CN111415735A - Method and device for controlling in-vitro diagnostic equipment, computer equipment and storage medium - Google Patents

Abstract

The application relates to a control method and device of an in-vitro diagnostic device, a computer device and a storage medium. The method comprises the following steps: when a workflow interface of the in-vitro diagnosis equipment is displayed, selecting one project in the workflow interface; displaying operation guide information corresponding to the items; when detecting that a jump link in the operation guide information is triggered, jumping to an operation interface corresponding to the item; when the operation interface detects that the operation flow corresponding to the project is executed completely, returning to the work flow interface; and selecting one item in the items which are not executed in the workflow interface, and continuing to execute the step of displaying the operation guide information corresponding to the item until the operation flows corresponding to all the items are executed. By adopting the scheme of the application, the operation efficiency can be improved.

Description

Method and device for controlling in-vitro diagnostic equipment, computer equipment and storage medium

Technical Field

The present application relates to the field of in vitro diagnostic device technology, and in particular, to a method and an apparatus for controlling an in vitro diagnostic device, a computer device, and a storage medium.

Background

With the development of the in vitro diagnostic equipment technology, the in vitro diagnostic equipment with the display screen appears, and the display interface can be operated more intuitively by correspondingly operating the display interface of the display screen so as to control the operation of the in vitro diagnostic equipment. In order to facilitate the operation of hospital medical care personnel, the traditional in-vitro diagnosis equipment designs a workflow guide on a display screen to prompt the medical care personnel how to use the in-vitro diagnosis equipment.

But for the medical staff, the use of workflow guidelines is necessarily easy to understand due to the lack of understanding of the relevant terms for the device, and also for new medical staff to teach. Moreover, in order to ensure that the daily inspection work can be efficiently completed, medical staff needs to perform daily maintenance, sample removal, reagent consumable preparation, calibration, quality control, sample tracking and other corresponding operations on the in vitro diagnostic equipment every day, and if the medical staff is not familiar with the operation of the in vitro diagnostic equipment, the operation efficiency is reduced.

Disclosure of Invention

In view of the above, it is necessary to provide a control method and apparatus for an extracorporeal diagnostic apparatus, a computer apparatus, and a storage medium, which can improve the operation efficiency.

A method of controlling an in vitro diagnostic apparatus, the method comprising:

when a workflow interface of the in-vitro diagnosis equipment is displayed, selecting one project in the workflow interface;

displaying operation guide information corresponding to the items;

when detecting that a jump link in the operation guide information is triggered, jumping to an operation interface corresponding to the item;

when the operation interface detects that the operation flow corresponding to the project is executed completely, returning to the work flow interface;

and selecting one item in the items which are not executed in the workflow interface, and continuing to execute the step of displaying the operation guide information corresponding to the item until the operation flows corresponding to all the items are executed.

In one embodiment, the control method of the in-vitro diagnostic apparatus further includes:

monitoring project states of projects in a workflow interface in real time;

determining the monitored item with the changed item state as a target item;

determining a corresponding state identifier according to the changed project state of the target project;

and updating the state identification to the state mark of the corresponding target item.

In one embodiment, the state identifier is a current execution state identifier, an executed state identifier, or an unexecuted state identifier.

In one embodiment, the control method of the in-vitro diagnostic apparatus further includes:

when detecting that a project backtracking button in a workflow interface is triggered, acquiring a project backtracking instruction;

selecting one of the executed projects according to the project backtracking instruction;

and continuing to execute the step of displaying the operation guide information corresponding to the item.

In one embodiment, selecting one of the non-executed items of the workflow interface comprises:

when detecting that an execution finishing button in a workflow interface is triggered, acquiring a flow continuing instruction;

determining the currently executed project according to the flow continuing instruction;

and selecting the next project of the currently executed project in the workflow interface according to the preset workflow sequence.

