CN109698024B - Operation flow processing method and device and ultrasonic equipment - Google Patents

Abstract

The application discloses a processing method and device of an operation flow and ultrasonic equipment, wherein the method comprises the following steps: recording an operation flow of a user and recording information input by the user in an operation step of the operation flow; determining a classification identifier for classifying the operation flow from information input by a user corresponding to the operation flow according to a preset classification relation; if the classification marks are the same in the operation flows, the occurrence sequence of the operation steps is the same and the occurrence times are larger than a first threshold value, determining the operation steps as a sub-flow; when the stored sub-processes exist, determining the sub-processes matched with the corresponding classification identifiers as target sub-processes when receiving information input by a user; and outputting prompt information to the operation steps in the target sub-process in sequence according to the sequence of the operation steps in the target sub-process. The embodiment of the application does not need the user to expend excessive energy on memorizing the next operation step, so that the user is focused on the diagnostic image.

Description

Operation flow processing method and device and ultrasonic equipment

Technical Field

The present disclosure relates to the field of medicine, and in particular, to a method and apparatus for processing an operation procedure, and an ultrasonic device.

Background

In an ultrasound examination job, a user (which may be a doctor) needs to perform a series of operation procedures using an ultrasound apparatus. For example, the doctor needs to perform the procedures of newly built patient-probe selection-diagnosis mode selection-measurement of fetal double-top diameter after fetal head scanning, head circumference-measurement of fetal circumference after fetal abdomen scanning-measurement of fetal femur after fetal femur scanning-report checking-end of patient.

In the examination process, the operation flow of the doctor is as follows: the Patient key performs new user information-probe key performs probe selection-diagnosis mode selection- (after the probe is operated to acquire an ultrasonic image), the freeze ultrasonic image is performed by the freeze track ball to fetal head standard section frame-calc key performs marking head measurement line-set key performs confirming head measurement result-the freeze ultrasonic image is performed by the freeze track ball to fetal abdomen standard section frame-calc key performs marking abdomen measurement result- (after the probe is operated to acquire an ultrasonic image) the freeze ultrasonic image is performed by the freeze track ball to fetal femur standard section frame-calc key performs marking femur measurement line-set key performs confirming femur measurement result-report key viewing report-endxa key finishes diagnosis.

At present, the examination process of a patient is finished, the operation process is complex, and a doctor needs to expend more energy on the operation process.

Disclosure of Invention

Based on the above, the application provides a processing method of an operation procedure, which is used for reducing the effort of doctors on the operation procedure.

The application also provides a processing device of the operation flow and ultrasonic equipment, which are used for ensuring the realization and application of the method in practice.

The technical scheme that this application provided is:

the application discloses a processing method of an operation flow, comprising the following steps:

recording an operation flow of a user and recording information input by the user in an operation step of the operation flow;

determining a classification identifier for classifying the operation flow from information input by a user corresponding to the operation flow according to a preset classification relation;

if the operation flows with the same classification identifiers have the same appearance sequence and the appearance times of a plurality of operation steps are larger than a first threshold value, determining the operation steps as a sub-flow, and storing the sub-flow and the classification identifiers correspondingly;

when the stored sub-processes exist, determining the sub-processes matched with the corresponding classification identifiers as target sub-processes when the information input by the user is received;

and outputting prompt information to the operation steps in the target sub-process in sequence according to the sequence of the operation steps in the target sub-process.

Preferably, the information input by the user includes: department information, screening grade, examination site, and patient information.

Preferably, outputting a prompt message to the operation step in the target sub-flow includes:

determining a prompt operation step from the target sub-flow; the prompting operation step is one or more operation steps adjacent to the current operation step in the target sub-flow; the initial value of the current operation step is a preset operation step;

displaying information of the prompting operation step and options for a user to select whether to enter the prompting operation step; the options point to preset instructions corresponding to the options.

