CN112511640B - Network system for neonatal pediatric pacifying equipment and control method thereof - Google Patents

Abstract

The utility model discloses a network system for neonatal pediatric pacifying equipment and a control method thereof. The system comprises a mobile terminal, a cloud platform and a mobile terminal, wherein the mobile terminal is used for recording heart sounds, heart sounds and voice in combination through an electronic stethoscope and uploading recorded sound files to the cloud platform; the cloud platform is used for processing the sound files to form pacifying music files, and pushing the pacifying music files to a control center of a hospital after being named by unique identification; the control center is used for controlling the pacifying equipment in the setting area, checking the pacifying music file when the new pacifying music file exists, and confirming whether the pacifying music file is downloaded into the pacifying equipment or not through authorization; and the pacifying device is used for receiving and checking the pacifying music file, returning a response instruction to the control center after the checking is finished, and feeding back the state information to the control center periodically. The utility model is beneficial to improving the working efficiency of medical staff, reducing the working strength and promoting better growth and development of infants.

Description

Network system for neonatal pediatric pacifying equipment and control method thereof

Technical Field

The utility model relates to the technical field of medical systems, in particular to a network system for neonatal pediatric pacifying equipment.

Background

After birth, the neonate is separated from the familiar intrauterine environment, especially the sound environment, and a certain degree of anxiety emotion, especially the premature infant, is generated, and the maternal and infant separation time of about 2-6 weeks is needed to pass in the incubator of the hospital. During this period, there is no maternal accompaniment and anxiety of premature infants is more severe. The research finds that: the stimulation of mother's heart beat sounds to premature infants can obviously promote the development of the cerebral cortex of the language and the hearing of the premature infants.

The utility model of the applicant's prior application, patent number 201920062607.0, discloses a pacifying device with the function of sleeping for infants, which can play and restore uterine environment sounds for pacifying newborns, especially premature infants who need to live into a incubator, for creating a familiar sound environment similar to uterus for infants during the separation of mother and infant, and for better development assistance for infants. However, since the existing pacifying devices are independent, in actual operation, nurses need to play and stop at regular time, attention needs to be paid to whether the electric quantity is sufficient, the attribution of each device is recorded, and the like, and thus, the workload is brought to medical staff.

Meanwhile, during hospitalization, the puerpera cannot interact with premature infants, and the puerpera has anxiety about separation of the maternal and the infant and cannot help the baby.

At present, in the interior of a neonatal pediatric NICU, a large number of infant care boxes and monitoring devices are provided, and the requirements on the environment of a network are high, so that the system is not suitable for a networking mode with high arrangement power and special wiring. For this reason, it is necessary to develop a network system for neonatal pediatric pacifying equipment.

Disclosure of Invention

The object of the present utility model is to provide a network system for neonatal pediatric pacifying equipment, which overcomes the drawbacks of the prior art.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

a network system for neonatal pediatric pacifying equipment, comprising:

the mobile terminal is used for recording heart sounds, heart sounds and voice in combination through the electronic stethoscope and uploading recorded sound files to the cloud platform;

the cloud platform is used for processing the sound files uploaded by the mobile terminal to form pacifying music files, and pushing the pacifying music files to a control center of a hospital after being named by unique identification;

the control center is used for controlling the pacifying equipment in the setting area, checking the pacifying music file when the new pacifying music file exists, and confirming whether the pacifying music file is downloaded into the pacifying equipment or not through authorization;

and the pacifying device is placed in the infant incubator and used for receiving and checking the pacifying music file, returning a response instruction to the control center after the checking is finished, and feeding back state information to the control center periodically.

Further, the mobile terminal includes:

the network module is used for establishing network connection with the electronic stethoscope and a control center of a hospital;

the recording module is used for respectively recording heart sounds, heart sound combined voices and borygmus sounds through the electronic stethoscope so as to form independent sound files;

the first naming module is used for naming the sound files respectively;

the uploading module is used for uploading the independent sound file to the cloud platform and providing the name, the contact way and the address information of the recording personnel;

the recording module, the first naming module and the uploading module are sequentially connected, and the recording module and the uploading module are connected with the network module.

