CN114271829B - Method, device, equipment and medium for analyzing heart beat double marks - Google Patents

Abstract

The invention discloses a heart beat double-mark analysis method, which comprises the following steps: acquiring a target heart beat waveform, identifying and classifying the target heart beat waveform, and acquiring and displaying a first-level attribute type of each target heart beat in the target heart beat waveform; acquiring a data structure body of a current target heart beat selected by a user in a target heart beat waveform; displaying a target modification interface corresponding to the current target heart beat according to the display heart beat type, acquiring modification information or confirmation information input into the target modification interface, and modifying or confirming the display heart beat type and/or the basic heart beat type according to the modification information or the confirmation information; when the display heart beat type of the current target heart beat is modified, the first-level attribute type of the current target heart beat is modified and displayed according to the modified display heart beat type. The invention enables the information of the heart beat mark to have integrity and be simple and convenient enough. Furthermore, a heart beat double-marking analysis device, a device and a storage medium are also provided.

Description

Method, device, equipment and medium for analyzing heart beat double marks

Technical Field

The invention relates to the technical field of heart beat marks, in particular to a heart beat double-mark analysis method, a heart beat double-mark analysis device, heart beat double-mark analysis equipment and a heart beat double-mark analysis medium.

Background

The heart beat mark analysis is used for grasping heart beat condition of the patient, the dynamic electrocardio analysis system continuously collects electrocardio data information of the human body for 24 hours or more in a natural state, and the electrocardio data information is processed, analyzed, replayed and printed through computer software to assist doctors in analysis report.

Heart beats, also known as heart beats, are activities of the heart in the physiological cycle, whose activity waveform can be traced by recording the potential changes of their activities by a recorder. The recognition of the heart beat type is the basis of dynamic electrocardiographic analysis and is also the main function of a dynamic electrocardiographic analysis system. In the conventional heart beat marking process, a method is used that one heart beat corresponds to one heart beat type mark name. The method is simple and convenient, and is accepted by the masses. However, this method has a disadvantage in that when there are various attributes in the heart beat, this labeling method may cause inconsistent statistics of data, and even partial data cannot be counted. For example, the type of conduction block, if a degree of atrioventricular conduction block occurs on the basis of sinus beats, some software chooses to label directly the types of conduction block that have the attribute of the underlying heart beat type as the underlying type, but no statistics are made in the statistics report of the heart beat, which would result in a data loss. Some software cannot directly mark heart beats such as a transmission block, and only marks heart beats of basic types, so that the heart beat marks are too coarse to accurately reflect symptoms, and the diagnosis of doctors is confused.

Disclosure of Invention

Based on this, it is necessary to provide a heart beat double marking analysis method, apparatus, device and medium, which are sufficiently complete and simple to mark, in view of the above-mentioned problems.

A method of cardiac dual marker analysis, the method comprising:

acquiring a target heart beat waveform, identifying and classifying the target heart beat waveform, and acquiring and displaying a first-level attribute type of each target heart beat in the target heart beat waveform;

acquiring a data structure body of a current target heart beat selected by a user in the target heart beat waveform, wherein the data structure body comprises a display heart beat type and a basic heart beat type;

displaying a target modification interface corresponding to the current target heart beat according to the display heart beat type, acquiring modification information or confirmation information input into the target modification interface, and modifying or confirming the display heart beat type and/or the basic heart beat type according to the modification information or confirmation information;

and when the display heart beat type of the current target heart beat is modified, modifying and displaying the primary attribute type of the current target heart beat according to the modified display heart beat type.

In one embodiment, after the modifying the first-level attribute type of the current target heart beat according to the modified display heart beat type, the method further includes:

acquiring the display heart beat type and the basic heart beat type of each target heart beat according to a statistical instruction input by a user;

and counting the first-level attribute type of the target heart beat waveform according to the display heart beat type and the basic heart beat type of each target heart beat until the target heart beat waveform is traversed.