Preferably, after the information for displaying the prompting operation step and the option for the user to select whether to enter the displaying operation step, the method further includes:

when receiving an instruction of a user for selecting to enter any prompting operation step, invoking a preset program corresponding to the any prompting operation step;

or when receiving an instruction of selecting to skip a step to be entered by a user, determining a prompting operation step from the target sub-flow by taking the operation step to be entered as a current operation step, and displaying prompting information of the prompting operation step until no non-prompting operation step exists in the target sub-flow; the operation step to be entered is an operation step which is located after the current operation step and is adjacent to the current operation step in the prompt operation step;

or when receiving an instruction of selecting the operation steps except the prompt operation step, executing a preset program corresponding to the operation step selected by the user, and outputting prompt information to the operation step in the target sub-flow again after the operation step is completed.

Preferably, the preset operation step is a diagnostic mode operation step.

Preferably, the method further comprises:

and when the operation procedures with the same classification identifier are the same, and the occurrence sequence of a plurality of operation steps different from the operation steps in the sub-procedure corresponding to the classification identifier is the same and the occurrence frequency is larger than a second threshold value, the plurality of operation steps are stored in an overlapping manner in the sub-procedure.

Preferably, if the classification identifier is the same in the operation flows, the occurrence sequence of the plurality of operation steps is the same and the occurrence number is greater than the first threshold, the plurality of operation steps are determined as a sub-flow, and the sub-flow is stored corresponding to the classification identifier, including:

identifying a plurality of operation flows with the same classification identifier to be stored as an operation flow group;

if a plurality of operation steps with the same appearance sequence and the appearance times larger than a first threshold value exist in the operation flow group, determining the operation steps as a sub-flow according to the sequence;

and correspondingly storing the classification identifier of the operation flow group and the sub-flow.

Preferably, the method further comprises:

and importing and/or exporting the sub-process in the case of receiving an export and/or import instruction for the sub-process.

The application also discloses a processing device of the operation flow, comprising:

the recording module is used for recording the operation flow of the user and the information input by the user in the operation steps of the operation flow;

the first determining module is used for determining a classification identifier for classifying the operation flow from information input by a user corresponding to the operation flow according to a preset classification relation;

the second determining module is used for determining the operation steps as a sub-process and storing the sub-process and the classification identifier correspondingly if the occurrence sequence of the operation steps is the same and the occurrence frequency is larger than a first threshold value in the operation processes with the same classification identifier;

the third determining module is used for determining the sub-process matched with the corresponding classification identifier as a target sub-process when receiving the information input by the user after the stored sub-process exists;

and the prompt module is used for outputting prompt information to the operation steps in the target sub-process in sequence according to the sequence of the operation steps in the target sub-process.

The application also discloses an ultrasonic device comprising:

the device comprises a processor, an input module and an output module;

the processor is respectively connected with the input module and the output module;

the processor is used for executing any one of the methods;

the input module is used for inputting user operation;

and the output module is used for outputting prompt information.

The beneficial effects of this application are:

in the processing method of the operation flow, the operation flow of the user and the information input by the user in the operation step of the operation flow are recorded; determining a classification identifier corresponding to the operation flow from information input by a user according to a preset classification relation; if the operation flows with the same classification identifiers are the same in appearance sequence and the appearance times are larger than a first threshold value, determining the operation steps as a sub-flow, and storing the sub-flow and the classification identifiers correspondingly, namely repeatedly appearing flows in the operation flows; therefore, the sub-process corresponding to any one classification identifier is a process frequently used by a user of the input information corresponding to the classification identifier;

when receiving input information in the user checking process, determining a sub-process matched with a classification identifier corresponding to the input information as a target sub-process, and sequentially outputting prompt information to each operation step according to the sequence of each operation step in the target sub-process. Because the target sub-flow is a sub-flow matched with the classification identifier in the input information, the target sub-flow is a sub-flow frequently used by a user corresponding to the input information; therefore, according to the sequence of the operation steps in the target sub-flow, the operation steps which are sequentially prompted are the operation steps required by the next step in the user checking process, so that the user can operate according to the prompted operation steps, and the user does not need to expend excessive energy in memorizing the next operation step, and is focused on the diagnostic image.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present application, and that other drawings may be obtained according to the provided drawings without inventive effort to a person skilled in the art.