Further, the cloud platform includes:

the pretreatment module is used for carrying out pretreatment on the sound file, wherein the pretreatment comprises denoising and selective enhancement;

the editing and processing module is used for editing and processing the preprocessed sound file to form a pacifying music file, and the editing and processing specifically comprises the following steps: based on the heartbeat sound, adding voice and borborygmus sound into the heartbeat sound according to a preset time interval;

the second naming module is used for naming the pacifying music file with a unique identifier, wherein the unique identifier at least comprises user information and a file check code;

the pushing module is used for pushing the named pacifying music file to a control center of a hospital;

the preprocessing module, the editing and processing module, the second naming module and the pushing module are sequentially connected.

Further, the control center includes:

the control module is used for carrying out remote control on all pacifying equipment in the setting area, and the remote control at least comprises a switch, a check device and a check device state information;

the receiving module is used for receiving the pacifying music files pushed by the cloud platform and storing the pacifying music files in the storage module;

the first verification module is used for verifying the received pacifying music file;

the downloading module is used for downloading the pacifying music file after the verification is passed into pacifying equipment;

the authorization module is used for judging whether the unique identifier of the pacifying music file is legal or not when the downloading module sends a downloading request, if so, downloading is allowed, and if not, downloading is forbidden;

the notification module is used for sending notification reminding when the receiving module receives the new pacifying music file;

the control module, the receiving module, the storage module, the first verification module, the downloading module and the authorization module are connected in sequence, and the notification module is connected with the receiving module.

Further, the control center further includes:

and the statistical analysis module is used for carrying out statistics and analysis on the state information fed back by the pacifying equipment at regular intervals, and is connected with the control module.

Further, the pacifying device comprises:

the second checking module is used for checking the downloaded pacifying music file;

the response module returns a response instruction for confirming that the file transmission is successful to the control center after the second checking module checks that the file transmission is correct;

the recovery module is used for feeding back the state information of the pacifying equipment to the control center at regular intervals, wherein the state information at least comprises the number of times of playing pacifying music files and the playing time;

the second checking module, the response module and the response module are connected at this time.

The utility model also provides a control method of the network system for the neonatal pediatric pacifying equipment, which comprises the following steps:

s1, recording heart sounds, heart sounds and bowel sounds by a mobile terminal to form a sound file, and uploading the recorded sound file to a cloud platform;

s2, the cloud platform processes the sound file to form a pacifying music file, a CRC32 check code label is added, the check code is obtained by calculating CRC32 of file content, and the pacifying music file is named by a unique identifier and then pushed to a control center of a hospital;

s3, when the control center receives a new pacifying music file, firstly calculating a CRC32 check result of the content of the file, comparing the CRC32 check result with a check code label of the file, and then authorizing to confirm whether the pacifying music file is downloaded into pacifying equipment or not if the CRC32 check result is identical to the check code label of the file;

s4, after the pacifying equipment receives the pacifying music file, CRC32 check is carried out on the received file in the same mode, and after the check is completed, a response instruction is returned to the control center.

Further, the step S1 specifically includes:

s10, establishing network connection between the mobile terminal and the electronic stethoscope;

s11, the mobile terminal records heart sounds, heart sound combined voices and borygmus sounds through an electronic stethoscope to form independent sound files, and names the sound files respectively;

s12, uploading the independent sound file to a cloud platform, and providing the name, contact information and address information of the recorded person.

Further, the step S2 specifically includes:

s20, preprocessing the sound file, wherein the preprocessing comprises denoising and selective enhancement;

s21, clipping and processing the preprocessed sound file to form a pacifying music file, wherein the clipping and processing specifically comprises the following steps: based on the heartbeat sound, adding voice and borborygmus sound into the heartbeat sound according to a preset time interval;

s22, adding a CRC32 check code label to the pacifying music file, wherein the check code is obtained by carrying out CRC32 calculation on the file content, naming the pacifying music file with a unique identifier, and the unique identifier at least comprises user information and a file check code;

s23, pushing the named pacifying music file to a control center of a hospital.