In one embodiment, the counting the primary attribute type of the target heart beat waveform according to the display heart beat type and the base heart beat type of each target heart beat includes:

judging whether the basic heart beat type of the current statistical heart beat is empty or not;

if the basic heart beat type of the current statistical heart beat is empty, accumulating the display heart beat type of the current statistical heart beat;

and if the basic heart beat type of the current statistical heart beat is non-null, accumulating the basic heart beat type of the current statistical heart beat.

In one embodiment, the primary attribute type includes: basic type and non-basic type;

the displaying the target modification interface corresponding to the current target heart beat according to the display heart beat type comprises the following steps:

when the display heart beat type is the non-basic type, displaying a target modification interface of which the modification information comprises the primary attribute type;

and when the display heart beat type is the basic type, displaying a target modification interface of which the modification information comprises a secondary attribute type.

In one embodiment, after displaying the target modification interface corresponding to the current target heartbeat according to the displayed heartbeat type, the method further includes:

and after the current target heart beat type is modified into a secondary attribute type according to a modification instruction input by a user at the target modification interface, displaying the secondary attribute type of the current target heart beat.

In one embodiment, the displaying, according to the displayed heartbeat type, the target modification interface corresponding to the current target heartbeat further includes:

when the display heart beat type is a secondary attribute type, the display modification information comprises a target modification interface of the primary attribute type.

In one embodiment, the identifying and classifying the target heartbeat waveform includes:

acquiring a predefined heart beat template, and performing heart beat matching on each target heart beat in the target heart beat waveform and the predefined heart beat template;

and acquiring a heart beat matching result after heart beat matching, and updating the corresponding data structure body of each target heart beat according to the heart beat matching result.

A heart beat dual marker analysis device, the device comprising:

the identification and classification module is used for acquiring a target heart beat waveform, identifying and classifying the target heart beat waveform, and acquiring and displaying a first-level attribute type of each target heart beat in the target heart beat waveform;

the first heart beat type module is used for acquiring a data structure body of a current target heart beat selected by a user in the target heart beat waveform, and the data structure body comprises a display heart beat type and a basic heart beat type;

the second heart beat type module is used for displaying a target modification interface corresponding to the current target heart beat according to the display heart beat type, acquiring modification information or confirmation information input into the target modification interface, and modifying or confirming the display heart beat type and/or the basic heart beat type according to the modification information or the confirmation information;

and the display modification module is used for modifying and displaying the primary attribute type of the current target heart beat according to the modified display heart beat type when the display heart beat type of the current target heart beat is modified.

A computer readable storage medium storing a computer program which, when executed by a processor, causes the processor to perform the steps of:

acquiring a target heart beat waveform, identifying and classifying the target heart beat waveform, and acquiring and displaying a first-level attribute type of each target heart beat in the target heart beat waveform;

acquiring a data structure body of a current target heart beat selected by a user in the target heart beat waveform, wherein the data structure body comprises a display heart beat type and a basic heart beat type;

displaying a target modification interface corresponding to the current target heart beat according to the display heart beat type, acquiring modification information or confirmation information input into the target modification interface, and modifying or confirming the display heart beat type and/or the basic heart beat type according to the modification information or confirmation information;

and when the display heart beat type of the current target heart beat is modified, modifying and displaying the primary attribute type of the current target heart beat according to the modified display heart beat type.

A heart beat double marking analysis device comprising a memory and a processor, the memory storing a computer program which, when executed by the processor, causes the processor to perform the steps of:

acquiring a target heart beat waveform, identifying and classifying the target heart beat waveform, and acquiring and displaying a first-level attribute type of each target heart beat in the target heart beat waveform;

acquiring a data structure body of a current target heart beat selected by a user in the target heart beat waveform, wherein the data structure body comprises a display heart beat type and a basic heart beat type;

displaying a target modification interface corresponding to the current target heart beat according to the display heart beat type, acquiring modification information or confirmation information input into the target modification interface, and modifying or confirming the display heart beat type and/or the basic heart beat type according to the modification information or confirmation information;

and when the display heart beat type of the current target heart beat is modified, modifying and displaying the primary attribute type of the current target heart beat according to the modified display heart beat type.