FIG. 1 is a flowchart of an embodiment of a processing method of an operation flow in the present application;

FIG. 2 is a schematic diagram of one or more of the operational flows of the present application;

FIG. 3 is a schematic diagram of an embodiment of a processing device according to an operation flow in the present application;

fig. 4 is a schematic structural diagram of an ultrasonic apparatus in the present application.

Detailed Description

Fig. 1 is an exemplary diagram of an application scenario of a processing apparatus of an operation flow provided in the present application, and fig. 1 includes: the processing device of the operation flow is connected with the ultrasonic equipment in the prior art; the processing device of the operation flow is used for extracting sub-flows in the operation flow corresponding to the same classification identifier, and prompting the user to operate steps according to the target sub-flow corresponding to the classification identifier in the current input information so as to reduce the effort of the user on the operation steps.

The processing means of the operational flow may be provided in a background system.

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

Fig. 1 is a processing method of an operation flow disclosed in an embodiment of the present application, including the following steps:

step 101: and under the condition of receiving a preset opening instruction, recording an operation flow and user input information.

In this embodiment, the preset opening instruction represents a trigger instruction executed in this embodiment, and this embodiment operates in the background system, and is not affected by the on/off of the ultrasonic device after opening.

The user operates the ultrasonic device such that the ultrasonic device performs according to a flow required by the user. In this step, a plurality of sequentially executed operation steps of the user are recorded to obtain an operation flow. The general recording operation steps include: diagnostic mode, newly created patient, measurement, body markers, notes and reports, etc.

For example, the user performs the following steps sequentially in the obstetrical level I screening: newly created patient-probe selection-diagnostic mode selection-measurement of fetal double apical diameter and head circumference-measurement of fetal abdominal circumference-measurement of fetal femur-review of report-end patient.

In this embodiment, after a user triggers a certain step in the operation flow, the ultrasonic device invokes a program corresponding to the step according to the trigger instruction, so that the user can perform the operation of the step. For example, after the user presses the Probe button, the ultrasound device invokes a program corresponding to the trigger instruction of the Probe button, so that the user selects the Probe and inputs diagnostic mode information.

In this step, information input by the user is recorded.

Step 102: and determining the classification identification of the operation flow from the user input information according to the preset classification relation.

In the operation procedure, there is generally an operation step of selecting a diagnostic mode, in which a user can input one or more of information of a department, a screening level, an examination site, and the like, and in the newly built patient operation step, the user inputs patient information. Thus, in this step, the information input by the user may include one or more of department information, screening level, examination site, patient information, and the like, and further, the classification identification of the operation flow is determined from the user input information.

In this embodiment, the classification identifier is associated with optional information provided by the ultrasound device in the diagnostic mode of operation, and the optional information provided by different ultrasound devices in the diagnostic mode of operation is different. In this embodiment, the classification identifier may be set according to optional information provided by the operation step of the ultrasound apparatus in the diagnostic mode, and the embodiment is not limited to the content of the classification identifier.

For example, the optional information provided by some ultrasound devices in the diagnostic mode is the examination site, and the classification identifier may be the examination site; the optional information provided by some ultrasound devices in this step of operation in diagnostic mode is a screening grade, and the classification identifier may be a screening grade.

Specifically, in this step, an implementation manner of determining the classification identifier of the operation flow from the information input by the user may include:

and establishing a corresponding relation between preset keywords and the classification identifiers in the information input by the user in advance. The following table shows:

it should be noted that the content of the above table is only an example, specifically, the corresponding relationship between the preset keyword and the classification identifier needs to be set according to the situation of the actual ultrasonic device, and the embodiment does not limit the content of the corresponding relationship between the preset keyword and the classification identifier.

According to the division of the fields of clinical application by the society of ultrasound and the society of sonographers of the society of doctors in China, the general ultrasound medical profession can be roughly divided into the department of abdomen, heart, blood vessel, gynecology, obstetrics, small organ, urology, pediatrics, etc. The screening can be performed according to the screening grade under the same department, for example, the screening can be classified into grade I screening, grade II screening, grade III screening, NT screening and the like under obstetrical department, and the fetal heart screening, fetal craniocerebral screening and the like under grade III screening.

For ease of description, the following classification labels are presented using department-screening scale as an example.

