when a trigger instruction input by a user in the input text box is received, the processor 40 controls the display 20 to display the sample information list and/or the numbering policy information list, and when a selection instruction input by the user through the sample information list and/or the numbering policy information list is received, the grouping policy is generated based on the sample information and/or the numbering policy information selected by the selection instruction.

In some embodiments, when a delete instruction is received, the processor 40 controls the display 20 to delete a preset group within the sample number setting interface from the group list.

In some embodiments, when receiving a deletion instruction generated based on pressing an area in which the preset group is located within the sample number setting interface and dragging to a deletion area, the processor 40 controls the display 20 to delete the preset group from the group list.

In some embodiments, when an increase instruction is received, the processor 40 controls the display 20 to additionally display a preset group in the group list within the sample number setting interface.

In some embodiments, processor 40 controls display 20 to add a preset group in the group list when an add instruction generated based on the press add flag is received.

In some embodiments, when receiving the modification instruction, the processor 40 controls the display 20 to modify and display information of a preset group in the group list in the sample number setting interface.

In some embodiments, the processor 40 controls the display 20 to display the group information list when receiving a modification instruction generated based on pressing of an area where the preset group is located, and the processor 40 controls the display 20 to modify and display information of the preset group when selecting target information from the group information list.

In some embodiments, the processor 40 controls the display 20 to display an input text box when a modification instruction generated based on pressing of an area where the preset group is located is received, and the processor 40 controls the display 20 to modify and display information of the preset group when target information input within the input text box is received.

In some embodiments, when receiving the move instruction, the processor 40 controls the display 20 to move and display a preset group in the group list within the sample number setting interface.

In the above embodiments, descriptions of the embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to the following detailed description of the sample numbering method, which is not described herein again.

The sample numbering method provided in the embodiments of the present application will be described in detail below with reference to the operation principle of the blood analyzer.

Referring to fig. 3, fig. 3 is a schematic flow chart of a sample numbering method according to an embodiment of the present application. The sample numbering method can be applied to a blood analyzer, and the sample numbering method can include steps S101 to S103, and the like, and specifically can be as follows:

s101, displaying a sample number setting interface, wherein the sample number setting interface at least comprises an information editing area.

The blood analyzer can display a sample number setting interface in the display, wherein the content displayed in the sample number setting interface can be editable, the style, the display position, the display mode, the display content, the size, the color and the like of the sample number setting interface can be flexibly set according to actual needs, and the specific content is not limited at this point. For example, the sample number setting interface includes at least one information editing area, and the information editing area may include one or more groups, and each group may set a grouping policy corresponding to the sample number, as described in detail below. The display position, the display mode, the display content, the size, the color and the like of the information editing area in the sample number setting interface can be flexibly set according to actual needs.

For example, as shown in fig. 4, the information editing area in the sample number setting interface may include the number policy information such as the sample grouping (i.e., the group and the classification identifier thereof) and the next (i.e., the number increment step size), and the sample information such as the sample type (e.g., whole blood or body fluid, etc.), the sample source (e.g., physical examination or hospitalization, etc.), and the test item (e.g., CD or RET, etc.). For another example, as shown in fig. 5, only part of the number policy information (e.g., sample grouping) and part of the sample information (e.g., test item) may be included in the information editing area in the sample number setting interface, and the other number policy information and sample information may be set as default values. For another example, as shown in fig. 6, only the sample information such as the sample type, the sample source, and the test item may be included in the information editing area in the sample number setting interface.

In some embodiments, the sample number setting interface is fixedly displayed within the main interface.

In order to improve the convenience of the operation of the sample number setting interface, the sample number setting interface can be directly displayed in a main interface, the main interface can be a home page displayed by a display, namely, a first interface displayed when the blood analyzer is started, and the display form of the sample number setting interface in the main interface can comprise: the display position of the sample number setting interface in the main interface can include: the arbitrary position floats, leans on the top, leans on the lower side, leans on the left side, leans on the right side or in the middle, and the display size of sample number setting interface in main interface can include: fixed arbitrary size, arbitrary scaling, full screen, half screen, or edge banding, etc.

For example, as shown in fig. 7, the sample number setting interface may occupy a partial area of the main interface for fixed display.

For another example, as shown in fig. 8, the sample number setting interface may occupy an upper vertex region of the main interface for fixed display.

For another example, as shown in fig. 9, the sample number setting interface may occupy a partial area of the main interface to perform suction display, and at this time, the sample number setting interface may be moved as needed.

For another example, as shown in fig. 10, the sample number setting interface may occupy a partial area of the main interface to perform a contraction display, and at this time, when the sample number setting interface is in a normal display state, the sample number setting interface may be gradually contracted by a touch operation such as pressing the sample number setting interface, where the pressing may be a short pressing (i.e., clicking) or a long pressing; when the sample number setting interface is in the contracted state, the sample number setting interface may be displayed in an enlarged manner by a touch operation such as pressing a contracted display area of the sample number setting interface, as shown in fig. 11.

For another example, as shown in fig. 12, the sample number setting interface may be displayed in a blank state in the main interface, and at this time, the sample number setting interface may be displayed by a touch operation such as pressing the area where the sample number setting interface is located.

For another example, as shown in fig. 13, the sample number setting interface may be hidden in the main interface and display a hidden icon, and at this time, the hidden area may be pressed and slid toward the middle area of the main interface, so as to pull and display the sample number setting interface.

For another example, as shown in fig. 14, the sample number setting interface may be hidden in the main interface and a hidden icon may be displayed, and in this case, the sample number setting interface may be pop-up displayed by pressing the hidden area, and the pressing may be a short pressing (i.e., clicking) or a long pressing.

For another example, as shown in fig. 15, the sample number setting interface may be displayed floating at an arbitrary position in the main interface.

For another example, as shown in fig. 16, the sample number setting interface may be displayed inside the main interface near the upper edge.

For another example, as shown in fig. 17, the sample number setting interface may be displayed near the lower edge within the main interface.

For another example, as shown in fig. 18, the sample number setting interface may be displayed near the left edge within the main interface.

For another example, as shown in fig. 19, the sample number setting interface may be displayed near the right edge within the main interface.

For another example, as shown in fig. 20, the sample number setting interface may be displayed centrally within the main interface.

For another example, as shown in fig. 21, the sample number setting interface may be displayed full screen within the main interface.

For another example, as shown in fig. 22, the sample number setting interface may be transparently displayed in a floating manner within the main interface.

For another example, as shown in fig. 23, the sample number setting interface may be displayed as a bar within the main interface, i.e., the sample number setting interface occupies only a small area of the main interface near one edge.

In some embodiments, the sample number setting interface is in a hidden state prior to display of the sample number setting interface. When the sample number setting interface is in a hidden state, the sample number setting interface can be displayed in the main interface based on the trigger instruction.

In order to save the display space of the display interface of the display, fully utilize the screen resources of the display, and hide the sample number setting interface when the sample number setting interface is not needed, for example, as shown in fig. 24, the sample number setting interface may be completely hidden in the display interface (e.g., a main interface or other interfaces) of the display, which may make the display interface simpler. For another example, as shown in fig. 25, the sample number setting interface is hidden in the display interface of the display, and the hidden icon is displayed, and the display position, color, size, and the like of the hidden icon may be flexibly set according to actual needs, and specific content is not limited herein, for example, as shown in fig. 25 and 26, the hidden icon may be a polygon, and as shown in fig. 27, the hidden icon may be a circle.

When the sample number setting interface needs to be displayed, a trigger instruction input by a user can be received in a main interface displayed by the display, and the display is controlled to display the hidden sample number setting interface based on the trigger instruction. Therefore, the corresponding operation can be performed by quickly entering the sample number setting interface. The trigger instruction can be flexibly set according to actual needs, for example, the trigger instruction can include sliding operation or touch operation, and the touch operation can include clicking, double clicking, and pressing time reaching preset time.