The invention provides a heart beat double-mark analysis method, a device, equipment and a medium, which can save the information of a first-level attribute type and further save the information of a second-level attribute type by displaying different target modification interfaces for different current target heart beats and double-marking the different target modification interfaces through a data structure body, and does not influence interface display. The invention enables the information of the heart beat mark to have integrity and be simple and convenient enough.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Wherein:

FIG. 1 is a flow chart of a first embodiment of a method for dual-label analysis of a heart beat;

FIG. 2 is a schematic diagram of a first embodiment of a target modification interface;

FIG. 3 is a schematic diagram of a second embodiment of a target modification interface;

FIG. 4 is a schematic diagram of a third embodiment of a target modification interface;

FIG. 5 is a flow chart of a second embodiment of a method for dual-label analysis of a heart beat;

FIG. 6 is a schematic diagram of a dual-label analysis device for heart beat according to one embodiment;

fig. 7 is a block diagram of the structure of a dual-label analysis device of a heart beat according to an embodiment.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1, fig. 1 is a flow chart of a first embodiment of a dual-beat analysis method, where the dual-beat analysis method according to the first embodiment includes the following steps:

step 102, acquiring a target heart beat waveform, identifying and classifying the target heart beat waveform, and acquiring and displaying a first-level attribute type of each target heart beat in the target heart beat waveform.

The target heartbeat waveform refers to a potential change waveform recorded with heartbeat activity of a target user. The primary attribute types include basic types and non-basic types. And the basic types include sinus (N), atrial (S), atrial fibrillation (Af), atrial flutter (Af), pacing (P), and the like; non-basal types include ventricular premature beat (V), premature beat (J), escape, fusion wave, and interference, among others. The heart beat analysis system of the embodiment carries out identification classification on the target heart beat through an identification algorithm.

In one particular embodiment, the identification algorithm specifically includes, first, acquiring a predefined heart beat template and heart beat matching each target heart beat in the target heart beat waveform to the predefined heart beat template. The predefined heart beat template comprises waveform characteristics of heart beats of different basic types and non-basic types, and particularly comprises waveform characteristics such as heart beat frequency, pacing point position and the like. Heart beat matching is performed by comparing the variability of waveform features, finding a predefined heart beat template in which the variability is minimal. Further, the data structure body of each corresponding target heart beat is updated according to the heart beat matching result after heart beat matching, namely, the data structure body of the target heart beat is updated according to the data structure body of the predefined heart beat template, and finally, the first-level attribute type of each target heart beat is displayed according to the data definition of the data structure body.

Step 104, obtaining a data structure body of the current target heart beat selected by the user in the target heart beat waveform.

The data structure body at least comprises three structural attributes, namely nBeatPos, eBaseType and eHowType. nBeatPos is the heart beat position, and the position is the index value of heart beat in the finally formed electrocardio file; eBaseType is the underlying heart beat type for the heart beat; eShowType shows the heart beat type for the interface of the heart beat. Normally, after the execution of step 102 is completed, eBaseType is null, and eShowType is the first-level attribute type obtained after the identification and classification.

Specifically, as shown in fig. 2, the user may select any one of the waveforms through the mouse to select a current target heart beat, and the selected current target heart beat may be prompted by a selection box. The heart beat tagging system invokes the data structure of the selected current target heart beat.

And 106, displaying a target modification interface corresponding to the current target heart beat according to the display heart beat type, acquiring modification information or confirmation information input into the target modification interface, and modifying or confirming the display heart beat type and/or the basic heart beat type according to the modification information or the confirmation information.