For example, observe the general flow of operations for a class i ultrasound examination of a doctor in a trimethyl hospital obstetrical ultrasound room: newly-built patient, probe selection, diagnosis mode selection, measurement of fetal double-top diameter and head circumference, measurement of fetal abdomen circumference, measurement of fetal femur, report checking and patient ending. At this time, the operation flow of the user is: new patient, probe selection, diagnosis mode selection, head measurement, abdomen measurement, femur measurement, report checking and patient ending. In this step, when the information entered by the user indicates obstetrical and level I screening, the recorded operational procedure may be in the form of: 01-I- -newly built patient, probe selection, diagnosis mode selection, head measurement, abdomen measurement, femur measurement, report checking and patient ending; where 01 represents obstetrical identification and I represents identification of level I screening.

Because in practical application, a plurality of departments can exist in one hospital, and each department is provided with ultrasonic equipment; therefore, in this step, the operation flow of each ultrasonic apparatus is recorded in real time, resulting in a plurality of operation flows.

For example, the recorded multiple operational flows are shown in FIG. 2 and may include:

operational flow 1:01-I, newly built patient, probe selection, diagnosis mode selection, head measurement, abdomen measurement, femur measurement, report checking and patient ending.

Operational flow 2:01-I, newly built patient, probe selection, diagnosis mode selection, head measurement, abdomen measurement, femur measurement, report checking, patient ending and patient recall.

Operational flow 3:01-I, probe selection, new patient, probe selection, diagnosis mode selection, head measurement, abdomen measurement, femur measurement, report checking and patient ending.

Operational flow 4:01-I, newly built patient, probe selection, diagnosis mode selection, head measurement, abdomen measurement, femur measurement, annotation addition, report checking and patient ending.

Step 103: from the recorded plurality of operational flows, operational flow groups having the same classification identity are identified.

In this step, since each of the recorded operation flows to be classified includes the classification identifier, in this step, the recorded operation flows to be classified may be classified according to the classification identifier. For convenience of description, the operation flows having the same classification identifier are referred to as one operation flow group, and at this time, a plurality of operation flow groups are obtained.

Of the 4 operation flows listed above, operation flow 1, operation flow 2, operation flow 3, and operation flow 4 are one set of operation flows to be processed.

Step 104: and identifying the flow formed by a plurality of operation steps meeting the preset condition as a sub-flow from the operation flow group to be processed, and taking the sub-flow as the sub-flow corresponding to the operation flow group to be processed.

In the step, the operation flow group to be processed is any operation flow group with the same classification identifier; each item included in the operational flow is referred to as an operational step. The preset conditions are as follows: the order of occurrence is the same and the number of occurrences is greater than the first threshold. The process formed according to the sequence of a plurality of operation steps meeting the preset condition is called a sub-process corresponding to the operation process group to be processed.

Wherein, the larger the first threshold value is, the higher the frequency of the determined sub-flow meeting the preset condition is used by the user.

For example, among the above 4 operation flows, the operation flow 1, the operation flow 2, and the operation flow 3 all include: new patient, probe selection, diagnosis mode selection, head measurement, abdomen measurement, femur measurement, report checking and patient ending. At this time, newly built patient, probe selection, diagnosis mode selection, head measurement, abdomen measurement, femur measurement, report checking, and patient ending are taken as sub-flows.

Step 105: and correspondingly storing the classification identifier of the operation flow group to be processed and the corresponding sub-flow.

In this embodiment, since one to-be-processed operation flow group corresponds to one classification identifier, in this step, the sub-flows identified from the to-be-processed operation flow group are saved in correspondence with the classification identifier.

For example, the classification identifier is an obstetrical-class I screening identifier, at which point the identified sub-procedure is saved in correspondence with the obstetrical-class I screening.

The embodiment records the operation flow and the information input by the user, and determines the classification identification of the operation flow from the information input by the user. Classifying the recorded operation flows according to the classification identifiers of the operation flows, extracting sub-flows from each type of operation flows, and correspondingly storing the classification identifiers and the sub-flows.

Step 106: and when a trigger instruction of a preset operation step is received, acquiring information input by a user.

