CN114391853A - Electrocardiographic monitoring system for nursing of children - Google Patents

Abstract

The invention belongs to the technical field of child care, and discloses an electrocardiogram monitoring system for child care, which comprises: the system comprises an identity information acquisition module, a case information acquisition module, an electrocardio monitoring module, an information correlation module, a central control module, an information transmission and receiving module, an information analysis module, an abnormity early warning module, a cleaning and nursing module and an electrode patch replacement module. According to the electrocardio-monitoring system for nursing children, the detailed information of the child patient is acquired by acquiring and managing the identity information, the case information and the electrocardio-monitoring information, the information of the child patient is mastered more comprehensively, and the electrocardio information is analyzed more accurately; the cleaning and nursing of the skin of the area where the electrode patch connected with the electrocardio monitor is located and the timely replacement of the electrode patch are realized, so that the irritation of the electrode patch to the skin is reduced, the skin discomfort is reduced, and the electrocardio-monitoring device is more suitable for children to use.

Description

Electrocardiographic monitoring system for nursing of children

Technical Field

The invention belongs to the technical field of child care, and particularly relates to an electrocardiogram monitoring system for child care.

Background

At present: the ECG monitor is a precision medical instrument commonly used in medical clinic for monitoring the dynamic and practical state of patients, and can display physiological parameters such as ECG graphs, respiration, body temperature, blood pressure, oxyhemoglobin saturation, pulse rate and the like. The electrocardiogram monitor is an auxiliary diagnostic device which combines an electrocardiogram monitoring technology and a mobile computing technology and carries out real-time dynamic monitoring and early warning on abnormal changes of the electrocardiogram. The device has the functions of acquisition, storage, intelligent analysis, early warning and the like of electrocardio information, and has the characteristics of accurate monitoring, touch screen control, simplicity, convenience and the like. However, the existing electrocardiographic monitoring system cannot realize the correspondence between the information of the child patient and the electrocardiographic monitoring information, and cannot realize accurate early warning.

Through the above analysis, the problems and defects of the prior art are as follows: the existing ECG monitoring system can not realize the correspondence of the information of the child patient and the ECG monitoring information, and can not realize accurate early warning.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides an electrocardiogram monitoring system for nursing children.

The present invention is achieved in this way, and an electrocardiographic monitoring system for nursing care of a child includes:

the identity information acquisition module is connected with the central control module and is used for acquiring the identity information of the child patient through an identity information acquisition program to obtain the identity information of the child patient;

the case information acquisition module is connected with the central control module and used for acquiring case information of the child patient through a case information acquisition program to obtain the case information of the child patient;

the electrocardio monitoring module is connected with the central control module and is used for carrying out electrocardio monitoring on the child patient through an electrocardio monitor to obtain electrocardio monitoring data;

the electrocardiogram drawing method comprises the following steps:

determining the transverse length of the electrocardiogram drawing and determining the longitudinal width of the electrocardiogram drawing; the determining the transverse length of the electrocardiogram drawing comprises the following steps: determining the transverse length of an electrocardiogram drawing according to the pixels of the screen unit grid, the paper feeding speed, the layout of each electrocardiogram lead and the corresponding duration of the longest electrocardiogram lead;

the transverse length of the electrocardiogram drawing is determined according to the pixels of the screen unit grid, the paper feeding speed, the layout of each electrocardiogram lead and the corresponding duration of the longest electrocardiogram lead, and the transverse length comprises the following steps:

when the layout of each electrocardiogram lead is 12x1, the transverse length N1 of the electrocardiogram drawing is as follows:

N1＝T1*S1*X1+B1*X1；

wherein, T1 is the duration corresponding to the longest electrocardiographic lead, S1 is the paper feeding speed, X1 is the screen cell pixel, and B1 is the transverse total length of the at least one large cell where the standard voltage icon is located;

when the layout of each electrocardiogram lead is 3x4, the transverse length N2 of the electrocardiogram drawing is as follows:

N2＝T2*S2*X2+B2*X2+3*K2*X2；

wherein, T2 is the duration corresponding to the longest electrocardiolead, S2 is the paper feeding speed, X2 is the screen cell pixel, B2 is the transverse total length of the at least one large cell where the standard voltage icon is located, and K2 is the offset distance between the longitudinal dividing line between adjacent leads and the tail of the left-side electrocardio-lead connection diagram of the longitudinal dividing line;

when the layout of each electrocardiogram lead is 6x2, the transverse length N3 of the electrocardiogram drawing is as follows:

N3＝T3*S3*X3+B3*X3+K3*X3；

wherein, T3 is the duration corresponding to the longest electrocardiolead, S3 is the paper feeding speed, X3 is the screen cell pixel, B3 is the transverse total length of the at least one large cell where the standard voltage icon is located, and K3 is the offset distance between the longitudinal dividing line between adjacent leads and the tail of the left-side electrocardio-lead connection diagram of the longitudinal dividing line;

drawing an electrocardiogram background grid in an electrocardiogram drawing for determining the transverse length and the longitudinal width, wherein the electrocardiogram background grid consists of a plurality of large grids with the same specification, and the large grids consist of a plurality of small grids with the same specification;

drawing longitudinal parting lines and transverse parting lines between adjacent leads on the electrocardiogram background grids; drawing a standard voltage icon at a preset position on the electrocardiogram background grid;

determining the initial position of each lead wave line; determining the transverse position and the longitudinal position of each sampling point in each lead wave line based on the starting position;

drawing each lead wave line in each region formed by the longitudinal dividing line and the transverse dividing line according to the transverse position and the longitudinal position of each sampling point in each lead wave line;

the information association module is connected with the central control module and used for obtaining summary information through association of the identity information of the child patient, the case information and the electrocardio monitoring data through an information association program;

and the central control module is connected with the identity information acquisition module, the case information acquisition module, the electrocardio monitoring module and the information association module and is used for controlling the operation of each connection module through a main control computer and ensuring the normal operation of each module.

Further, the nursing electrocardiographic monitoring system for children further comprises:

the information transmission and receiving module is connected with the central control module and is used for transmitting the summarized information through an information transmission and receiving program and receiving the summarized information;

the information analysis module is connected with the central control module and used for analyzing the received drawing information through an information analysis program to obtain an information analysis result;

the abnormity early warning module is connected with the central control module and used for carrying out abnormity early warning according to the acquired information analysis result through the alarm;

the cleaning and nursing module is connected with the central control module and is used for cleaning and nursing the area where the motor patch of the electrocardio monitor is located through a cleaning and nursing program;

and the electrode patch replacing module is connected with the central control module and is used for replacing the electrode patches through an electrode patch replacing program.

Further, the child patient identity information includes: child patient name, gender, age, contact.

Further, the electrocardiographic monitoring data comprises: electrocardiogram, respiration, body temperature, blood pressure, blood oxygen saturation and pulse rate.

Further, the drawing of the standard voltage icon at the preset position on the background grid of the electrocardiogram comprises: and drawing standard voltage icons in at least one leftmost large grid between two adjacent transverse dividing lines and between the transverse dividing line and the electrocardiogram transverse boundary line respectively.

Further, the association of the child patient identity information, the case information and the electrocardiographic monitoring data through the information association program obtains summary information, and the summary information comprises:

storing information for the child patient identity information, case information and electrocardiographic monitoring data as data entities in an associative memory; the associative memory comprises a plurality of data having a plurality of associations and comprises a content addressable structure, wherein the data entity is included in the plurality of data;

the associative memory configured to query according to at least one relationship selected from a group consisting of direct relationships and indirect relationships between the plurality of data;

grouping the data entities stored in the associative memory, thereby forming a cluster; generating a report using the clusters.

Further, the transmitting the summarized information through the information transmission and reception program and receiving the summarized information includes:

coding the summarized information as information to be transmitted to obtain an ultrasonic coded signal;

obtaining an ultrasonic transmission signal based on the ultrasonic coding signal and an ultrasonic wake-up signal, wherein the ultrasonic wake-up signal is used for waking up an ultrasonic receiving end to decode the ultrasonic coding signal;

and transmitting the ultrasonic transmission signal to an ultrasonic receiving end, and receiving information by the ultrasonic receiving end.

Another object of the present invention is to provide an information data processing terminal, wherein the information data processing terminal is used for implementing the electrocardiographic monitoring system for nursing children.