The displayed heart beat types defined by the present invention may include three heart beat categories, a basal type, a non-basal type, and a secondary attribute type. Wherein the secondary attribute types include one degree atrioventricular block (AVB 1), two degree I (venturi) atrioventricular block (AVB 21), two degree II atrioventricular block (AVB 22), and the like. And judging which type is the main heart beat type according to the eHowType value of the selected target heart beat. For target beats of different heart beat classes, the right key menu will display different heart beat content to facilitate correct modification or confirmation. After the modification information or the confirmation information is acquired, the modification or confirmation of the display heart beat type and/or the basic heart beat type is adapted.

In one particular embodiment, as shown in FIG. 2, when the heart beat type is displayed as the base type, i.e., when the heart beat type is displayed as sinus (N) as shown in the figure, after the user right click, the modification information is displayed including a target modification interface of the secondary attribute type (also including the primary attribute type). Through the menu, modification information or confirmation information can be input. Illustratively, when the user selects a secondary attribute type, such as one-degree atrioventricular block (AVB 1), a modification operation is performed on the heartbeat information structure body, specifically setting ebasetype=avb1, eshowtype=n. And when the user selects other primary attribute types, such as for example, select atrial (S), only the eShowType is modified, i.e., the modification setting eshowtype=s. In addition, the user may also make a determination of the current target heart beat, for example directly select the next target heart beat or wait 10s.

In one particular embodiment, as shown in fig. 3, when the displayed heart beat type is a non-basic type, i.e., when the displayed heart beat type is ventricular premature beat (V (5)), the displayed modification information includes only the target modification interface of the primary attribute type (excluding the primary attribute type) after the right click of the user. This is because the secondary attribute type is a definition of the base type, and modification of the secondary attribute type can be performed only if the base type is correct. Illustratively, when the user selects other primary attribute types, such as selecting the junctional premature beat (J), only the eShowType is modified, i.e., the modification setting eshowtype=j.

In a specific embodiment, when the display heartbeat type is the primary attribute type, the display heartbeat type of the current target heartbeat can be modified to be the secondary attribute type according to the modification instruction input by the user at the target modification interface, so that the current target heartbeat displays the secondary attribute type at the target modification interface. Further modifications may also be made to the displayed heart beat type when the displayed heart beat type is of the secondary attribute type, as shown in figure 4, i.e. when the displayed heart beat type is of the one-degree atrioventricular block (AVB 1). After the right click of the user, the modification information is displayed to include only the target modification interface of the primary attribute type. This is because when the secondary attribute type is in recognition error, the base type is also in error, so that the primary attribute type needs to be modified or confirmed again first. It will be appreciated that when the user selects other primary attribute types, such as atrial fibrillation (Af), both the eShowType value and eBaseType are modified, specifically, the eBaseType value is set to null, and eshowtype=af is set.

And step 108, when the display heart beat type of the current target heart beat is modified, modifying and displaying the first-level attribute type of the current target heart beat according to the modified display heart beat type.

I.e., modifying the primary attribute type displayed by the target heartbeat in the target modification interface according to the eShowType value. For example, as shown in fig. 2, the primary attribute type displayed before modification is N, and AVB1 or S may be used after modification.

Further, to achieve the signature analysis of the entire target heart beat waveform, after the current target heart beat is marked, the next target heart beat in the target heart beat waveform may be further used as the current target heart beat, and the operations of steps 104-108 may be repeated until the target heart beat waveform is traversed.

According to the heart beat double-marking analysis method, different target modification interfaces are displayed for different current target heart beats, and double marking is carried out through the data structure body, so that the information of the first-level attribute type can be stored, the information of the second-level attribute type can be further stored, and interface display is not affected. The invention enables the information of the heart beat mark to have integrity and be simple and convenient enough.