In this step, the preset operation step is a step of selecting a diagnostic mode. And acquires information input by the user at the operation step.

Step 107: and determining the classification identification according to the acquired information.

Specifically, the process of determining the classification identifier according to the obtained information is the same as the specific implementation manner of step 102, and will not be described herein.

Step 108: and determining a target sub-process from the corresponding relation between the stored classification identifier and the sub-process according to the determined classification identifier.

In this step, the target sub-flow is a sub-flow matching the determined classification identifier among the stored sub-flows.

Step 109: and outputting prompt information to the operation steps in the target sub-process in sequence according to the sequence of the operation steps in the target sub-process.

Specifically, the specific implementation of this step may include the following steps:

step A1: a hint operation step is determined from the target sub-flow.

In this step, one or more operation steps adjacent to the current operation step are determined from the target sub-flow, and the determined steps are all operation steps that need to be prompted currently, and for convenience of description, the determined steps are referred to as prompting operation steps. Wherein the initial value of the current operation step is the operation step of the diagnosis mode.

Thus, the first time this step is performed, one or more of the operational steps of the target sub-flow that are adjacent to the operational step of the diagnostic mode are taken as prompt operational steps. For example, the prompt procedure is head measurement, abdominal measurement and femur measurement, respectively.

Step A2: information of the prompting operation step is displayed, and an option for a user to select whether to enter the prompting operation step.

Information of the prompting operation steps is displayed, names of the prompting operation steps can be displayed, one option for skipping the to-be-entered operation steps is displayed, and each prompting operation step corresponds to an option for representing entering.

The operation step to be entered is an operation step which is subsequent to the current operation step and is adjacent to the current operation step, for example, the operation step to be entered is a head measurement.

In this step, each option corresponds to a preset instruction, for example, the preset instruction corresponding to the "enter" option corresponding to the operation step of the head measurement is an instruction of a program for calling the operation step of the head measurement.

Step A3: when receiving an instruction of selecting to enter any prompting operation step, a user invokes a preset program corresponding to any prompting operation step.

The method comprises the steps of calling a preset instruction corresponding to an option when a user selects the option of entering corresponding to any prompting operation step, and entering a program corresponding to any integral operation step.

Step A4: when receiving an instruction of selecting to skip the step to be entered by a user, taking the step to be entered as a current operation step, determining a prompt operation step from a target sub-flow, and displaying prompt information of the prompt operation step until no operation step which is not prompted exists in the target sub-flow.

When the user clicks the "skip" option, this indicates that the step to be entered needs to be skipped. At this time, the present step uses the operation step to be entered as the current operation step, and determines the prompting operation step from the target sub-flow. Specifically, the procedure of determining the prompting operation step by taking the operation step to be entered as the current operation step is the same as the step A1, and will not be described again here.

In this step, the operation step to be entered is taken as the current operation step, and the execution step A1 is returned and sequentially executed until no operation step not prompted exists in the target sub-flow.

Step A5: when receiving an instruction of selecting an operation step except for a prompt operation step from a user, executing a preset program corresponding to the operation step selected by the user, and outputting prompt information to the operation step in the target sub-flow again after the operation step is completed.

In this step, if the user does not select any one of the options in the prompt message, but selects an operation step other than the prompt operation step, in this case, the present embodiment executes the operation step currently selected by the user, and continues to output the prompt message to the operation step in the target sub-flow after the operation step is completed.

Specifically, after the operation step is complete, the process of outputting the prompt information to the operation step in the target sub-flow is continued, which can be determined according to the actual situation, and the embodiment does not limit the process.

In this embodiment, whether the user selects "enter", "skip" or key operation for executing the required operation steps, the present embodiment records the operation steps in the current inspection process and the information input by the user, and obtains the recorded operation flow.

In this embodiment, as long as the user has an operation flow, the embodiment records the operation flow, and determines the sub-flow corresponding to the classification identifier according to the recorded operation flow. When a sub-process which is determined by a certain latest classifying identifier is different from a stored sub-process which corresponds to the classifying identifier, replacing the stored sub-process which corresponds to the classifying identifier with the current latest determined sub-process, so as to update the corresponding relation between the stored classifying identifier and the sub-process, increase the probability that the updated sub-process is a process required by a user in the checking process, further avoid complicated key for searching and activating the corresponding function of the equipment, greatly improve the working efficiency, and further reduce the effort of the user in the operation process.