In one embodiment, the control method of the in-vitro diagnostic apparatus further includes:

when detecting that a re-execution button in a workflow interface is triggered, acquiring a re-execution instruction;

resetting all projects in the workflow interface to be unexecuted projects according to the re-execution instruction;

and continuing to execute the step of selecting one of the items not executed by the workflow interface.

A control apparatus of an in vitro diagnostic device, the apparatus comprising:

the first item selection module is used for selecting one item in the workflow interface when the workflow interface of the in-vitro diagnosis equipment is displayed;

the information display module is used for displaying operation guide information corresponding to the project;

the interface skipping module is used for skipping to an operation interface corresponding to the project when the skipping link in the operation guide information is triggered;

the interface returning module is used for returning to the workflow interface when the operation flow corresponding to the project is detected to be executed completely on the operation interface;

and the second item selection module is used for selecting one item in the items which are not executed in the workflow interface and continuously executing the step of displaying the operation guide information corresponding to the item until the operation flows corresponding to all the items are executed.

In one embodiment, the control device of the in-vitro diagnostic apparatus further comprises a status update module, configured to monitor a project status of a project in the workflow interface in real time;

determining the monitored item with the changed item state as a target item;

determining a corresponding state identifier according to the changed project state of the target project;

and updating the state identification to the state mark of the corresponding target item.

A computer device comprising a memory and a processor, the memory storing a computer program, wherein the computer program when executed by the processor performs the steps of:

when a workflow interface of the in-vitro diagnosis equipment is displayed, selecting one project in the workflow interface;

displaying operation guide information corresponding to the items;

when detecting that a jump link in the operation guide information is triggered, jumping to an operation interface corresponding to the item;

when the operation interface detects that the operation flow corresponding to the project is executed completely, returning to the work flow interface;

and selecting one item in the items which are not executed in the workflow interface, and continuing to execute the step of displaying the operation guide information corresponding to the item until the operation flows corresponding to all the items are executed.

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

when a workflow interface of the in-vitro diagnosis equipment is displayed, selecting one project in the workflow interface;

displaying operation guide information corresponding to the items;

when detecting that a jump link in the operation guide information is triggered, jumping to an operation interface corresponding to the item;

when the operation interface detects that the operation flow corresponding to the project is executed completely, returning to the work flow interface;

and selecting one item in the items which are not executed in the workflow interface, and continuing to execute the step of displaying the operation guide information corresponding to the item until the operation flows corresponding to all the items are executed.

According to the workflow guiding method, the workflow guiding device, the computer equipment and the storage medium, as long as the workflow interface is displayed, one item in the workflow interface can be automatically selected, and the operation guiding information corresponding to the selected item is displayed, so that a user can intuitively know the operation flow of the item. The user can directly click the jump link in the operation guide information, and can automatically jump to the operation interface corresponding to the item. And when the operation interface detects that the project is executed completely, automatically returning to the workflow interface, selecting one project in the projects which are not executed on the workflow interface, and continuously executing the step of displaying the operation guidance information corresponding to the project until all the projects are executed completely. By adopting the scheme, when medical personnel need to carry out daily maintenance, sample removal, reagent consumable preparation, calibration, quality control, sample tracking and other corresponding operations on the in-vitro diagnostic equipment every day, the operation efficiency is improved.

Drawings

FIG. 1 is a diagram illustrating an internal structure of a computer device according to an embodiment;

FIG. 2 is a schematic diagram of a workflow interface in one embodiment;

FIG. 3 is a schematic flow chart illustrating a method for controlling the extracorporeal diagnostic apparatus according to an embodiment;

fig. 4 is a block diagram showing a configuration of a control device of the extracorporeal diagnosis apparatus in one embodiment.

Detailed Description

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

It will be understood that, as used herein, the terms "first," "second," and the like may be used herein to describe various elements, but these elements are not limited by these terms. These terms are only used to distinguish one element from another.

The control method of the in-vitro diagnostic device provided by the application can be applied to the computer device shown in fig. 1. The computer device may be a terminal, the computer device comprising a memory, a processor, a network interface, a display screen and an input means. The memory stores a computer program, and when the computer program is executed by the processor, the method for controlling the extracorporeal diagnosis apparatus provided by the present application can be realized. The terminal may be, but is not limited to, various personal computers, notebook computers, smart phones, tablet computers, and portable wearable devices.