As shown in fig. 5, fig. 5 is a flow chart of a second embodiment of a dual-beat analysis method, where the dual-beat analysis method according to the second embodiment includes the following steps:

step 502, acquiring a target heart beat waveform, identifying and classifying the target heart beat waveform, and acquiring and displaying a first-level attribute type of each target heart beat in the target heart beat waveform.

Step 504, a data structure of a current target heart beat selected by a user in the target heart beat waveform is acquired. Step 506, displaying a target modification interface corresponding to the current target heart beat according to the displayed heart beat type, acquiring modification information or confirmation information input into the target modification interface, and modifying or confirming the displayed heart beat type and/or the basic heart beat type according to the modification information or confirmation information.

Step 508, when the display heart beat type of the current target heart beat is modified, modifying and displaying the first-level attribute type of the current target heart beat according to the modified display heart beat type.

In a specific implementation scenario, steps 502-508 are substantially identical to steps 102-108 of the first embodiment heart beat dual label analysis method, and are not described in detail herein.

Step 510, obtaining the display heart beat type and the basic heart beat type of each target heart beat according to the statistical instruction input by the user.

The statistics instruction is essentially an instruction for counting the primary attribute type, because only the primary attribute type needs to be counted in the finally generated statistics report. In this embodiment, the statistical instruction is determined by user input, and in other embodiments, the heart beat marking system may automatically generate after the completion of step 508. Since only one of the display heart beat type and the base heart beat type of each target heart beat is the primary attribute type, the display heart beat type and the base heart beat type of each target heart beat need to be acquired simultaneously.

Step 512, statistics is performed on the first level attribute type of the target heart beat waveform according to the display heart beat type and the basic heart beat type of each target heart beat until the target heart beat waveform is traversed.

In one embodiment, the first level attribute type statistics are initialized to 0, e.g., setting total=0, before statistics begin. Further, whether the basic heart beat type of the current statistical heart beat is empty is judged, if the basic heart beat type of the current statistical heart beat is empty, the display heart beat is of a first-level attribute type (only one of the display heart beat type and the basic heart beat type of each target heart beat is of a first-level attribute type), and the display heart beat types of the current statistical heart beat are accumulated. Correspondingly, if the basic heart beat type of the current statistical heart beat is non-null, the basic heart beat type is a primary attribute type (the same way), and the basic heart beat types of the current statistical heart beat are accumulated. The above-described determination is performed for each target heart beat until the target heart beat waveform is traversed, thereby completing statistics of the target heart beat waveform.

The method not only can effectively refine and mark the heart beat, but also solves the problem that the mark of the secondary attribute type influences the statistics of the basic type.

In one embodiment, as shown in fig. 6, a heart beat double marker analysis device is provided, the device comprising:

the identification and classification module is used for acquiring the target heart beat waveforms, identifying and classifying the target heart beat waveforms, and acquiring and displaying the first-level attribute type of each target heart beat in the target heart beat waveforms.

The first heart beat type module is used for acquiring a data structure body of a current target heart beat selected by a user in the target heart beat waveform, and the data structure body comprises a display heart beat type and a basic heart beat type.

The second heart beat type module is used for displaying a target modification interface corresponding to the current target heart beat according to the display heart beat type, acquiring modification information or confirmation information input into the target modification interface, and modifying or confirming the display heart beat type and/or the basic heart beat type according to the modification information or the confirmation information.

And the display modification module is used for modifying and displaying the first-level attribute type of the current target heart beat according to the modified display heart beat type when the display heart beat type of the current target heart beat is modified.

According to the heart beat double-mark analysis device, different target modification interfaces are displayed for different current target heart beats, and double marks are carried out through the data structure body, so that the information of the first-level attribute type can be stored, the information of the second-level attribute type can be further stored, and interface display is not affected. The invention enables the information of the heart beat mark to have integrity and be simple and convenient enough.