In this embodiment, when the user uses other types of ultrasound devices, the required sub-flow may be exported from one device and imported into another ultrasound device through an external device. Thus, the user can use directly on another ultrasound device. The external device can be a device such as a USB flash disk.

Fig. 3 is a processing apparatus of an operation flow disclosed in the present application, including:

a recording module 301, configured to record an operation flow of a user and record information input by the user in an operation step of the operation flow;

the first determining module 302 is configured to determine, according to a preset classification relationship, a classification identifier for classifying the operation flow from information input by a user corresponding to the operation flow;

a second determining module 303, configured to determine, if the order of occurrence of the plurality of operation steps is the same and the number of occurrences is greater than a first threshold in the operation flows with the same classification identifier, the plurality of operation steps as a sub-flow, and store the sub-flow in correspondence with the classification identifier;

a third determining module 304, configured to determine, when the stored sub-flows exist and the information input by the user is received, that the sub-flows with corresponding classification identifiers being matched are target sub-flows;

and the prompt module 305 is configured to sequentially output prompt information to the operation steps in the target sub-process according to the sequence of the operation steps in the target sub-process.

Preferably, the prompting module 305 is specifically configured to:

determining a prompt operation step from the target sub-flow; the prompting operation step is one or more operation steps adjacent to the current operation step in the target sub-flow; the initial value of the current operation step is a preset operation step; displaying information of the prompting operation step and options for a user to select whether to enter the prompting operation step; the options point to preset instructions corresponding to the options.

Preferably, the prompting module 305 is further configured to:

when receiving an instruction of a user for selecting to enter any prompting operation step, invoking a preset program corresponding to the any prompting operation step;

or when receiving an instruction of selecting to skip a step to be entered by a user, determining a prompting operation step from the target sub-flow by taking the operation step to be entered as a current operation step, and displaying prompting information of the prompting operation step until no non-prompting operation step exists in the target sub-flow; the operation step to be entered is an operation step which is located after the current operation step and is adjacent to the current operation step in the prompt operation step;

or when receiving an instruction of selecting the operation steps except the prompt operation step, executing a preset program corresponding to the operation step selected by the user, and outputting prompt information to the operation step in the target sub-flow again after the operation step is completed.

Preferably, the method further comprises:

and the updating module is used for storing the plurality of operation steps in the sub-process corresponding to the classification identifier in an overlapping manner when the occurrence sequence of the plurality of operation steps is the same and the occurrence frequency is larger than a second threshold value in the operation process with the same classification identifier.

Preferably, the second determining module 303 is specifically configured to: identifying a plurality of operation flows with the same classification identifier to be stored as an operation flow group; if a plurality of operation steps with the same appearance sequence and the appearance times larger than a first threshold value exist in the operation flow group, determining the operation steps as a sub-flow according to the sequence; and correspondingly storing the classification identifier of the operation flow group and the sub-flow.

Preferably, the method further comprises:

and the import and export module is used for importing and/or exporting the sub-process under the condition that an export and/or import instruction of the sub-process is received.

Fig. 4 is a schematic structural diagram of an ultrasonic apparatus provided in the present application, including: the device comprises a processor, an input module and an output module; the processor is connected with the input module and the output module respectively;

a processor for performing the method embodiments described above; the input module is used for inputting user operation; and the output module is used for outputting prompt information.