The computer device may be an in-vitro diagnostic device, which may be an integrated in-vitro diagnostic device. The display screen of the in-vitro diagnosis device may be a touch display screen, and the touch display screen may display a workflow interface as shown in fig. 2, and the workflow interface is an interface for workflow guidance and may include a guidance information display area and a project display area. The guide information display area is for displaying operation guide information including jump links 202, and the item display area is for displaying a plurality of items 201.

Specifically, when the in-vitro diagnosis device displays a workflow interface, selecting an item 201 in the workflow interface, displaying operation guide information corresponding to the item 201, and when detecting that a jump link 202 in the operation guide information is triggered, jumping to the operation interface corresponding to the item; when the operation interface detects that the operation flow corresponding to the project is executed completely, returning to the workflow interface; and selecting one item in the items which are not executed by the workflow interface, and continuing to execute the step of displaying the operation guide information corresponding to the item until the operation flows corresponding to all the items are executed.

In one embodiment, as shown in fig. 3, a method for controlling an extracorporeal diagnostic apparatus is provided, which is described by taking the method as an example of the extracorporeal diagnostic apparatus, and includes the following steps:

step S302, when the workflow interface of the in-vitro diagnosis equipment is displayed, one item in the workflow interface is selected.

The items are items displayed in an item display area of the sample application interface in the form of characters or icons, and each item has corresponding operation guide information. The operation guidance information is guidance information for guiding a user how to operate the operation interface, and each operation guidance information corresponds to one item. The operation interface is a control interface for a user to operate the in-vitro diagnostic apparatus, for example, the routine maintenance interface is a control interface for a user to perform routine maintenance on the in-vitro diagnostic apparatus, and each operation interface corresponds to one item.

Specifically, when the in-vitro diagnosis device detects a flow interface display instruction triggered by touch operation, the current interface is displayed as a workflow interface according to the flow interface display instruction. The project display area of the workflow interface displays a plurality of projects, and the projects in the project display area can be arranged from top to bottom or from left to right. The in-vitro diagnostic apparatus selects one of a plurality of items of the item display area when displaying the workflow interface. Further, the in-vitro diagnostic apparatus may select a first item of the items arranged in order when selecting one item of the plurality of items.

In step S304, the operation guidance information corresponding to the item is displayed.

Specifically, the operation guidance information corresponding to the item may be displayed in a guidance information display area of the workflow interface, the operation guidance information may include prompt information and a jump link, the prompt information may prompt a user how to operate on the corresponding operation interface in a form of text or picture, and the jump link is a link for jumping to the operation interface corresponding to the item. It can be understood that, because the operation interface corresponding to each item is different, the prompt information and the jump link corresponding to each item are also different.

And S306, jumping to an operation interface corresponding to the item when detecting that the jump link in the operation guide information is triggered.

Specifically, when the in-vitro diagnosis device monitors a touch operation initiated for the jump link in the guidance information display area, an interface jump instruction is triggered, and the operation interface corresponding to the item is jumped to according to the interface jump instruction. For example, if the currently selected item is a sample clearing item, the jump link in the operation guidance information is a link for jumping to a sample clearing interface, and when the in vitro diagnostic device detects that the jump link is touched, an interface jump instruction is triggered, and the in vitro diagnostic device jumps to the sample clearing operation interface according to the interface jump instruction.

And step S308, when the operation interface detects that the operation flow corresponding to the project is executed completely, returning to the work flow interface.

Specifically, after jumping to an operation interface corresponding to a project, the in-vitro diagnostic apparatus may detect an operation in the operation interface in real time. The in-vitro diagnosis equipment can detect the completion progress of the operation flow corresponding to the project in the operation interface by taking the operation flow in the operation guide information as a standard, and automatically returns to the work flow interface when detecting that the execution of the operation flow corresponding to the project is completed.