It should be noted that, when the display displays any current interface, a trigger instruction input by a user may be received in the current interface, and the display is controlled to directly display the hidden sample number setting interface from the current interface based on the trigger instruction.

In some embodiments, the trigger instruction includes a sliding operation or a touch operation, and controlling the display to display the hidden sample number setting interface based on the trigger instruction may include: receiving sliding operation in a preset direction, and controlling a display to switch and display a hidden sample number setting interface from a current display interface according to the sliding operation; or when touch operation on the hidden icon in the current display interface is received, controlling the display to display the hidden sample number setting interface.

In order to improve the convenience of the display control of the sample number setting interface, the sliding operation in the preset direction input by a user can be received in a main interface or other interfaces displayed by the display, and then the display can be controlled to switch and display the hidden sample number setting interface from the current display interface according to the sliding operation, wherein the sliding operation in the preset direction can comprise leftward sliding, rightward sliding, upward sliding, downward sliding and the like. For example, as shown in fig. 28, a slide operation of sliding to the left may be received in the main interface, and a hidden sample number setting interface may be displayed based on the slide operation. For another example, as shown in fig. 29, a pressing operation input by the user may be received in the main interface, and the display may be controlled to display a hidden sample number setting interface based on the pressing operation.

In order to improve the accuracy of display control of the sample number setting interface, the display state of the sample number setting interface can be controlled by the hidden icon. Specifically, a touch operation of a user to hide an icon in a currently displayed interface, such as a main interface or other interfaces displayed by the display, may be received, and the display may be controlled to display a hidden sample number setting interface based on the touch operation. For example, as shown in fig. 30, a touch operation may be performed on a hidden icon displayed in the main interface, and the display may be controlled to display a hidden sample number setting interface below the hidden icon based on the touch operation. For another example, as shown in fig. 31, a hidden icon displayed in the main interface may be touched, and the display may be controlled to pop up a sample number setting interface from the edge to display the hidden icon based on the touch operation.

In some implementations, displaying the sample number settings interface can include: and displaying a sample number setting interface based on a trigger instruction responding to a preset key. For example, a trigger instruction for a preset key is received, and the display is controlled to display a hidden sample number setting interface according to the trigger instruction.

In order to improve the flexibility of the display control of the sample number setting interface, the blood analyzer may be preset with an entity key, and when a trigger instruction generated by a pressing operation of a user on the entity key is received, the display may be controlled to display the hidden sample number setting interface according to the trigger instruction. Or, a virtual key may be preset in the display interface of the display, and when a trigger instruction generated by a pressing operation of a user on the virtual key is received, the display may be controlled to display a hidden sample number setting interface according to the trigger instruction.

In some implementations, displaying the sample number settings interface can include: and displaying a sample number setting interface based on the response preset voice information or the preset gesture. For example, the trigger instruction includes voice information or gesture information, and the voice information or the gesture information may be received, and the display may be controlled to display the hidden sample number setting interface according to the voice information or the gesture information.

In order to improve the flexibility of the display control of the sample number setting interface, the blood analyzer may be further pre-provided with a gesture collector for collecting gesture information, the gesture collector may be a camera, an infrared sensor, or the like, when the gesture information input by the user is collected by the gesture collector, it may be determined whether the input gesture information matches with the target gesture information displayed on the sample number setting interface, for example, it may be determined whether the similarity between the input gesture information and the target gesture information is greater than a preset threshold value, if the similarity between the input gesture information and the target gesture information is greater than the preset threshold value, it is determined that the input gesture information matches with the target gesture information, if the similarity between the input gesture information and the target gesture information is less than or equal to the preset threshold value, it is determined that the input gesture information does not match with the target gesture information, the preset threshold value can be flexibly set according to actual needs. When the input gesture information is not matched with the target gesture information, the operation of displaying the sample number setting interface is not performed, and when the input gesture information is matched with the target gesture information, the display may be controlled to display the hidden sample number setting interface based on the gesture information. The target gesture information can be flexibly set according to actual needs, for example, the target gesture information can include left and right hand waving or fist waving and the like.

The blood analyzer may be further preset with a voice collector for collecting voice information, the voice collector may include a microphone, and when the voice information is collected by the voice collector, it may be determined whether the collected voice information matches the target voice information displayed on the control sample number setting interface, for example, a keyword may be extracted from the collected voice information, it may be determined whether a similarity between a semantic meaning of the collected voice information and a semantic meaning of the target voice information is greater than a preset threshold according to the keyword, if the similarity between the semantic meaning of the collected voice information and the semantic meaning of the target voice information is greater than the preset threshold, it is determined that the collected voice information matches the target voice information, and if the similarity between the collected voice information and the target voice information is less than or equal to the preset threshold, it is determined that the collected voice information does not match the target voice information, the preset threshold value can be flexibly set according to actual needs. When the collected voice information is not matched with the target voice information, the operation of displaying the sample number setting interface is not executed, and when the collected voice information is matched with the target voice information, the display can be controlled to display the hidden sample number setting interface based on the voice information. The target voice information may be flexibly set according to actual needs, for example, the target voice information may include "open a sample number setting interface" or "display a sample number setting interface" or the like.

In some implementations, displaying the sample number settings interface can include: receiving a setting instruction, displaying an interface identification list according to the setting instruction, selecting an identification of a sample number setting interface from the interface identification list, and displaying the sample number setting interface based on the identification.

In order to improve the variety of the display of the sample number setting interface, for example, as shown in fig. 32, a setting instruction generated by pressing a region where the setting identifier is input by a user may be received in the displayed setting interface, an interface identifier list may be displayed according to the setting instruction, the interface identifier list may include a plurality of interface identifiers, then an identifier of the sample number setting interface may be selected from the interface identifier list, and the sample number setting interface may be displayed based on the selected identifier of the sample number setting interface.

In some embodiments, a hidden editable interface is displayed based on a triggering instruction, wherein the editable interface comprises a control area of a sample number setting interface; and receiving the pressing operation on the control area, and displaying a sample number setting interface according to the pressing operation.

In order to improve the flexibility of the display of the sample number setting interface, the sample number setting interface can be accessed from an editable interface, the editable interface can be fixedly displayed in the main interface, or the editable interface can be displayed in the main interface based on a trigger instruction. For example, as shown in fig. 33, a trigger instruction generated by a slide operation or a touch operation input by a user may be received in the main interface, and a hidden editable interface including a control area of the sample number setting interface and information including status information, patient information, a sample source, a sample mode (i.e., a sample type), and an analysis mode (i.e., a test item) may be displayed based on the trigger instruction.

Wherein, the editable interface can be fixedly displayed in the main interface. In order to improve the convenience of the operation of the editable interface, the editable interface can be directly displayed in the main interface, and the display form of the editable interface in the main interface can include: the display position of the editable interface in the main interface can include: the display size of the editable interface in the main interface can include that the editable interface is floated at any position, is close to the top, the bottom, the left, the right or the middle: fixed arbitrary size, arbitrary scaling, full screen, half screen, or edge banding, etc. It should be noted that the display mode of the editable interface may be similar to that of the sample number setting interface, and may be understood by referring to the display mode of the sample number setting interface, which is not described herein again.

In some implementations, the editable interface is in the hidden state before the editable interface is displayed on the main interface based on the trigger instruction. When the editable interface is in the hidden state, the instruction can be triggered to display the editable interface in the main interface. In order to save the display space of the display interface of the display, fully utilize the screen resources of the display, and hide the editable interface when the editable interface is not needed, for example, completely hide the editable interface within the display interface (e.g., a main interface or other interfaces) of the display, which may make the display interface simpler. For another example, the editable interface is hidden in the display interface of the display, and the hidden icon is displayed, and the display position, color, size, and the like of the hidden icon may be flexibly set according to actual needs, and the specific content is not limited here.