Further, the step S3 specifically includes:

s30, receiving a pacifying music file sent by the cloud platform and sending out a prompt;

s31, calculating a CRC32 check result of the content of the file, comparing the result with a check code label of the file, and if the result is the same as the comparison result, continuing to execute the file, otherwise, stopping executing the file;

s32, downloading the checked pacifying music file into pacifying equipment, judging whether the unique identification of the pacifying music file is legal or not when the downloading module sends a downloading request, and if so, allowing downloading, otherwise, prohibiting downloading.

Compared with the prior art, the utility model has the advantages that: the wireless networking technology is adopted, the pacifying equipment, the cloud platform, the control center and the mobile terminal in one area are associated, and medical staff can check and control the working states of all pacifying equipment in the area at the control center and can remind the medical staff; meanwhile, the lying-in woman can upload pacifying sound to the cloud platform through the mobile terminal, and the pacifying sound is downloaded to the pacifying equipment through the control center after being processed, so that the participation of the lying-in woman in child care is realized, anxiety and helplessness after mother and infant separation are reduced, the dependence relationship of the mother and infant is better established, and better growth and development of the infant are promoted.

Drawings

In order to more clearly illustrate the embodiments of the utility model 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 utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a functional block diagram of a network system of the present utility model for a neonatal pediatric pacifier appliance.

Fig. 2 is a schematic block diagram of a mobile terminal in the present utility model.

Fig. 3 is a schematic block diagram of a cloud platform according to the present utility model.

Fig. 4 is a schematic block diagram of a control center in the present utility model.

Fig. 5 is a schematic block diagram of a pacifier device in the present utility model.

Fig. 6 is a flow chart of the control method of the present utility model.

Fig. 7 is a flowchart of step S1 in the control method of the present utility model.

Fig. 8 is an interface diagram of a mobile terminal in connection with an electronic stethoscope via a network in accordance with the present utility model.

Fig. 9 is a diagram of a recording prompt interface in the present utility model.

Fig. 10 is an interface diagram of recording mom heart sounds in the present utility model.

Fig. 11 is an interface diagram of a mother's heart sound being recorded in the present utility model.

Fig. 12 is an interface diagram of recording heart sound combined speech in the present utility model.

Fig. 13 is an interface diagram of recording a mother's borborygmus in the present utility model.

Fig. 14 is an interface diagram of sound upload in the present utility model.

Fig. 15 is a flowchart of step S2 in the control method of the present utility model.

Fig. 16 is a flowchart of step S3 in the control method of the present utility model.

Detailed Description

The preferred embodiments of the present utility model will be described in detail below with reference to the accompanying drawings so that the advantages and features of the present utility model can be more easily understood by those skilled in the art, thereby making clear and defining the scope of the present utility model.

Referring to fig. 1, the present embodiment discloses a network system for a neonatal pediatric pacifying apparatus, comprising: the mobile terminal 10 is used for recording heart sounds, heart sounds and voices through the electronic stethoscope and uploading recorded sound files to the cloud platform; the cloud platform 20 is used for processing the sound file uploaded by the mobile terminal to form a pacifying music file, and pushing the pacifying music file to a control center of a hospital after being named by a unique identifier; a control center 30 for controlling the pacifying device in the setting area, checking the pacifying music file when the new pacifying music file exists, and confirming whether the pacifying music file is downloaded into the pacifying device or not through authorization; and the pacifying device 40 is placed in the infant incubator and used for receiving and checking the pacifying music file, returning a response instruction to the control center after checking is completed, and feeding back state information to the control center periodically.