In one embodiment, for an operation interface corresponding to each item in the workflow interface, the extracorporeal diagnosis apparatus may be provided with operation flow standards corresponding to different operation interfaces. After jumping to the operation interface corresponding to the project, the in-vitro diagnosis device can determine the operation flow standard corresponding to the operation interface, detect the completion progress of the project in the operation interface according to the operation flow standard, and automatically return to the work flow interface when detecting that the operation flow corresponding to the project is completely executed.

In an embodiment, a completion button may be disposed in the operation interface corresponding to each item of the workflow interface, and when the in-vitro diagnostic device detects that the completion button in the operation interface is triggered, indicating that the operation flow in the operation interface has been executed, the operation interface automatically returns to the workflow interface.

Step S310, selecting one of the items which are not executed by the workflow interface, and continuing to execute the step of displaying the operation guide information corresponding to the item until the operation flows corresponding to all the items are executed.

Specifically, after automatically returning to the workflow interface, the in-vitro diagnostic device determines the project status of the project of which the corresponding operation flow has been executed as an executed status, determines the project status of the project of which the corresponding operation flow has not been executed as an unexecuted status, selects one project of the projects in the unexecuted status in the project display area of the workflow interface, and continues to execute the step of displaying the operation guidance information corresponding to the project until the operation flows corresponding to all the projects have been executed.

In one embodiment, selecting one of the items not executed by the workflow interface comprises: and randomly selecting one item in the items in the unexecuted state in the item display area of the workflow interface, or selecting one item in the items in the unexecuted state in the item display area of the workflow interface according to a preset selection mode.

In the control method of the in-vitro diagnostic equipment, only when the workflow interface is displayed, one item in the workflow interface is automatically selected, and the operation guide information corresponding to the selected item is displayed, so that a user can intuitively know the operation flow of the item. The user can directly click the jump link in the operation guide information, and can automatically jump to the operation interface corresponding to the item. And when the operation interface detects that the project is executed completely, automatically returning to the workflow interface, selecting one project in the projects which are not executed on the workflow interface, and continuously executing the step of displaying the operation guidance information corresponding to the project until all the projects are executed completely. By adopting the scheme, when medical personnel need to carry out daily maintenance, sample removal, reagent consumable preparation, calibration, quality control, sample tracking and other corresponding operations on the in-vitro diagnostic equipment every day, the operation efficiency is improved.

In one embodiment, the control method of the in-vitro diagnostic apparatus further includes: monitoring project states of projects in a workflow interface in real time; determining the monitored item with the changed item state as a target item; determining a corresponding state identifier according to the changed project state of the target project; and updating the state identification to the state mark of the corresponding target item.

Specifically, the in-vitro diagnostic device monitors the project state of each project in the project display area of the workflow interface in real time. When the in-vitro diagnosis equipment monitors that the project state of at least one project changes, a project determining instruction is obtained, and the project with the changed project state is determined as a target project according to the project determining instruction. And determining corresponding state identifiers according to the changed item states of each target item, and respectively updating the determined state identifiers to the state marks of the corresponding target items.

In this embodiment, the in-vitro diagnostic device monitors the project state of the project in the workflow interface in real time, and updates the state flag of the project in the workflow interface in real time according to the change of the project state, so that the user can know the project state of each project more intuitively.

In one embodiment, the state identification is a current execution state identification, an executed state identification, or an unexecuted state identification.

Specifically, when the item state after the change of the target item is the current execution state, it indicates that the target item is the currently executed item, and determines that the state identifier corresponding to the target item is the current execution state identifier; when the item state after the target item is changed is the executed state, indicating that the target item is the executed item, and determining that the state identifier corresponding to the target item is the executed state identifier; when the item state after the target item is changed is an unexecuted state, the target item is indicated to be an unexecuted item, and the state identifier corresponding to the target item is determined to be an unexecuted state identifier. In this embodiment, the status identifiers of the target items correspond to the item statuses of the target items one to one, so that the user can more intuitively know the item statuses of the items.