When the editable interface needs to be displayed, a trigger instruction input by a user can be received in the main interface displayed by the display, and the display is controlled to display the hidden editable interface based on the trigger instruction. Therefore, the corresponding operation can be performed by quickly entering the editable interface. The trigger instruction can be flexibly set according to actual needs, for example, the trigger instruction can include sliding operation or touch operation, and the touch operation can include clicking, double clicking, and pressing time reaching preset time. It should be noted that, when the display displays any current interface, a trigger instruction input by a user may be received in the current interface, and the display is controlled to directly display the hidden editable interface from the current interface based on the trigger instruction.

In some embodiments, the trigger instruction includes a slide operation, a touch operation, a press operation, voice information, or gesture information, and displaying the hidden editable interface based on the trigger instruction includes: receiving sliding operation in a preset direction in a display, and displaying a hidden editable interface according to the sliding operation; or receiving touch operation on the hidden icon in the current display interface, and displaying the hidden editable interface according to the touch operation; or receiving the pressing operation of the preset key, and displaying the hidden editable interface according to the pressing operation; or receiving voice information or gesture information, and displaying the hidden editable interface according to the voice information or the gesture information.

It should be noted that the display mode of the hidden editable interface may be similar to that of the hidden sample number setting interface, and may be understood by referring to the display mode of the hidden sample number setting interface, which is not described herein again.

The editable interface is editable, and the sample mode (i.e. the sample type) in the editable interface comprises at least one mode type of whole blood, body fluid, trace blood and pre-dilution. The analysis modes (i.e., test items) in the editable interface may include one or more combinations of blood routine, leukocyte penta-classification, C-reactive protein, serum amyloid, reticulum, and blood sedimentation. The editable interface further comprises a sample number, state information, a sample introduction mode, patient information, a sample source and/or the like, wherein the sample number displayed in the editable interface (the sample number is the "lower sample" in the drawing) can be the number of the next sample of the current sample loading operation, the sample number can be composed of numbers, letters, characters and/or the like, and the specific numbering mode is not limited herein. The status information may include alarm information of the blood analyzer, operation status of the blood analyzer, and the like. The sample injection mode may include manual sample injection, automatic sample injection, and the like, the manual sample injection may be a sample injection mode requiring an operator to manually place a sample in a sampling position for sample suction, and the automatic sample injection may be a mode in which sample injection is automatically completed by an autosampler. The patient information may include name, gender, age, etc., which may be manually entered by a user, or entered by scanning a barcode or two-dimensional code affixed to a tube carrying the sample, etc., and the sample source may include emergency, outpatient, hospitalized, and physical examination, etc.

In some embodiments, when a malfunction of the blood analyzer is detected, malfunction information is displayed in an area corresponding to the status information. For example, the blood analyzer can monitor whether the blood analyzer has a fault in real time in the operation process, and when the blood analyzer is detected to have the fault, fault information can be displayed in an area corresponding to the state information so that a user can check the fault information and process the fault information in time. The specific display content of the fault information can be flexibly set according to the actual situation.

In some embodiments, a hematology analyzer control method can further comprise: and receiving an editing instruction, editing the display state of the editable interface according to the editing instruction, and displaying the edited editable interface.

In order to improve the controllability of displaying of each region such as state information, sample introduction mode, sample number, patient information, sample source, sample mode, analysis mode and the like in the editable interface, each region in the editable interface can be adaptively adjusted. The editing instruction can be flexibly set according to actual needs, for example, the editing instruction may include a delete instruction, a modify instruction, an add instruction, or a move instruction, and the editing operation such as delete, modify instruction, add, or move may be performed on each area in the editable interface according to requirements.

In some embodiments, the editing instructions include deletion instructions, receiving editing instructions, and editing the display state of the region in the editable interface according to the editing instructions includes: and receiving a deleting instruction, and deleting at least one area in the editable interface according to the deleting instruction.

In order to save the display space of the editable interface, the area where the unusual mode is located may be deleted from the editable interface, for example, a deletion instruction may be input in the editable interface, a generation manner of the deletion instruction may be flexibly set according to actual needs, and at this time, at least one area that needs to be deleted in the editable interface may be deleted from the editable interface according to the deletion instruction.

In some embodiments, receiving a deletion instruction according to which to delete at least one region in the editable interface may include: and receiving a deletion instruction generated by pressing at least one area in the editable interface, and dragging the at least one area to the position of the deletion area according to the deletion instruction so as to delete the at least one area from the editable interface.

In order to improve the convenience of deleting the at least one area, the at least one area can be deleted in a pressing and dragging mode. For example, as shown in fig. 34, when each region in the editable interface is in the non-editable state, the region where the title of the editable interface is located may be pressed to enable each region in the editable interface to enter the editable state, then at least one region (for example, the region where the sampling mode is located) that needs to be deleted is selected in the editable interface, a deletion instruction generated by a user based on pressing the at least one region is received, and the at least one region is dragged to the position where the deletion region is located according to the deletion instruction, so that the at least one region is deleted from the editable interface. The deleting area can be flexibly set according to actual needs, for example, at least one area can be dragged away from the current position to be deleted, or at least one area can be dragged to the position of the deleting icon to be deleted. After the deletion is completed, the area where the title of the editable interface is located can be pressed, so that each area in the editable interface enters the non-editable state. When each area in the editable interface is in an editable state, a deletion instruction generated by pressing at least one area in the editable interface can be directly received, and the at least one area is dragged to the position of the deletion area according to the deletion instruction so as to delete the at least one area from the editable interface.

It should be noted that a deletion instruction generated based on pressing at least one region in the editable interface may be received, and the at least one region is slid to a preset direction according to the deletion instruction, so as to delete the at least one region from the editable interface. Alternatively, a deletion instruction generated based on pressing the at least one region may be received, and the at least one region may be slid along the preset path according to the deletion instruction to delete the at least one region from the editable interface. The preset direction, the preset path and the like can be flexibly set according to actual needs, and specific contents are not limited here.

In some embodiments, receiving a deletion instruction according to which to delete at least one region in the editable interface may include: receiving a deletion instruction generated based on pressing at least one area in the editable interface, displaying an area identification list according to the deletion instruction, and when the identification of the at least one area in the area identification list is selected, setting the background color of the at least one area to be an unselected color, wherein the unselected color is used for indicating that the at least one area is deleted from the editable interface.

To improve flexibility of area deletion, for example, as shown in fig. 35, when each area in the editable interface is in a non-editable state, a position where a title of the editable interface is located may be pressed to enable each area in the editable interface to enter the editable state, then an interface customized to the display area of the editable interface is displayed in a full screen or a popup window in the display, at least one area (for example, an area where patient information is located) needing to be deleted is selected in the interface customized to the display area of the editable interface, a deletion instruction generated by a user based on pressing at least one area in the interface customized to the display area of the editable interface is received, a background color of the at least one area is set to be an unselected color according to the deletion instruction, the unselected color may be flexibly set according to actual needs, for example, the unselected color may be gray or black, and the like, at least one area can be deleted from the editable interface, and after the deletion is completed, the position of the title of the editable interface can be pressed, so that each area in the editable interface enters the non-editable state. When the regions in the editable interface are in the editable state, the background color of the at least one region may be set to the unselected color directly based on the deletion instruction generated by pressing the at least one region in the editable interface to indicate that the at least one region is deleted from the editable interface.

In some embodiments, receiving a deletion instruction according to which to delete at least one region in the editable interface may include: and when detecting that the unused time of the information corresponding to at least one area in the editable interface reaches a preset time threshold, generating a deleting instruction, and deleting the at least one area from the editable interface according to the deleting instruction.