It is another object of the present invention to provide a computer program product stored on a computer readable medium, comprising a computer readable program for providing a user input interface for applying said child care electrocardiographic monitoring system when executed on an electronic device.

It is another object of the present invention to provide a computer-readable storage medium storing instructions that, when executed on a computer, cause the computer to apply the child care electrocardiographic monitoring system.

By combining all the technical schemes, the invention has the advantages and positive effects that: according to the electrocardio-monitoring system for nursing children, the detailed information of the child patient is acquired by acquiring and managing the identity information, the case information and the electrocardio-monitoring information, the information of the child patient is mastered more comprehensively, and the electrocardio information is analyzed more accurately; the cleaning and nursing of the skin of the area where the electrode patch connected with the electrocardio monitor is located and the timely replacement of the electrode patch are realized, so that the irritation of the electrode patch to the skin is reduced, the skin discomfort is reduced, and the electrocardio-monitoring device is more suitable for children to use.

Drawings

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

Fig. 1 is a block diagram of a nursing electrocardiographic monitoring system for children according to an embodiment of the present invention.

Fig. 2 is a flowchart of a method for nursing a child by electrocardiographic monitoring according to an embodiment of the present invention.

Fig. 3 is a flowchart of an electrocardiographic graph drawing method according to an embodiment of the present invention.

Fig. 4 is a flow chart of obtaining summary information by correlating the identity information of the child patient, the case information, and the electrocardiographic monitoring data through an information correlation procedure according to the embodiment of the present invention.

Fig. 5 is a flowchart of transmitting summarized information and receiving the summarized information through an information transmitting and receiving program according to an embodiment of the present invention.

In the figure: 1. an identity information acquisition module; 2. a case information acquisition module; 3. an electrocardio monitoring module; 4. an information association module; 5. a central control module; 6. an information transmission and reception module; 7. an information analysis module; 8. an anomaly early warning module; 9. a cleaning and nursing module; 10. and an electrode patch replacement module.

Detailed Description

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

Aiming at the problems in the prior art, the invention provides an electrocardio monitoring system for nursing children, and the invention is described in detail with reference to the attached drawings.

As shown in fig. 1, an embodiment of the present invention provides an electrocardiographic monitoring system for nursing care of a child, including:

the identity information acquisition module 1 is connected with the central control module 5 and is used for acquiring the identity information of the child patient through an identity information acquisition program to obtain the identity information of the child patient;

the case information acquisition module 2 is connected with the central control module 5 and is used for acquiring case information of the child patient through a case information acquisition program to obtain the case information of the child patient;

the electrocardio monitoring module 3 is connected with the central control module 5 and is used for carrying out electrocardio monitoring on the child patient through an electrocardio monitor to obtain electrocardio monitoring data;

the information association module 4 is connected with the central control module 5 and used for obtaining summary information through association of the identity information of the child patient, the case information and the electrocardio monitoring data through an information association program;

the central control module 5 is connected with the identity information acquisition module 1, the case information acquisition module 2, the electrocardio monitoring module 3, the information association module 4, the information transmission and receiving module 6, the information analysis module 7, the abnormity early warning module 8, the cleaning and nursing module 9 and the electrode patch replacement module 10, and is used for controlling the operation of each connection module through a main control computer and ensuring the normal operation of each module;

the information transmission and receiving module 6 is connected with the central control module 5 and used for transmitting the summarized information through an information transmission and receiving program and receiving the summarized information;

the information analysis module 7 is connected with the central control module 5 and used for analyzing the received drawing information through an information analysis program to obtain an information analysis result;

the abnormity early warning module 8 is connected with the central control module 5 and is used for carrying out abnormity early warning according to the acquired information analysis result through the alarm;

the cleaning and nursing module 9 is connected with the central control module 5 and is used for cleaning and nursing the area where the motor patch of the electrocardioscanner is located through a cleaning and nursing program;

and the electrode patch replacing module 10 is connected with the central control module 5 and is used for replacing the electrode patches through an electrode patch replacing program.