It is to be understood that the status flag of the target item may be at the front end of the target item or at the end of the target item, which is not limited herein. Taking the state flag of the target item at the front end of the target item as an example, as shown in fig. 2, the state flag of the first item is "√", which indicates that the item state of the first item is the executed state; the status identification of the second item is "<", which means that the item status of the second item is the current execution status; the status flags of the third, fourth, fifth and sixth items are respectively the respective sequence numbers, which indicate that the item statuses of the third, fourth, fifth and sixth items are all non-execution statuses.

In one embodiment, the control method of the in-vitro diagnostic apparatus further includes: when detecting that a project backtracking button in a workflow interface is triggered, acquiring a project backtracking instruction; selecting one of the executed projects according to the project backtracking instruction; and continuing to execute the step of displaying the operation guide information corresponding to the item.

The project backtracking button is a virtual control for triggering a project backtracking instruction. Specifically, the project backtracking button may be displayed in the form of text or graphics in the guide information display area of the workflow interface. And when the in vitro diagnosis equipment detects that a project backtracking button in a guide information display area of the workflow interface is triggered, acquiring a project backtracking instruction, automatically selecting one project in the project display area with the project state being an executed state according to the project backtracking instruction, and then continuously executing the step of displaying the operation guide information corresponding to the project.

In this embodiment, when the in vitro diagnostic apparatus detects that the item backtracking button is triggered, the item backtracking instruction may be acquired, and one of the executed items is automatically selected according to the item backtracking instruction, so that the operation of selecting the item is more convenient.

In one embodiment, selecting one of the executed items includes: and randomly selecting one item of which the item state is the executed item in the item display area of the workflow interface, or selecting one item of which the item state is the executed item in the item display area of the workflow interface according to a preset selection mode.

In one embodiment, selecting one of the items not executed by the workflow interface comprises: when detecting that an execution finishing button in a workflow interface is triggered, acquiring a flow continuing instruction; determining the currently executed project according to the flow continuing instruction; and selecting the next project of the currently executed project in the workflow interface according to the preset workflow sequence.

Wherein, the execution finishing button is a virtual control for triggering the process continuing instruction. Specifically, the execution complete button may be displayed in the form of text or graphics in the guidance information display area of the workflow interface. When the in-vitro diagnosis equipment detects that an execution completion button in a guide information display area of a workflow interface is triggered, representing that an operation flow corresponding to a currently executed project is executed completely, a flow continuing instruction is obtained, the currently executed project is determined according to the flow continuing instruction, and the next project of the currently executed project in the project display area is automatically selected according to a preset operation flow sequence, such as from top to bottom or from left to right.

In one embodiment, the control method of the in-vitro diagnostic apparatus further includes: when detecting that a re-execution button in a workflow interface is triggered, acquiring a re-execution instruction; resetting all projects in the workflow interface to be unexecuted projects according to the re-execution instruction; and continuing to execute the step of selecting one of the items not executed by the workflow interface.

Wherein the re-execution button is a virtual control that triggers the re-execution instruction. Specifically, the re-execution button may be displayed in text or graphic form in the item display area of the workflow interface. When the in-vitro diagnosis device detects that a re-execution button in the project display area of the workflow interface is triggered, representing that all projects in the project display area need to be re-executed, acquiring a re-execution instruction, and resetting the project states of all the projects in the project display area of the workflow interface to be in an unexecuted state according to the re-execution instruction.

And when the in-vitro diagnosis equipment detects that the project states of all the projects in the project display area of the workflow interface are reset to be in the non-execution state, continuing to execute the step of selecting one of the projects which are not executed by the workflow interface. It can be understood that, when the step of selecting one of the items not executed by the workflow interface is continuously executed, the item state of the selected item is the current execution state.

In one embodiment, when the step of selecting one of the unexecuted items of the workflow interface is continuously executed, the current execution state identifier is updated to the state mark of the selected item, and the unexecuted state identifier is updated to the state marks of the rest unexecuted items except the selected item in the workflow interface.