In order to improve the automation of deleting the at least one area, the at least one area may be deleted based on the unused time of the at least one area, for example, the unused time of each area may be monitored, when it is detected that the unused time of the at least one area reaches a preset time threshold, a deletion instruction is generated, and the at least one area is deleted from the editable interface according to the deletion instruction. The preset time threshold value can be flexibly set according to actual needs.

In some embodiments, the editing instructions include modification instructions, receiving the editing instructions, and editing the display state of the region in the editable interface according to the editing instructions may include: and receiving a modification instruction, and modifying at least one area in the editable interface according to the modification instruction.

In order to improve the flexibility of displaying at least one region and meet the use requirements of users, the display content of each region in the editable interface can be modified correspondingly, for example, a modification instruction input in the editable interface can be received, the generation mode of the modification instruction can be flexibly set according to actual needs, and at this time, at least one region in the editable interface can be modified according to the modification instruction.

In some embodiments, receiving a modification instruction according to which modifying at least one region in the editable interface may include: receiving a modification instruction generated based on pressing at least one area in the editable interface, and displaying an area identification list according to the modification instruction; receiving a selection instruction input by a user through the area identification list; and replacing at least one region with a region corresponding to the region identifier according to the selection instruction.

In order to improve the convenience of modification of the at least one region, the type of mode to be modified may be selected through a mode type list of the at least one region. For example, as shown in fig. 36, when entering an editable state of each area in the editable interface, a modification instruction generated by a user based on pressing at least one area in the editable interface, for example, an area where an analysis mode is located, may be received, and a mode type list of the analysis mode may be displayed according to the modification instruction, where the mode type list may be a mode type list that is displayed vertically or horizontally above, below, on the left side, on the right side, or the like of the area where the analysis mode is located. Then, a selection instruction input by the user through the mode type list may be received, for example, a press selection or the like, a mode type is selected from the mode type list according to the selection instruction, and the selected mode type is displayed in an area where a preset mode type (for example, a CDR) is located.

In some embodiments, receiving a modification instruction according to which modifying at least one region in the editable interface may include: receiving a modification instruction generated based on pressing at least one area in the editable interface, and displaying an input text box according to the modification instruction; and receiving the area identification input by the user through the input text box, and replacing at least one area with the area corresponding to the area identification.

In order to increase the flexibility of the modification of the display content of the at least one region, the at least one region may be modified by means of an input text box. For example, as shown in fig. 37, entering an editable state of each area in the editable interface, receiving a modification instruction generated by a user based on pressing an area where a preset mode type (e.g., CDR) in the analysis mode is located, setting an area where the CDR mode type to be modified is located as an input text box according to the modification instruction, then receiving a mode type (e.g., RET) input by the user through the input text box, at this time, displaying the input mode type RET in the area where the preset mode type is located, at this time, pressing the area where the title of the editable interface is located, and exiting the editable state of each area in the editable interface.

In some embodiments, the editing instructions include an add instruction, receiving the editing instructions, and editing the display state of the region in the editable interface according to the editing instructions may include: and receiving an adding instruction, and adding at least one area in the editable interface according to the adding instruction.

In order to facilitate a user to add at least one region in the editable interface according to requirements and improve the convenience of display control of the at least one region, the at least one region can be added in the editable interface based on a received addition instruction input by the user, and the generation mode of the addition instruction can be flexibly set according to actual requirements.

In some embodiments, receiving an add instruction, adding at least one region within the editable interface in accordance with the add instruction may include: when it is detected that the use time of the information corresponding to the at least one area reaches a preset time threshold and the at least one area does not exist in the editable interface, generating an increasing instruction, and increasing the at least one area in the editable interface according to the increasing instruction.

In order to increase the flexibility of adding the at least one area, the at least one area may be added based on the usage time of the at least one area, for example, the usage time of each area (or the frequency of triggering each area) may be monitored, and when it is detected that the usage time of the at least one area reaches a preset time threshold and the at least one area does not exist in the editable interface, an addition instruction may be generated, and the at least one area may be added in the editable interface according to the addition instruction. The preset time threshold value can be flexibly set according to actual needs.

In some embodiments, receiving an add instruction, adding at least one region within the editable interface in accordance with the add instruction may include: receiving an adding instruction generated based on the adding identification in the pressing editable interface; displaying an area identification list according to the increase instruction; selecting an identifier which needs to be added to at least one area in the editable interface from the area identifier list; at least one region is added within the editable interface according to the selected identifier.

In order to improve the convenience of adding to at least one region, the region to be added may be selected in the form of a list. For example, as shown in fig. 38, an area where a title of the editable interface is located may be set as an addition identifier, an addition instruction generated by the user based on pressing the addition identifier of the editable interface is received, and an area identifier list may be displayed according to the addition instruction, where the area identifier list may be a list of area identifiers in a vertical or horizontal direction displayed above, below, on the left side, on the right side, or the like of the area where the editable interface is located. At this time, at least one region that needs to be added to the editable interface may be selected from the region identification list, for example, a selection instruction such as a press selection input by a user through the region identification list may be received, and the at least one region that needs to be added to the editable interface is determined to be a next sample (i.e., a sample number) according to the selection instruction, that is, a region of a previous sample may be added to the editable interface. After the addition is completed, the editable interface can be automatically set to be in the non-editable state so as to avoid misoperation, or the non-editable state of the editable interface can be entered by a user based on pressing the area where the editable interface is located. If the editable interface is in the editable state, the addition operation can be directly performed on the area of the editable interface.

In some embodiments, receiving an add instruction, adding at least one region within the editable interface in accordance with the add instruction may include: and receiving an increasing instruction generated based on pressing at least one area in the editable interface, and setting the background color of the at least one area to be a selected color according to the increasing instruction, wherein the selected color is used for indicating that the at least one area is increased in the editable interface.

In order to improve the flexibility of adding at least one region, for example, as shown in fig. 39, a header region in the editable interface is pressed to generate a list display instruction, and then all or part of region identifiers corresponding to the editable interface may be displayed according to the list display instruction, at this time, an addition instruction generated based on pressing at least one region (for example, a region where patient information is located) in the interface defined by the editable interface display region may be received, a background color of the at least one region may be set to a selected color according to the addition instruction, the selected color may be flexibly set according to actual needs, for example, the selected color may be a bright color or a red color, and at this time, the at least one region may be added in the editable interface.

In some embodiments, receiving an add instruction, adding at least one region within the editable interface in accordance with the add instruction may include: receiving an increasing instruction generated based on pressing at least one area in the editable interface, and displaying an input text box according to the increasing instruction; receiving the area identification input by the user through the input text box, and adding at least one area in the editable interface according to the area identification.

To increase the flexibility and variety added to the at least one region, the at least one region may be added by way of an input text box. For example, as shown in fig. 30, when the editable interface is in the non-editable state, the user may be received to enter the editable state of the editable interface based on pressing the area where the editable interface is located, and then an addition instruction generated by the user based on pressing the area where the editable interface is located may be received, or an addition instruction generated by the user based on an addition identifier of the area where the editable interface is located may be received, and the area identifier input by the user through the input text box is received according to an input text box in which the area identifier is displayed by the addition instruction: the 'sample source' button can be pressed and selected to increase the area corresponding to the input sample source in the editable interface.

In some embodiments, the editing instructions include movement instructions, receiving the editing instructions, and editing the display state of the region in the editable interface according to the editing instructions may include: and receiving a moving instruction, and moving at least one area in the editable interface to a target position according to the moving instruction.