As shown in fig. 2, the electrocardiograph monitoring method for nursing care of children provided by the embodiment of the present invention includes the following steps:

s101, acquiring identity information of the child patient by using an identity information acquisition program through an identity information acquisition module to obtain identity information of the child patient; acquiring the case information of the child patient by using a case information acquisition program through a case information acquisition module to obtain the case information of the child patient;

s102, carrying out electrocardio monitoring on the child patient by utilizing an electrocardio monitor through an electrocardio monitoring module to obtain electrocardio monitoring data; acquiring summarized information by using the information association program through the information association module to associate the identity information of the child patient, the case information and the electrocardio monitoring data;

s103, controlling the operation of each connecting module by using a main control computer through a central control module to ensure the normal operation of each module; the information transmission and receiving program is used for transmitting the summarized information through the information transmission and receiving module and receiving the summarized information;

s104, analyzing the received drawing information by using an information analysis program through an information analysis module to obtain an information analysis result; performing abnormity early warning by using an abnormity early warning module according to the acquired information analysis result;

s105, cleaning and nursing the area where the motor patch of the electrocardiogram monitor is located by using a cleaning and nursing program through a cleaning and nursing module; and replacing the electrode patch by using an electrode patch replacing program through the electrode patch replacing module.

The identity information of the child patient provided by the embodiment of the invention comprises: child patient name, gender, age, contact.

The electrocardio monitoring data provided by the embodiment of the invention comprises the following steps: electrocardiogram, respiration, body temperature, blood pressure, blood oxygen saturation and pulse rate.

As shown in fig. 3, the electrocardiographic graph drawing method according to the embodiment of the present invention includes:

s201, determining the transverse length of an electrocardiogram drawing and determining the longitudinal width of the electrocardiogram drawing;

s202, drawing an electrocardiogram background grid in the electrocardiogram drawing for determining the transverse length and the longitudinal width, wherein the electrocardiogram background grid consists of a plurality of large grids with the same specification, and the large grids consist of a plurality of small grids with the same specification;

s203, drawing longitudinal parting lines and transverse parting lines between adjacent leads on the electrocardiogram background grids; drawing a standard voltage icon at a preset position on the electrocardiogram background grid;

s204, determining the initial position of each lead wave line; determining the transverse position and the longitudinal position of each sampling point in each lead wave line based on the starting position;

and S205, drawing each lead wave line in each region formed by the longitudinal partition line and the transverse partition line according to the transverse position and the longitudinal position of each sampling point in each lead wave line.

The embodiment of the invention provides a method for determining the transverse length of a electrocardiogram drawing, which comprises the following steps: and determining the transverse length of the electrocardiogram drawing according to the pixels of the screen unit grid, the paper feeding speed, the layout of each electrocardiogram lead and the corresponding time length of the longest electrocardiogram lead.

The method for determining the transverse length of the electrocardiogram drawing according to the pixels of the screen unit grid, the paper feeding speed, the layout of each electrocardiogram lead and the corresponding duration of the longest electrocardiogram lead, which is provided by the embodiment of the invention, comprises the following steps:

when the layout of each electrocardiogram lead is 12x1, the transverse length N1 of the electrocardiogram drawing is as follows:

N1＝T1*S1*X1+B1*X1；

wherein, T1 is the duration corresponding to the longest electrocardiographic lead, S1 is the paper feeding speed, X1 is the screen cell pixel, and B1 is the transverse total length of the at least one large cell where the standard voltage icon is located;

when the layout of each electrocardiogram lead is 3x4, the transverse length N2 of the electrocardiogram drawing is as follows:

N2＝T2*S2*X2+B2*X2+3*K2*X2；

wherein, T2 is the duration corresponding to the longest electrocardiolead, S2 is the paper feeding speed, X2 is the screen cell pixel, B2 is the transverse total length of the at least one large cell where the standard voltage icon is located, and K2 is the offset distance between the longitudinal dividing line between adjacent leads and the tail of the left-side electrocardio-lead connection diagram of the longitudinal dividing line;

when the layout of each electrocardiogram lead is 6x2, the transverse length N3 of the electrocardiogram drawing is as follows:

N3＝T3*S3*X3+B3*X3+K3*X3；

wherein, T3 is the duration corresponding to the longest electrocardiolead, S3 is the paper feeding speed, X3 is the screen cell pixel, B3 is the transverse total length of the at least one big grid where the standard voltage icon is located, and K3 is the offset distance between the longitudinal dividing line between the adjacent leads and the tail of the left-side electrocardio-lead connection diagram of the longitudinal dividing line.