In one embodiment, the heart beat dual label analysis device further comprises: the statistics module is used for acquiring the display heart beat type and the basic heart beat type of each target heart beat according to the statistics instruction input by the user; and counting the first-level attribute type of the target heart beat waveform according to the display heart beat type and the basic heart beat type of each target heart beat until the target heart beat waveform is traversed.

In one embodiment, the statistics module is further specifically configured to: judging whether the basic heart beat type of the current statistical heart beat is empty or not; if the basic heart beat type of the current statistical heart beat is null, accumulating the display heart beat type of the current statistical heart beat; if the basic heart beat type of the current statistical heart beat is non-null, accumulating the basic heart beat type of the current statistical heart beat.

In one embodiment, the primary attribute types include: basic type and non-basic type; the second heart beat type module is also specifically used for: when the heart beat type is displayed as a non-basic type, displaying modification information including a target modification interface of a primary attribute type; when the heart beat type is displayed as the base type, the modification information is displayed including a target modification interface of the secondary attribute type.

In one embodiment, the second heart beat type module is further specifically configured to: and after the current target heart beat type is modified into the secondary attribute type according to the modification instruction input by the user in the target modification interface, displaying the secondary attribute type of the current target heart beat.

In one embodiment, the second heart beat type module is further specifically configured to: when the display heart beat type is the secondary attribute type, the display modification information includes a target modification interface of the primary attribute type.

In one embodiment, the identification classification module is further specifically configured to: acquiring a predefined heart beat template, and performing heart beat matching on each target heart beat in the target heart beat waveform and the predefined heart beat template; and acquiring a heart beat matching result after heart beat matching, and updating the corresponding data structure body of each target heart beat according to the heart beat matching result.

Fig. 7 shows an internal structural diagram of a heart beat double marker analysis device according to an embodiment. As shown in fig. 7, the heart beat double marking analysis device comprises a processor, a memory and a network interface connected by a system bus. The memory includes a nonvolatile storage medium and an internal memory. The non-volatile storage medium of the heart beat double marking analysis device stores an operating system, and may also store a computer program, which when executed by a processor, may cause the processor to implement a heart beat double marking analysis method. The internal memory may also have stored therein a computer program which, when executed by the processor, causes the processor to perform a method of cardiac double-marker analysis. It will be appreciated by those skilled in the art that the structure shown in fig. 7 is merely a block diagram of a portion of the structure associated with the present application and does not constitute a limitation of the dual cardiac marker analysis device to which the present application is applied, and that a particular dual cardiac marker analysis device may include more or less components than those shown, or may combine certain components, or may have a different arrangement of components.

A heart beat double marking analysis device comprising a memory, a processor and a computer program stored in the memory and executable on the processor, the processor implementing the following steps when executing the computer program: acquiring a target heart beat waveform, identifying and classifying the target heart beat waveform, and acquiring and displaying a first-level attribute type of each target heart beat in the target heart beat waveform; acquiring a data structure body of a current target heart beat selected by a user in a target heart beat waveform, wherein the data structure body comprises a display heart beat type and a basic heart beat type; displaying a target modification interface corresponding to the current target heart beat according to the display heart beat type, acquiring modification information or confirmation information input into the target modification interface, and modifying or confirming the display heart beat type and/or the basic heart beat type according to the modification information or the confirmation information; when the display heart beat type of the current target heart beat is modified, the first-level attribute type of the current target heart beat is modified and displayed according to the modified display heart beat type.

In one embodiment, after modifying the first-level attribute type of the current target heart beat according to the modified display heart beat type, the method further comprises: acquiring a display heart beat type and a basic heart beat type of each target heart beat according to a statistical instruction input by a user; and counting the first-level attribute type of the target heart beat waveform according to the display heart beat type and the basic heart beat type of each target heart beat until the target heart beat waveform is traversed.