In one embodiment, the first of the sequentially unexecuted items in the workflow interface may be selected while continuing to perform the step of selecting one of the unexecuted items in the workflow interface. And updating the current execution state identification to the state mark of the first item in the unexecuted items which are arranged in sequence in the workflow interface, and updating the unexecuted state identification to the state marks of the rest unexecuted items except the first item in the workflow interface.

In one embodiment, the items in the item display area of the workflow interface may include at least one of routine maintenance, sample cleanup, reagent consumable preparation, calibration, quality control, and sample tracking.

It should be understood that, although the steps in the flowchart of fig. 3 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least a portion of the steps in fig. 3 may include multiple sub-steps or multiple stages that are not necessarily performed at the same time, but may be performed at different times, and the order of performance of the sub-steps or stages is not necessarily sequential, but may be performed in turn or alternately with other steps or at least a portion of the sub-steps or stages of other steps.

In one embodiment, as shown in fig. 4, there is provided a control apparatus 400 of an in-vitro diagnostic device, the apparatus comprising: a first item selection module 401, an information display module 402, an interface skip module 403, an interface return module 404, and a second item selection module 405, wherein:

the first item selection module 401 is configured to select one item in a workflow interface when the workflow interface of the in-vitro diagnostic apparatus is displayed.

An information display module 402, configured to display operation guidance information corresponding to the item.

And an interface jump module 403, configured to jump to an operation interface corresponding to the item when it is detected that the jump link in the operation guidance information is triggered.

The interface returning module 404 is configured to return to the workflow interface when it is detected that the execution of the operation flow corresponding to the project is completed on the operation interface.

The second item selecting module 405 is configured to select one item of the items that are not executed in the workflow interface, and continue to execute the step of displaying the operation guidance information corresponding to the item until the operation flows corresponding to all the items are executed.

In one embodiment, the control device of the in-vitro diagnostic apparatus further comprises a status update module for monitoring the project status of the project in the workflow interface in real time; determining the monitored item with the changed item state as a target item; determining a corresponding state identifier according to the changed project state of the target project; and updating the state identification to the state mark of the corresponding target item.

In one embodiment, the state identification is a current execution state identification, an executed state identification, or an unexecuted state identification.

In one embodiment, the second item selection module is further configured to obtain an item backtracking instruction when it is detected that an item backtracking button in the workflow interface is triggered; selecting one of the executed projects according to the project backtracking instruction; and continuing to execute the step of displaying the operation guide information corresponding to the item.

In one embodiment, the second item selection module is further configured to acquire a flow continuing instruction when it is detected that an execution completion button in the workflow interface is triggered; determining the currently executed project according to the flow continuing instruction; and selecting the next project of the currently executed project in the workflow interface according to the preset workflow sequence.

In one embodiment, the second item selection module is further configured to obtain a re-execution instruction when detecting that a re-execution button in the workflow interface is triggered; resetting all projects in the workflow interface to be unexecuted projects according to the re-execution instruction; and continuing to execute the step of selecting one of the items not executed by the workflow interface.

For specific limitations of the control device of the extracorporeal diagnostic apparatus, reference may be made to the above limitations of the control method of the extracorporeal diagnostic apparatus, which are not described herein again. The respective modules in the control device of the in-vitro diagnostic apparatus can be wholly or partially realized by software, hardware and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

In one embodiment, a computer device is provided, which may be a terminal, and its internal structure diagram may be as shown in fig. 1. The computer device includes a processor, a memory, a network interface, a display screen, and an input device connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system and a computer program. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program is executed by a processor to implement a control method of an extracorporeal diagnostic apparatus. The display screen of the computer equipment can be a liquid crystal display screen or an electronic ink display screen, and the input device of the computer equipment can be a touch layer covered on the display screen, a key, a track ball or a touch pad arranged on the shell of the computer equipment, an external keyboard, a touch pad or a mouse and the like.