In order to improve the diversity and reliability of the adjustment of each region in the editable interface, the region in the editable interface may be moved, for example, as shown in fig. 41, an editable state of the editable interface may be entered, a movement instruction generated by a user based on pressing at least one region (for example, a region where the analysis mode is located) may then be received, and the at least one region in the editable interface may be moved to a target position according to the movement instruction, for example, the region where the analysis mode is located and the region where the sample mode is located may be interchanged in position. After the movement is completed, the receiving user can enter the non-editable state of the editable interface based on the area where the editable interface is pressed, so that unnecessary misoperation is avoided. In addition, if the analysis mode is in an editable state, the mode type of the analysis mode can be directly moved.

It should be noted that, because different users may need different displays of the editable interface in the process of using the blood analyzer, when the main interface displays the editable interface, the identity information of the user currently using the blood analyzer may be determined, and then the editable interface corresponding to the identity information may be determined from a plurality of candidate editable interfaces and the editable interface may be displayed. For example, user a displays an editable interface a when using the blood analyzer, user B displays an editable interface B when using the blood analyzer, and user C displays an editable interface C when using the blood analyzer. In some embodiments, determining identity information of a user currently using the analyzer may include: acquiring face information or iris information of a user using the analyzer at present, and determining identity information of the user according to the face information or the iris information; or acquiring fingerprint information of a user who uses the analyzer at present, and determining identity information of the user according to the fingerprint information; or receiving the job number information input by the user, and determining the identity information of the user according to the job number information.

S102, receiving grouping strategies corresponding to each group input in the information editing area.

Since at least one group can be included in the information editing area, a grouping policy corresponding to each group can be input in the information editing area.

In some embodiments, receiving the grouping policy entered within the information editing region may include: and receiving the sample information and/or the numbering strategy information input in the information editing area, and generating a grouping strategy according to the sample information and/or the numbering strategy information.

Only sample information can be input in the information editing area, and a grouping strategy is generated based on the sample information; or, only the numbering strategy information can be input in the information editing area, and the grouping strategy is generated based on the numbering strategy information; alternatively, the sample information and the numbering plan information may be input in the information editing region, and the grouping plan may be generated based on the sample information and the numbering plan information.

In some embodiments, the sample information may include a sample type, a sample source, and/or a test item, and the numbering policy information includes a class identification and/or a numbering increment step.

The sample type may include at least one of whole blood, body fluid, trace blood, and pre-dilution, the whole blood may refer to a blood sample, and the body fluid may refer to a body fluid sample, including but not limited to cerebrospinal fluid, serosal cavity effusion (e.g., pleural effusion), synovial fluid, and the like. Sample sources may include sources for outpatients, emergencies, hospitalizations, and physical examinations. The test items may include one or more combinations of blood routine, leukocyte penta-classification, C-reactive protein, serum amyloid, reticulocyte, and blood sedimentation, for example, the test items may include blood routine (CBC), blood routine + leukocyte penta-Classification (CD), blood routine + leukocyte penta-classification + C-reactive protein (CD-C), blood routine + leukocyte penta-classification + C-reactive protein + serum amyloid a (CD-CS), blood routine + leukocyte penta-classification + reticulocyte (CDR), C-reactive protein (CRP), Serum Amyloid A (SAA), Reticulocyte (RET), blood sedimentation (ESR), blood routine + reticulocyte (CR), blood routine + C-reactive protein (C-CRP), blood routine + serum amyloid a (C-SAA), blood routine + blood sedimentation (C-ESR), blood routine + leukocyte penta-classification + serum amyloid (CD-S), At least one of blood routine + leukocyte penta-classification + blood sedimentation (CD-ESR), complete blood count + reticulocyte and use PLT 8-fold pattern analysis (CR/PLT-8X), and PLT 8-fold pattern complete blood count + cell penta-classification + reticulocyte and use PLT 8-fold pattern analysis (CDR/PLT-8X).

The classification mark and the number increment step size can be flexibly set according to actual requirements, the classification mark can be composed of letters, characters, symbols and/or the like, the classification mark can be a number prefix or a number suffix and the like, for example, the classification mark can comprise zy-, ty-tj-, abc, A and the like, and the number increment step size can comprise +1, +2, +3, +4, +5, +6 and the like.

For example, as shown in fig. 42, a pressing operation may be input in an editing area corresponding to the sample type corresponding to group 1, at this time, a sample type list may be displayed based on the pressing operation, as shown in fig. 43, next, a body fluid may be selected from the sample type list, as shown in fig. 44, and finally, a grouping policy corresponding to group 1 may be generated, as shown in fig. 45, that the body fluid is grouped by the sample type.

It should be noted that, as shown in fig. 46, the grouping policy corresponding to each group may be a plurality including a classification identifier, a number increment step size, a sample type, a sample source, and a test item. Alternatively, as shown in fig. 47, the grouping policy corresponding to each group may be to include a sample source, only the sample source needs to be set, the class identifier and the number increment step are not set, and a default class identifier and number increment step may be used, for example, the default number increment step is + 1.

In some embodiments, receiving an input of a grouping policy corresponding to each group within the information editing region comprises: displaying at least one grouping strategy and at least one group identification in the information editing area, receiving a connection instruction input by a user for connecting any grouping strategy and any group identification, and establishing a mapping relation between the group and the grouping strategy according to the connection instruction.

In order to improve the diversity of the grouping strategy setting, the grouping strategy can be set for the group in a connection mode. For example, as shown in fig. 48, at least one grouping policy (e.g., items such as CD or RET, sample types such as whole blood or body fluid, sample sources such as clinic or hospital) and at least one group identifier (e.g., group 1, group 2, group 3, etc.) may be displayed in the information editing area, and then a connection instruction for connecting any grouping policy and group identifier input by a user may be received, and a mapping relationship between the group and the grouping policy may be established according to the connection instruction, for example, group 1 is connected with whole blood, group 2 is connected with body fluid, etc., so that a mapping relationship between group 1 and whole blood may be established, and a mapping relationship between group 2 and body fluid may be established.

In some embodiments, receiving an input of a grouping policy corresponding to each group within the information editing region comprises: displaying at least one group sub-area and at least one display sub-area of the grouping strategy in the information editing area, receiving a dragging instruction which is input by a user and drags any grouping strategy to any group sub-area, and establishing a mapping relation between the group and the grouping strategy according to the dragging instruction.

In order to improve the flexibility of grouping policy setting, the grouping policy can be set for the group in a dragging manner. For example, as shown in fig. 49, at least one group sub-area (e.g., group 1 and group 2) and at least one display sub-area of the grouping policy may be displayed in the information editing area, then a dragging instruction for dragging any grouping policy to any group sub-area, which is input by a user, may be received, and a mapping relationship between the group and the grouping policy is established according to the dragging instruction. For example, the whole blood may be dragged to the sub-region where the group 1 is located, so that the mapping relationship between the group 1 and the whole blood may be established, that is, the grouping policy is set for the group 1 to be that the whole blood is grouped according to the sample type.

In some embodiments, receiving an input of a grouping policy corresponding to each group within the information editing region may include: and displaying an input text box in the information editing area, and receiving a grouping strategy corresponding to each group input in the input text box by a user.

In order to improve the convenience of setting the grouping policy, the grouping policy can be set for the group by inputting a text box. For example, as shown in fig. 50, an input text box is displayed in the information editing area, and at this time, a grouping policy corresponding to each group directly input by the user in the input text box may be received, for example, the sample type is whole blood and the sample source is hospitalized are input in the input text box corresponding to group 1.

In some embodiments, receiving a grouping policy corresponding to each group entered by a user within the input text box comprises: receiving a trigger instruction input by a user in an input text box, displaying a sample information list and/or a numbering strategy information list according to the trigger instruction, and generating a grouping strategy based on the sample information and/or the numbering strategy information selected by the selection instruction when receiving a selection instruction input by the user through the sample information list and/or the numbering strategy information list.