The embodiment of the invention provides a method for drawing a standard voltage icon at a preset position on an electrocardiogram background grid, which comprises the following steps: and drawing standard voltage icons in at least one leftmost large grid between two adjacent transverse dividing lines and between the transverse dividing line and the electrocardiogram transverse boundary line respectively.

As shown in fig. 4, the association of the child patient identity information, the case information, and the electrocardiographic monitoring data by the information association program according to the embodiment of the present invention obtains summarized information, which includes:

s301, storing information used for the identity information, case information and electrocardiogram monitoring data of the child patient as a data entity in an associated memory; the associative memory comprises a plurality of data having a plurality of associations and comprises a content addressable structure, wherein the data entity is included in the plurality of data;

s302, the associative memory is configured to query according to at least one relationship selected from a group consisting of direct relationships and indirect relationships between the plurality of data;

s303, grouping the data entities stored in the associative memory, thereby forming a cluster; generating a report using the clusters.

As shown in fig. 5, the transmitting and receiving of summarized information by an information transmitting and receiving program according to an embodiment of the present invention includes:

s401, coding the summarized information as information to be transmitted to obtain an ultrasonic coded signal;

s402, obtaining an ultrasonic transmission signal based on the ultrasonic coding signal and an ultrasonic wake-up signal, wherein the ultrasonic wake-up signal is used for waking up an ultrasonic receiving end to decode the ultrasonic coding signal;

and S403, transmitting the ultrasonic transmission signal to an ultrasonic receiving end, and receiving information by the ultrasonic receiving end.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, and any modification, equivalent replacement, and improvement made by those skilled in the art within the technical scope of the present invention disclosed herein, which is within the spirit and principle of the present invention, should be covered by the present invention.

Claims (10)

1. An electrocardiographic monitoring system for nursing of a child, comprising:

the identity information acquisition module is connected with the central control module and is used for acquiring the identity information of the child patient through an identity information acquisition program to obtain the identity information of the child patient;

the case information acquisition module is connected with the central control module and used for acquiring case information of the child patient through a case information acquisition program to obtain the case information of the child patient;

the electrocardio monitoring module is connected with the central control module and is used for carrying out electrocardio monitoring on the child patient through an electrocardio monitor to obtain electrocardio monitoring data;

the electrocardiogram drawing method comprises the following steps:

determining the transverse length of the electrocardiogram drawing and determining the longitudinal width of the electrocardiogram drawing; the determining the transverse length of the electrocardiogram drawing comprises the following steps: determining the transverse length of an electrocardiogram drawing according to the pixels of the screen unit grid, the paper feeding speed, the layout of each electrocardiogram lead and the corresponding duration of the longest electrocardiogram lead;

the transverse length of the electrocardiogram drawing is determined according to the pixels of the screen unit grid, the paper feeding speed, the layout of each electrocardiogram lead and the corresponding duration of the longest electrocardiogram lead, and the transverse length comprises the following steps:

when the layout of each electrocardiogram lead is 12x1, the transverse length N1 of the electrocardiogram drawing is as follows:

N1＝T1*S1*X1+B1*X1；

wherein, T1 is the duration corresponding to the longest electrocardiographic lead, S1 is the paper feeding speed, X1 is the screen cell pixel, and B1 is the transverse total length of the at least one large cell where the standard voltage icon is located;

when the layout of each electrocardiogram lead is 3x4, the transverse length N2 of the electrocardiogram drawing is as follows:

N2＝T2*S2*X2+B2*X2+3*K2*X2；

wherein, T2 is the duration corresponding to the longest electrocardiolead, S2 is the paper feeding speed, X2 is the screen cell pixel, B2 is the transverse total length of the at least one large cell where the standard voltage icon is located, and K2 is the offset distance between the longitudinal dividing line between adjacent leads and the tail of the left-side electrocardio-lead connection diagram of the longitudinal dividing line;

when the layout of each electrocardiogram lead is 6x2, the transverse length N3 of the electrocardiogram drawing is as follows:

N3＝T3*S3*X3+B3*X3+K3*X3；

wherein, T3 is the duration corresponding to the longest electrocardiolead, S3 is the paper feeding speed, X3 is the screen cell pixel, B3 is the transverse total length of the at least one large cell where the standard voltage icon is located, and K3 is the offset distance between the longitudinal dividing line between adjacent leads and the tail of the left-side electrocardio-lead connection diagram of the longitudinal dividing line;

drawing an electrocardiogram background grid in an electrocardiogram drawing for determining the transverse length and the longitudinal width, wherein the electrocardiogram background grid consists of a plurality of large grids with the same specification, and the large grids consist of a plurality of small grids with the same specification;

drawing longitudinal parting lines and transverse parting lines between adjacent leads on the electrocardiogram background grids; drawing a standard voltage icon at a preset position on the electrocardiogram background grid;

determining the initial position of each lead wave line; determining the transverse position and the longitudinal position of each sampling point in each lead wave line based on the starting position;

drawing each lead wave line in each region formed by the longitudinal dividing line and the transverse dividing line according to the transverse position and the longitudinal position of each sampling point in each lead wave line;

the information association module is connected with the central control module and used for obtaining summary information through association of the identity information of the child patient, the case information and the electrocardio monitoring data through an information association program;

and the central control module is connected with the identity information acquisition module, the case information acquisition module, the electrocardio monitoring module and the information association module and is used for controlling the operation of each connection module through a main control computer and ensuring the normal operation of each module.

2. The system as set forth in claim 1, wherein the system further comprises:

the information transmission and receiving module is connected with the central control module and is used for transmitting the summarized information through an information transmission and receiving program and receiving the summarized information;

the information analysis module is connected with the central control module and used for analyzing the received drawing information through an information analysis program to obtain an information analysis result;

the abnormity early warning module is connected with the central control module and used for carrying out abnormity early warning according to the acquired information analysis result through the alarm;

the cleaning and nursing module is connected with the central control module and is used for cleaning and nursing the area where the motor patch of the electrocardio monitor is located through a cleaning and nursing program;

and the electrode patch replacing module is connected with the central control module and is used for replacing the electrode patches through an electrode patch replacing program.

3. The system as recited in claim 1, wherein the pediatric patient identification information comprises: child patient name, gender, age, contact.

4. The system as claimed in claim 1, wherein the electrocardiographic monitoring data comprises: electrocardiogram, respiration, body temperature, blood pressure, blood oxygen saturation and pulse rate.

5. The system as claimed in claim 1, wherein the step of drawing a standard voltage icon at a predetermined position on the background grid of the electrocardiogram comprises: and drawing standard voltage icons in at least one leftmost large grid between two adjacent transverse dividing lines and between the transverse dividing line and the electrocardiogram transverse boundary line respectively.

6. The system as claimed in claim 1, wherein the correlation of the identity information of the child patient, the case information and the electrocardiographic monitoring data by the information correlation procedure to obtain the summary information comprises:

storing information for the child patient identity information, case information and electrocardiographic monitoring data as data entities in an associative memory; the associative memory comprises a plurality of data having a plurality of associations and comprises a content addressable structure, wherein the data entity is included in the plurality of data;

the associative memory configured to query according to at least one relationship selected from a group consisting of direct relationships and indirect relationships between the plurality of data;

grouping the data entities stored in the associative memory, thereby forming a cluster; generating a report using the clusters.

7. The system as claimed in claim 2, wherein the step of transmitting the summarized information and receiving the summarized information by the information transmitting and receiving procedure comprises:

coding the summarized information as information to be transmitted to obtain an ultrasonic coded signal;

obtaining an ultrasonic transmission signal based on the ultrasonic coding signal and an ultrasonic wake-up signal, wherein the ultrasonic wake-up signal is used for waking up an ultrasonic receiving end to decode the ultrasonic coding signal;

and transmitting the ultrasonic transmission signal to an ultrasonic receiving end, and receiving information by the ultrasonic receiving end.

8. An information data processing terminal, characterized in that the information data processing terminal is used for realizing the child care electrocardiographic monitoring system according to any one of claims 1 to 7.

9. A computer program product stored on a computer readable medium, comprising a computer readable program for providing a user input interface for applying a child care electrocardiographic monitoring system according to any one of claims 1 to 7 when executed on an electronic device.

10. A computer readable storage medium storing instructions that, when executed on a computer, cause the computer to apply the care electrocardiographic monitoring system for a child as claimed in any one of claims 1 to 7.

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