In this specification, each embodiment is described in a progressive manner, and each embodiment is mainly described by a difference from other embodiments, and identical and similar parts between the embodiments are referred to each other. Relational terms such as "first" and "second", and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. The words "comprise", "comprising", and the like are to be interpreted in an inclusive sense rather than an exclusive or exhaustive sense; that is, it is the meaning of "including but not limited to". Variations, equivalent substitutions, modifications and the like can be made without departing from the spirit of the present invention, which are all within the scope of the present invention.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. A method of processing an operational flow, comprising:

recording an operation flow of a user and recording information input by the user in an operation step of the operation flow;

determining a classification identifier for classifying the operation flow from information input by a user corresponding to the operation flow according to a preset classification relation;

if the operation flows with the same classification identifiers have the same appearance sequence and the appearance times of a plurality of operation steps are larger than a first threshold value, determining the operation steps as a sub-flow, and storing the sub-flow and the classification identifiers correspondingly;

when the stored sub-processes exist, determining the sub-processes matched with the corresponding classification identifiers as target sub-processes when the information input by the user is received;

outputting prompt information to the operation steps in the target sub-process in sequence according to the sequence of the operation steps in the target sub-process;

wherein the information input by the user comprises: department information, screening grade, examination site, and patient information.

2. The method of claim 1, wherein outputting a hint to the operation steps in the target sub-process comprises:

determining a prompt operation step from the target sub-flow; the prompting operation step is one or more operation steps adjacent to the current operation step in the target sub-flow; the initial value of the current operation step is a preset operation step;

displaying information of the prompting operation step and options for a user to select whether to enter the prompting operation step;

the options point to preset instructions corresponding to the options.

3. The method of claim 2, wherein after displaying the information prompting the operation and the option for the user to select whether to enter the display operation, further comprising:

when receiving an instruction of a user for selecting to enter any prompting operation step, invoking a preset program corresponding to the any prompting operation step;

or when receiving an instruction of selecting to skip a step to be entered by a user, determining a prompting operation step from the target sub-flow by taking the operation step to be entered as a current operation step, and displaying prompting information of the prompting operation step until no non-prompting operation step exists in the target sub-flow; the operation step to be entered is an operation step which is located after the current operation step and is adjacent to the current operation step in the prompt operation step;

or when receiving an instruction of selecting the operation steps except the prompt operation step, executing a preset program corresponding to the operation step selected by the user, and outputting prompt information to the operation step in the target sub-flow again after the operation step is completed.

4. The method of claim 2, wherein the predetermined operation step is a diagnostic mode operation step.

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

and when the operation procedures with the same classification identifier are the same, and the occurrence sequence of a plurality of operation steps different from the operation steps in the sub-procedure corresponding to the classification identifier is the same and the occurrence frequency is larger than a second threshold value, the plurality of operation steps are stored in an overlapping manner in the sub-procedure.

6. The method according to claim 1, wherein if the classification identifier is the same in the operation flow, the number of operation steps occur in the same order and the number of occurrence times is greater than a first threshold, determining the number of operation steps as one sub-flow, and storing the sub-flow in correspondence with the classification identifier, includes:

identifying a plurality of operation flows with the same classification identifier to be stored as an operation flow group;

if a plurality of operation steps with the same appearance sequence and the appearance times larger than a first threshold value exist in the operation flow group, determining the operation steps as a sub-flow according to the sequence;

and correspondingly storing the classification identifier of the operation flow group and the sub-flow.

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

and importing and/or exporting the sub-process in the case of receiving an export and/or import instruction for the sub-process.

8. A processing apparatus for an operational flow, comprising:

the recording module is used for recording the operation flow of the user and the information input by the user in the operation steps of the operation flow;

the first determining module is used for determining a classification identifier for classifying the operation flow from information input by a user corresponding to the operation flow according to a preset classification relation;

the second determining module is used for determining the operation steps as a sub-process and storing the sub-process and the classification identifier correspondingly if the occurrence sequence of the operation steps is the same and the occurrence frequency is larger than a first threshold value in the operation processes with the same classification identifier;

the third determining module is used for determining the sub-process matched with the corresponding classification identifier as a target sub-process when receiving the information input by the user after the stored sub-process exists;

the prompting module is used for outputting prompting information to the operation steps in the target sub-process in sequence according to the sequence of the operation steps in the target sub-process;

wherein the information input by the user comprises: department information, screening grade, examination site, and patient information.

9. An ultrasound device, comprising:

the device comprises a processor, an input module and an output module;

the processor is respectively connected with the input module and the output module;

the processor for performing the method of any of claims 1-7;

the input module is used for inputting user operation;

and the output module is used for outputting prompt information.

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