In order to improve the efficiency and accuracy of grouping policy setting, the grouping policy may be set for the group in a drop-down list manner. For example, as shown in fig. 51, a trigger instruction input by the user in the input text box may be received, and a sample information list such as a sample type, a sample source, or a test item may be displayed according to the trigger instruction. When a selection instruction input by a user through the sample information list is received, a grouping policy may be generated based on the sample information selected by the selection instruction. Or, a trigger instruction input by a user in the input text box may be received, a numbering policy information list such as a numbering incremental step size is displayed according to the trigger instruction, and when a selection instruction input by the user through the numbering policy information list is received, a grouping policy is generated based on the numbering policy information selected by the selection instruction.

It should be noted that one or more combinations of sample type, sample source, test item, number increment step size, and the like may be input. Further, the classification identification of the sample grouping may be automatically matched upon selection of a sample type, sample source, or test item, e.g., the prefix is automatically matched to "Ty-" upon selection of "body fluid".

In order to improve the controllability of display of each group and the grouping strategy thereof in the sample number setting interface, each group and the grouping strategy thereof can be adaptively adjusted. For example, an adjustment instruction may be received, the display states of the groups and the grouping policies thereof in the sample number setting interface may be adjusted according to the adjustment instruction, and the adjusted groups and the grouping policies thereof may be displayed. The adjustment instruction may be flexibly set according to actual needs, for example, the adjustment instruction may include a delete instruction, a modify instruction, an add instruction, or a move instruction, and the adjustment operation such as delete, modify instruction, add, or move may be performed on the mode type in the analysis mode according to the requirement.

In some embodiments, a deletion instruction is received, and a preset group in the sample number setting interface is deleted from the group list according to the deletion instruction.

In order to save the display space of the sample number setting interface, the unneeded groups can be deleted from the sample number setting interface, for example, a deletion instruction input in the sample number setting interface can be received, the generation mode of the deletion instruction can be flexibly set according to actual needs, and at this time, the preset groups to be deleted can be deleted from the group list in the sample number setting interface according to the deletion instruction.

In some embodiments, receiving a deletion instruction according to which to delete a preset group within the sample number setting interface from the group list may include: and receiving a deleting instruction which is input by a user and generated by dragging the area where the preset group in the sample number setting interface is located to the deleting area, and deleting the preset group in the sample number setting interface from the group list according to the deleting instruction.

In order to improve the convenience of deleting the groups, the groups can be deleted in a pressing and dragging mode. For example, as shown in fig. 52, 53, and 54, a preset group (e.g., group 3) to be deleted may be selected from a group list of the sample number setting interface, a deletion instruction generated by a user based on pressing and dragging an area in which the preset group is located in the sample number setting interface to the deletion area is received, and the preset group may be deleted from the sample number setting interface according to the deletion instruction. The deleting area can be flexibly set according to actual needs, for example, the preset group can be deleted by dragging the preset group away from the current position, or the preset group can be deleted by dragging the preset group to the position of the deleting icon.

It should be noted that a deletion instruction generated based on pressing the area where the preset group is located in the sample number setting interface and sliding to the preset direction may be received, and the preset group may be deleted from the sample number setting interface based on the deletion instruction. Alternatively, a deletion instruction generated based on pressing the area where the preset group is located in the analysis mode and sliding along the preset path may be received, and the preset group may be deleted from the sample number setting interface based on the deletion instruction. The preset direction, the preset path and the like can be flexibly set according to actual needs, and specific contents are not limited here.

In some embodiments, an increase instruction is received, and a preset group is added to the group list in the sample number setting interface according to the increase instruction.

In order to facilitate the user to add the group in the sample number setting interface according to the requirement and improve the convenience of group display control, the preset group corresponding to the analysis mode can be added in the sample number setting interface based on the received adding instruction input by the user, and the generation mode of the adding instruction can be flexibly set according to the actual requirement.

In some embodiments, receiving an increase instruction, and increasing the preset group in the group list in the sample number setting interface according to the increase instruction may include: and receiving an increasing instruction which is input by a user and generated based on the increase of the identification in the pressing sample number setting interface, and increasing a preset group in a group list in the sample number setting interface according to the increasing instruction.

In order to improve the convenience of the increase of the groups, the groups needing to be increased can be selected by increasing the identification form. For example, as shown in fig. 55, an increase instruction generated by the user based on pressing an increase flag (e.g., "+" symbol) in the sample number setting interface may be received, and a preset group may be added to the group list in the sample number setting interface according to the increase instruction.

In some embodiments, a modification instruction is received, and information of a preset group in a group list in the sample number setting interface is modified according to the modification instruction.

In order to improve the flexibility of group display and meet the use requirements of users, the groups of analysis modes in the sample number setting interface can be modified correspondingly, for example, a modification instruction input in the sample number setting interface can be received, the generation mode of the modification instruction can be flexibly set according to actual needs, and at the moment, information such as sample types, sample sources or test items corresponding to preset groups in the sample number setting interface can be modified according to the modification instruction.

In some embodiments, receiving a modification instruction, and modifying information of a preset group in a group list in the sample number setting interface according to the modification instruction may include: receiving a modification instruction which is input by a user and generated based on pressing of an area where a preset group is located, displaying a group information list according to the modification instruction, selecting target information from the group information list, and modifying and displaying information of the preset group according to the target information.

In order to improve the convenience of modifying the groups, the information of the groups needing to be modified can be selected in a list form. For example, as shown in fig. 56, a modification instruction generated by a user based on pressing an editing area of a sample source corresponding to a preset group (for example, group 1) in the sample number setting interface may be received, and a sample source list may be displayed according to the modification instruction, where the sample source list may be displayed vertically or horizontally above, below, on the left side or on the right side, or the like, of the area where the preset group is located. Then, a selection instruction input by the user through the sample source list, such as a press selection, may be received, and the selected sample source is displayed in the edit area of the sample source where the preset group is located according to the selection instruction, for example, when a physical examination is selected, the physical examination in the sample source may be replaced by hospitalization.

In some embodiments, receiving a modification instruction, and modifying information of a preset group in a group list in the sample number setting interface according to the modification instruction may include: receiving a modification instruction which is input by a user and generated based on pressing of an area where the preset group is located, displaying an input text box according to the modification instruction, receiving target information input in the input text box, and modifying and displaying information of the preset group according to the target information.

In order to increase the flexibility of modifying the group, the information of the group can be modified by entering a text box. For example, as shown in fig. 57, a modification instruction generated by a user based on pressing an area where a preset group (for example, group 1) in the sample number setting interface is located may be received, an input text box may be displayed in a pop-up manner according to the modification instruction, then a sample source (for example, physical examination) input by the user through the input text box may be received, and a determination button may be triggered to complete modification confirmation, at which time the input physical examination may be displayed in the area where the preset group is located.

In some embodiments, a movement instruction is received, and a preset group in a group list in the sample number setting interface is moved according to the movement instruction.

In order to improve the diversity and reliability of adjusting the group, the group may be moved, for example, as shown in fig. 58, a movement instruction generated by a user based on pressing an area in which the preset group is located in the sample number setting interface and moving to a target position may be received, and the preset group in the sample number setting interface may be moved to the target position based on the movement instruction, for example, positions of group 1 and group 2 may be exchanged.

In some embodiments, a close command is received, and the sample number setting interface is closed according to the close command. Wherein, after the sample number setting interface shows, can hide sample number setting interface or close completely according to the demand, when needs hide sample number setting interface, can receive the close instruction of user's input in the sample number setting interface that the display shows, hide sample number setting interface based on close instruction control display to can hide sample number setting interface fast.