In one embodiment, counting the primary attribute type of the target heart beat waveform based on the display heart beat type and the base heart beat type for each target heart beat includes: judging whether the basic heart beat type of the current statistical heart beat is empty or not; if the basic heart beat type of the current statistical heart beat is null, accumulating the display heart beat type of the current statistical heart beat; if the basic heart beat type of the current statistical heart beat is non-null, accumulating the basic heart beat type of the current statistical heart beat.

In one embodiment, the primary attribute types include: basic type and non-basic type; displaying a target modification interface corresponding to the current target heart beat according to the display heart beat type, including: when the heart beat type is displayed as a non-basic type, displaying modification information including a target modification interface of a primary attribute type; when the heart beat type is displayed as the base type, the modification information is displayed including a target modification interface of the secondary attribute type.

In one embodiment, after displaying the target modification interface corresponding to the current target heartbeat according to the display heartbeat type, the method further includes: and after the current target heart beat type is modified into the secondary attribute type according to the modification instruction input by the user in the target modification interface, displaying the secondary attribute type of the current target heart beat.

In one embodiment, displaying the target modification interface corresponding to the current target heartbeat according to the display heartbeat type further includes: when the display heart beat type is the secondary attribute type, the display modification information includes a target modification interface of the primary attribute type.

In one embodiment, identifying and classifying the target heartbeat waveform includes: acquiring a predefined heart beat template, and performing heart beat matching on each target heart beat in the target heart beat waveform and the predefined heart beat template; and acquiring a heart beat matching result after heart beat matching, and updating the corresponding data structure body of each target heart beat according to the heart beat matching result.

A computer readable storage medium storing a computer program which when executed by a processor performs the steps of: acquiring a target heart beat waveform, identifying and classifying the target heart beat waveform, and acquiring and displaying a first-level attribute type of each target heart beat in the target heart beat waveform; acquiring a data structure body of a current target heart beat selected by a user in a target heart beat waveform, wherein the data structure body comprises a display heart beat type and a basic heart beat type; displaying a target modification interface corresponding to the current target heart beat according to the display heart beat type, acquiring modification information or confirmation information input into the target modification interface, and modifying or confirming the display heart beat type and/or the basic heart beat type according to the modification information or the confirmation information; when the display heart beat type of the current target heart beat is modified, the first-level attribute type of the current target heart beat is modified and displayed according to the modified display heart beat type.

In one embodiment, after modifying the first-level attribute type of the current target heart beat according to the modified display heart beat type, the method further comprises: acquiring a display heart beat type and a basic heart beat type of each target heart beat according to a statistical instruction input by a user; and counting the first-level attribute type of the target heart beat waveform according to the display heart beat type and the basic heart beat type of each target heart beat until the target heart beat waveform is traversed.

In one embodiment, counting the primary attribute type of the target heart beat waveform based on the display heart beat type and the base heart beat type for each target heart beat includes: judging whether the basic heart beat type of the current statistical heart beat is empty or not; if the basic heart beat type of the current statistical heart beat is null, accumulating the display heart beat type of the current statistical heart beat; if the basic heart beat type of the current statistical heart beat is non-null, accumulating the basic heart beat type of the current statistical heart beat.

In one embodiment, the primary attribute types include: basic type and non-basic type; displaying a target modification interface corresponding to the current target heart beat according to the display heart beat type, including: when the heart beat type is displayed as a non-basic type, displaying modification information including a target modification interface of a primary attribute type; when the heart beat type is displayed as the base type, the modification information is displayed including a target modification interface of the secondary attribute type.

In one embodiment, after displaying the target modification interface corresponding to the current target heartbeat according to the display heartbeat type, the method further includes: and after the current target heart beat type is modified into the secondary attribute type according to the modification instruction input by the user in the target modification interface, displaying the secondary attribute type of the current target heart beat.

In one embodiment, displaying the target modification interface corresponding to the current target heartbeat according to the display heartbeat type further includes: when the display heart beat type is the secondary attribute type, the display modification information includes a target modification interface of the primary attribute type.