Those skilled in the art will appreciate that the architecture shown in fig. 1 is merely a block diagram of some of the structures associated with the disclosed aspects and is not intended to limit the computing devices to which the disclosed aspects apply, as particular computing devices may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.

In one embodiment, a computer device is provided, which includes a memory and a processor, the memory stores a computer program, and the processor implements the control method of the extracorporeal diagnosis device of any of the above embodiments when executing the computer program.

In one embodiment, a computer-readable storage medium is provided, on which a computer program is stored, which, when being executed by a processor, implements the method of controlling the extracorporeal diagnostic apparatus of any of the above-described embodiments.

It will be understood by those of ordinary skill in the art that all or a portion of the processes of the methods of the embodiments described above may be implemented by a computer program that may be stored on a non-volatile computer-readable storage medium, which when executed, may include the processes of the embodiments of the methods described above, wherein any reference to memory, storage, database, or other medium used in the embodiments provided herein may include non-volatile and/or volatile memory.

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

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

Claims (10)

1. A method of controlling an in vitro diagnostic apparatus, the method comprising:

when a workflow interface of the in-vitro diagnosis equipment is displayed, selecting one project in the workflow interface;

displaying operation guide information corresponding to the item;

when detecting that a jump link in the operation guide information is triggered, jumping to an operation interface corresponding to the item;

when the operation interface detects that the operation flow corresponding to the project is executed completely, returning to the workflow interface;

and selecting one item in the items which are not executed by the workflow interface, and continuing to execute the step of displaying the operation guide information corresponding to the item until the operation flows corresponding to all the items are executed.

2. The method of claim 1, further comprising:

monitoring project states of projects in a workflow interface in real time;

determining the monitored item with the changed item state as a target item;

determining a corresponding state identifier according to the changed project state of the target project;

and updating the state identification to the state mark of the corresponding target item.

3. The method of claim 2, wherein the state identifier is a current execution state identifier, an executed state identifier, or an unexecuted state identifier.

4. The method of claim 1, further comprising:

when detecting that a project backtracking button in a workflow interface is triggered, acquiring a project backtracking instruction;

selecting one of the executed projects according to the project backtracking instruction;

and continuing to execute the step of displaying the operation guide information corresponding to the item.

5. The method of claim 1, wherein the selecting one of the items not executed by the workflow interface comprises:

when detecting that an execution finishing button in a workflow interface is triggered, acquiring a flow continuing instruction;

determining the currently executed project according to the flow continuing instruction;

and selecting the next project of the currently executed project in the workflow interface according to a preset workflow sequence.

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

when detecting that a re-execution button in a workflow interface is triggered, acquiring a re-execution instruction;

resetting all projects in the workflow interface to be unexecuted projects according to the re-execution instruction;

and continuing to execute the step of selecting one of the items not executed by the workflow interface.

7. A control apparatus of an in vitro diagnostic device, the apparatus comprising:

the first item selection module is used for selecting one item in the workflow interface when the workflow interface of the in-vitro diagnosis equipment is displayed;

the information display module is used for displaying the operation guide information corresponding to the project;

the interface skipping module is used for skipping to an operation interface corresponding to the item when the skipping link in the operation guide information is triggered;

the interface returning module is used for returning to the workflow interface when the operation interface detects that the operation flow corresponding to the project is executed completely;

and the second item selection module is used for selecting one item in the items which are not executed by the workflow interface and continuously executing the step of displaying the operation guide information corresponding to the item until the operation processes corresponding to all the items are executed.

8. The apparatus of claim 7, further comprising a status update module to monitor project status of a project in the workflow interface in real time;

determining the monitored item with the changed item state as a target item;

determining a corresponding state identifier according to the changed project state of the target project;

and updating the state identification to the state mark of the corresponding target item.

9. A computer device comprising a memory and a processor, the memory storing a computer program, characterized in that the computer program realizes the steps of the method of any one of claims 1 to 6 when executed by the processor.

10. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method of any one of claims 1 to 6.

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