In order to improve convenience of hiding control of a sample number setting interface, a rightward sliding operation is received in the sample number setting interface, a sliding operation in a preset direction input by a user can be received in the sample number setting interface displayed by a display, and then the display can be controlled to hide the sample number setting interface according to the sliding operation, wherein the sliding operation in the preset direction can comprise leftward sliding, rightward sliding, upward sliding, downward sliding and the like. For example, as shown in fig. 59, a sliding operation of sliding right input by a user may be received within the sample number setting interface, the sample number setting interface may be hidden based on the sliding operation, may be completely hidden or partially hidden, or the like. For another example, as shown in fig. 60, a touch operation (e.g., pressing) input by the user through a hidden area (e.g., a hidden icon) of the sample number setting interface displayed on the display may be received, and the display may be controlled to hide the sample number setting interface based on the touch operation. For another example, as shown in fig. 61, a touch operation such as pressing input by the user through a hidden area (e.g., a hidden icon) of the sample number setting interface displayed on the display may be received, and the display may be controlled to hide the sample number setting interface based on the touch operation. Alternatively, it may be accepted that the user controls the display to hide the sample number setting interface by pressing the hidden area and sliding towards the main interface edge.

It should be noted that, in order to improve flexibility of hiding control over the sample number setting interface, the blood analyzer may be preset with an entity key, and when receiving a pressing operation of a user on the entity key, the display may be controlled to hide the sample number setting interface according to the pressing operation. Or, a virtual key may be preset in the display interface of the display, and when receiving a pressing operation of a user on the virtual key, the display may be controlled to hide the sample number setting interface according to the pressing operation. Or, the blood analyzer can be also provided with a gesture collector for collecting gesture information in advance, the gesture collector can be a camera, a camera or an infrared sensor, when the gesture information input by the user is collected by the gesture collector, it may be determined whether the input gesture information matches target gesture information hidden by the control sample number setting interface, for example, whether the similarity between the input gesture information and the target gesture information is greater than a preset threshold value or not can be judged, if the similarity between the input gesture information and the target gesture information is greater than the preset threshold value, determining that the input gesture information is matched with the target gesture information, if the similarity between the input gesture information and the target gesture information is less than or equal to a preset threshold value, determining that the input gesture information is not matched with the target gesture information, wherein the preset threshold value can be flexibly set according to actual needs. When the input gesture information is not matched with the target gesture information, the operation of hiding the sample number setting interface is not performed, and when the input gesture information is matched with the target gesture information, the display can be controlled to hide the sample number setting interface based on the gesture information. The target gesture information can be flexibly set according to actual needs.

The blood analyzer may be further preset with a voice collector for collecting voice information, the voice collector may include a microphone, and when the voice information is collected by the voice collector, it may be determined whether the collected voice information matches with target voice information hidden in the control sample number setting interface, for example, a keyword may be extracted from the collected voice information, it may be determined whether a similarity between a semantic meaning of the collected voice information and a semantic meaning of the target voice information is greater than a preset threshold according to the keyword, if the similarity between the semantic meaning of the collected voice information and the semantic meaning of the target voice information is greater than the preset threshold, it is determined that the collected voice information matches with the target voice information, and if the similarity between the collected voice information and the target voice information is less than or equal to the preset threshold, it is determined that the collected voice information does not match with the target voice information, the preset threshold value can be flexibly set according to actual needs. When the collected voice information is not matched with the target voice information, the operation of hiding the sample number setting interface is not executed, and when the collected voice information is matched with the target voice information, the display can be controlled to hide the sample number setting interface based on the voice information. The target voice information may be flexibly set according to actual needs, for example, the target voice information may include "close the sample number setting interface" or "hide the sample number setting interface" or the like.

And S103, numbering the samples according to the grouping strategy of the group to which the samples belong when the samples to be numbered are received.

After the grouping strategies of the groups are set, the samples can be automatically grouped and numbered according to the guidance of the grouping strategies, so that manual numbering operation of a user is avoided, the numbering efficiency is improved, and the error rate of manual operation is reduced. For example, the grouping policy corresponding to the group 1 is set to be grouped according to the sample source as physical examination, the grouping policy corresponding to the group 2 is set to be grouped according to the sample source as hospitalization, the grouping policy corresponding to the group 3 is set to be grouped according to the sample source as emergency treatment, and when the received sample a to be numbered meets the condition that the sample source is hospitalization, the sample a may be numbered according to the grouping policy corresponding to the group 2, for example, the sample a may be numbered as zy-001.

In some embodiments, numbering the samples according to a grouping policy may include: and determining a grouping strategy matched with the sample information of the samples, and sequentially numbering the samples according to the classification identification and/or the numbering increasing step length of the group of the samples determined by the grouping strategy.

In order to improve the accuracy of numbering samples, in the process of numbering the samples, a grouping strategy matched with the sample information of the samples can be determined, and then the samples can be sequentially numbered according to the classification identification and/or the incremental step length of the numbering of the group of the samples determined by the grouping strategy. It should be noted that, the samples may also be sequentially numbered according to the current number initial value of the group where the samples are located, which is determined by the grouping policy, and according to the current number initial value, the class identifier and/or the number increment step, where the current number initial value may be flexibly set according to actual needs, for example, the current number initial value may be set to 0, 1, 2, 01, 001, 002 or 003, and the like. For example, when the group 3 is grouped according to the emergency treatment source, and the sources of the sample a, the sample B and the sample C are emergency treatment, the emergency treatment matching group may be determined to be the group 3, at this time, the classification identifier corresponding to the sample determined according to the grouping policy of the group 3 is jz-, the current number initial value is 001, and the number increment step size is +1, and then the sample a, the sample B and the sample C may be sequentially numbered, sequentially jz-001, jz-002 and jz-003.

It should be noted that when a batch of samples needs to be tested on multiple hematology analyzers, different numbering rules can be set. For example, when a sample source of 10 samples is hospitalized and needs to be tested on 2 blood analyzers (e.g., blood analyzer A and blood analyzer B), the class identifier corresponding to group 1 in blood analyzer A can be set to zy-, the current numbered initial value is 001, the number increment step is +2, and the class identifier corresponding to group 1 in blood analyzer B is zy-, the current numbered initial value is 002, the number increment step is +2, when blood analyzer A numbers 5 samples to zy-001, zy-003, zy-005, zy-007, and zy-009, and blood analyzer B numbers 5 samples to zy-002, zy-004, zy-006, zy-008, and zy-010, that is, numbers zy-001, zy-010, respectively, The samples of zy-003, zy-005, zy-007 and zy-009 were tested, and samples numbered zy-002, zy-004, zy-006, zy-008 and zy-010 were tested on the blood analyzer B. By analogy, when the same batch of samples need to be detected by 3 blood analyzers, the 3 blood analyzers can be numbered according to the number increment step length of + 3; when 4 blood analyzers are required to detect the same batch of samples, 3 blood analyzers can be numbered according to the number increment step length of + 4; and so on.

In some embodiments, when it is detected that there is a modification in the sample information of the sample to be numbered, the sample is renumbered according to the modified sample information and the grouping policy corresponding thereto.

In order to improve the accuracy of sample numbering, in the process of numbering samples, whether sample information of the samples to be numbered is modified or not can be detected, and when the sample information of the samples to be numbered is detected to be modified, the samples can be numbered again according to the changed sample information and a grouping strategy corresponding to the changed sample information.

The application embodiment can display a sample number setting interface comprising an information editing area through a display, can input the grouping strategy corresponding to each group in the information editing area, and can number the samples according to the grouping strategies of the sample groups when the samples to be numbered are received. According to the scheme, the samples are rapidly and accurately numbered based on the grouping strategy of the group to which the samples belong, and the efficiency of numbering the samples is improved.

The embodiment of the application further provides a computer-readable storage medium, wherein a computer program is stored in the computer-readable storage medium, the computer program comprises program instructions, and a processor executes the program instructions to implement any sample numbering method provided by the embodiment of the application.