In one embodiment, identifying and classifying the target heartbeat waveform includes: acquiring a predefined heart beat template, and performing heart beat matching on each target heart beat in the target heart beat waveform and the predefined heart beat template; and acquiring a heart beat matching result after heart beat matching, and updating the corresponding data structure body of each target heart beat according to the heart beat matching result.

It should be noted that the foregoing method, apparatus, device and computer readable storage medium for analyzing cardiac double-label belong to a general inventive concept, and the content in the embodiments of the method, apparatus, device and computer readable storage medium for analyzing cardiac double-label may be mutually applicable.

Those skilled in the art will appreciate that implementing all or part of the above-described methods in accordance with the embodiments may be accomplished by way of a computer program stored in a non-transitory computer-readable storage medium, which when executed, may comprise the steps of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in the various embodiments provided herein may include non-volatile and/or volatile memory. The nonvolatile memory can include Read Only Memory (ROM), programmable ROM (PROM), electrically Programmable ROM (EPROM), electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), dynamic RAM (DRAM), synchronous DRAM (SDRAM), double Data Rate SDRAM (DDRSDRAM), enhanced SDRAM (ESDRAM), synchronous Link DRAM (SLDRAM), memory bus direct RAM (RDRAM), direct memory bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM), among others.

The technical features of the above embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The foregoing examples represent only a few embodiments of the present application, which are described in more detail and are not thereby to be construed as limiting the scope of the present application. It should be noted that it would be apparent to those skilled in the art that various modifications and improvements could be made without departing from the spirit of the present application, which would be within the scope of the present application. Accordingly, the scope of protection of the present application is to be determined by the claims appended hereto.

Claims (1)

1. A heart beat double marker analysis device, the device comprising:

the identification and classification module is used for acquiring a target heart beat waveform, identifying and classifying the target heart beat waveform, and acquiring and displaying a first-level attribute type of each target heart beat in the target heart beat waveform; wherein the primary attribute type includes: basic types and non-basic types based on predefined heart beat type divisions;

the first heart beat type module is used for acquiring a data structure body of a current target heart beat selected by a user in the target heart beat waveform, wherein the data structure body comprises a display heart beat type and a basic heart beat type, and the display heart beat type is a structural attribute of a heart beat type displayed by a heart beat in an interface in the data structure body;

the second heart beat type module is used for displaying a target modification interface corresponding to the current target heart beat according to the display heart beat type, acquiring modification information or confirmation information input into the target modification interface, and modifying or confirming the display heart beat type and/or the basic heart beat type according to the modification information or confirmation information;

the second heart beat type module is specifically configured to: when the display heart beat type is the non-basic type, displaying a target modification interface of which the modification information comprises the primary attribute type;

when the display heart beat type is the basic type, displaying a target modification interface of which the modification information comprises a secondary attribute type and a primary attribute type;

when the display heart beat type is a secondary attribute type, displaying modification information including a target modification interface of the primary attribute type;

if the modification information is the selection operation of the secondary attribute type, the secondary attribute type is modified for the display heart beat type, the primary attribute type is modified for the basic heart beat type, and if the modification information is the selection operation of the primary attribute type, the primary attribute type is modified for the display heart beat type, and the basic heart beat type is set to be empty;

the display modification module is used for modifying and displaying the primary attribute type of the current target heart beat according to the modified display heart beat type when the display heart beat type of the current target heart beat is modified;

the heart beat double-marking analysis device further comprises: the statistics module is used for acquiring the display heart beat type and the basic heart beat type of each target heart beat according to a statistics instruction input by a user; judging whether the basic heart beat type of the current statistical heart beat is empty or not; if the basic heart beat type of the current statistical heart beat is empty, accumulating the display heart beat type of the current statistical heart beat; and if the basic heart beat type of the current statistical heart beat is non-null, accumulating the basic heart beat type of the current statistical heart beat.