The computer readable storage medium may be an internal storage unit of the blood analyzer of the foregoing embodiments, such as a hard disk or a memory of the blood analyzer. The computer readable storage medium may also be an external storage device of the blood analyzer, such as a plug-in hard disk provided on the blood analyzer, a Smart Media Card (SMC), a Secure Digital (SD) Card, a Flash memory Card (Flash Card), and the like.

Since the computer program stored in the computer-readable storage medium can execute any sample numbering method provided in the embodiments of the present application, the beneficial effects that can be achieved by any sample numbering method provided in the embodiments of the present application can be achieved, and detailed descriptions are omitted herein for the sake of detail in the foregoing embodiments.

It is to be understood that the terminology used in the description of the present application herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in the specification of the present application and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should also be understood that the term "and/or" as used in this specification and the appended claims refers to and includes any and all possible combinations of one or more of the associated listed items. It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or system that comprises the element.

The above-mentioned serial numbers of the embodiments of the present application are merely for description and do not represent the merits of the embodiments. While the invention has been described with reference to specific embodiments, the scope of the invention is not limited thereto, and various equivalent modifications or substitutions can be easily made by those skilled in the art within the technical scope of the invention. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (20)

1. A blood analyzer comprising a sample processing section, a display, a memory, and a processor, wherein,

the sample processing part is used for processing a sample;

the display is used for displaying an interface;

the memory for storing a computer program;

the processor is configured to invoke the computer program in the memory to perform:

controlling the display to display a sample number setting interface, wherein the sample number setting interface at least comprises an information editing area, and the information editing area is used for inputting grouping strategies corresponding to each group;

and when a sample to be numbered is received, numbering the sample according to the grouping strategy of the group to which the sample belongs.

2. The blood analyzer of claim 1, wherein the processor generates a grouping policy based on sample information and/or numbering policy information upon receiving user input of the sample information and/or numbering policy information within the information editing region.

3. The blood analyzer of claim 2, wherein the sample information includes a sample type, a sample source, and/or a test item, and the numbering strategy information includes a class identification and/or a numbering increment step.

4. The hematology analyzer of claim 3, wherein the sample type comprises at least one of whole blood, body fluid, trace blood, and pre-dilution, the sample source comprises at least one of an emergency, an outpatient, an in-patient, and a physical examination, and the test items comprise one or more combinations of blood routine, white blood cell five classification, C-reactive protein, serum amyloid, reticulum, and blood sedimentation.

5. The blood analyzer of claim 3, wherein in numbering the samples according to the grouping strategy, the processor further performs: and determining a grouping strategy matched with the sample information of the sample, and sequentially numbering the sample according to the classification identification and/or the number increasing step length of the group of the sample determined by the grouping strategy.

6. The blood analyzer of claim 1, wherein at least one grouping strategy and at least one group identifier are displayed in the information editing area, and when a connection instruction for connecting any one of the grouping strategies and the group identifiers is received from a user, the processor establishes a mapping relationship between the group and the grouping strategy.

7. The blood analyzer of claim 1, wherein the information editing area comprises at least one group sub-area and at least one display sub-area of grouping strategies, and when a dragging instruction for dragging any grouping strategy to any group sub-area is received from a user in the display sub-area, the processor establishes a mapping relationship between the groups and the grouping strategies.

8. The blood analyzer of claim 1, wherein the processor controls the display to display a sample information list and/or a numbering strategy information list when receiving a trigger instruction input by a user in the input text box, and generates a grouping strategy based on the sample information and/or the numbering strategy information selected by the selection instruction when receiving a selection instruction input by the user through the sample information list and/or the numbering strategy information list; alternatively, the first and second electrodes may be,

and displaying an input text box in the information editing area, and controlling the display to display the received grouping strategy input by the user in the input text box by the processor.

9. The blood analyzer of any one of claims 1 to 8, wherein the processor controls the display to delete a preset group in the sample number setting interface from a group list when a deletion instruction is received.

10. The blood analyzer of claim 9, wherein the processor controls the display to delete a preset group from a group list when a deletion instruction generated based on pressing an area in which the preset group is located within the sample number setting interface and dragging to a deletion area is received.

11. The blood analyzer of any one of claims 1 to 8, wherein the processor controls the display to display a preset group in the group list in the sample number setting interface in addition when an increase instruction is received.

12. The blood analyzer of claim 11, wherein the processor controls the display to add a preset group in a group list when receiving an add instruction generated based on a press add flag.

13. The blood analyzer of any one of claims 1 to 8, wherein the processor controls the display to modify and display information of a preset group in a group list in the sample number setting interface when a modification instruction is received.

14. The blood analyzer of claim 13, wherein the processor controls the display to display a group information list when a modification instruction generated based on pressing of an area where a preset group is located is received, and controls the display to modify and display information of the preset group when target information is selected from the group information list; alternatively, the first and second electrodes may be,

when a modification instruction generated by pressing a region where a preset group is located is received, the processor controls the display to display an input text box, and when target information input in the input text box is received, the processor controls the display to modify and display the information of the preset group.

15. The blood analyzer of any one of claims 1 to 8, wherein the processor controls the display to move and display a preset group in a group list in the sample number setting interface when receiving the movement instruction.

16. A method for sample numbering, comprising:

displaying a sample number setting interface, wherein the sample number setting interface at least comprises an information editing area;

receiving a grouping strategy corresponding to each group input in the information editing area;

and when a sample to be numbered is received, numbering the sample according to the grouping strategy of the group to which the sample belongs.

17. The sample numbering method according to claim 16, wherein said receiving a grouping policy entered in said information editing area comprises:

receiving sample information and/or numbering strategy information input in the information editing area, and generating a grouping strategy according to the sample information and/or numbering strategy information;

the numbering policy information includes a class identifier and/or a numbering increment step, and numbering the samples according to the grouping policy includes:

and determining a grouping strategy matched with the sample information of the sample, and sequentially numbering the sample according to the classification identification and/or the number increasing step length of the group of the sample determined by the grouping strategy.

18. The sample numbering method according to claim 16, wherein said receiving a grouping policy for each group entered in said information editing area comprises:

displaying at least one grouping strategy and at least one group identification in the information editing area, receiving a connection instruction input by a user for connecting any grouping strategy and any group identification, and establishing a mapping relation between the group and the grouping strategy according to the connection instruction; alternatively, the first and second electrodes may be,

displaying at least one group sub-area and at least one display sub-area of a grouping strategy in the information editing area, receiving a dragging instruction which is input by a user and drags any grouping strategy to any group sub-area, and establishing a mapping relation between the group and the grouping strategy according to the dragging instruction; alternatively, the first and second electrodes may be,

when a triggering instruction input by a user in the input text box is received, the processor controls the display to display a sample information list and/or a numbering strategy information list, and when a selection instruction input by the user through the sample information list and/or the numbering strategy information list is received, a grouping strategy is generated based on the sample information and/or the numbering strategy information selected by the selection instruction;

and displaying an input text box in the information editing area, and receiving a grouping strategy corresponding to each group input in the input text box by a user.

19. The sample numbering process according to any of claims 16 to 18, further comprising:

receiving a deleting instruction, and deleting a preset group in the sample number setting interface from a group list according to the deleting instruction; alternatively, the first and second electrodes may be,

receiving an increasing instruction, and increasing a preset group in a group list in the sample number setting interface according to the increasing instruction; alternatively, the first and second electrodes may be,

receiving a modification instruction, and modifying the information of a preset group in a group list in the sample number setting interface according to the modification instruction; alternatively, the first and second electrodes may be,

and receiving a moving instruction, and moving a preset group in a group list in the sample number setting interface according to the moving instruction.

20. A computer-readable storage medium for storing a computer program which is loaded by a processor to perform the sample numbering method of any of claims 16 to 19.

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