The utility model adopts a wireless networking technology to associate the pacifying equipment 40, the cloud platform 20, the control center 30 and the mobile terminal 10 in one area, so that medical staff can check and control the working states of all pacifying equipment 40 in the area at the control center 30, and can remind the medical staff; meanwhile, the lying-in woman can upload pacifying sound to the cloud platform 20 through the mobile terminal 10, and the pacifying sound is downloaded to pacifying equipment through the control center 30 after being processed, so that the participation of the lying-in woman is realized, anxiety and helplessness after separation of the mother and the infant are reduced, the dependence relationship of the mother and the infant is better established, and better growth and development of the infant are promoted.

Referring to fig. 2, the mobile terminal 10 includes: the network module 100 is used for establishing network connection with the electronic stethoscope and a control center of a hospital, and the network module 100 can be a wireless module; a recording module 110 for recording heart sounds, heart sounds and bowel sounds respectively through the electronic stethoscope to form independent sound files; the first naming module 120 is configured to name the sound files respectively, where the names may be: mom heart sound + recording time (hours, minutes, seconds), mom heart sound + voice + recording time (hours, minutes, seconds), mom bowel sound + recording time (hours, minutes, seconds); the uploading module 130 is configured to upload the independent sound file to the cloud platform, and provide name, contact information and address information of the recording personnel; the recording module 110, the first naming module 120, and the uploading module 130 are sequentially connected, and the recording module 110 and the uploading module 130 are connected with the network module 100.

Preferably, the mobile terminal 10 may be a mobile phone, a PC device, etc., where the network module is a function carried by the device itself, and the recording module 110, the first naming module 120, and the uploading module 130 may be an APP integrated in the mobile terminal 10, and after recording, the sound file may be locally stored by using a memory carried by the device itself.

Referring to fig. 3, the cloud platform 20 includes: the preprocessing module 200 is configured to preprocess a sound file, where the preprocessing includes denoising and selective enhancement, denoising is to eliminate some sound noise points possibly introduced in the recording process, ensure that the heartbeat sound is clean, and in addition, the recording process may have a problem that the stethoscope is placed in a deviation manner, and the recorded sound has inconsistent intensity, where the selective enhancement is to respectively select an amplitude base point according to a different sound frequency, enhance the selectivity of the recorded file to the same sound intensity level, and ensure that the actual playing sound intensity is consistent to the user; a clipping and processing module 210, configured to clip and process the preprocessed sound file to form a pacifying music file, where the clipping and processing processes specifically are: based on the heart beat sound, adding the voice and the borborygmus sound into the heart beat sound according to a preset time interval, for example, manufacturing a whole pacifying music file for about 30 minutes, wherein the heart beat sound is used as a main body of the pacifying sound to penetrate all the time; the voice and the borborygmus are respectively placed at different positions according to a certain time interval so as to restore the sound environment in the uterus during pregnancy as much as possible; a second naming module 220 for naming the pacifying music file with a unique identification including at least user information (including name or hospitalization ID information, etc.) and a file check code; the pushing module 230 is configured to push the named pacifying music file to the control center 30 of the hospital; the preprocessing module 200, the editing and processing module 210, the second naming module 220 and the pushing module 230 are connected in sequence.

Referring to fig. 4, the control center 30 includes: the control module 300 is configured to remotely control all pacifying devices in the setting area, where the remote control at least includes a switch, checking a use condition of the devices, and checking current status information (key information such as electric quantity, whether to work, and validity period) of the devices; the receiving module 310 is configured to receive the pacifying music file pushed by the cloud platform and store the pacifying music file in the storage module 320; a first verification module 330, configured to verify the received pacifying music file; a downloading module 340, configured to download the pacifying music file after the verification is passed to a pacifying device; the authorization module 350 is configured to determine whether the unique identifier of the pacifying music file is legal when the download module sends the download request, and if the unique identifier is legal, allow the download, otherwise prohibit the download; a notification module 360 for sending a notification reminder when the receiving module 310 receives a new pacifying music file; the control module 300, the receiving module 310, the storage module 320, the first verification module 330, the downloading module 340 and the authorization module 350 are sequentially connected, and the notification module 360 is connected with the receiving module 310.

Preferably, the control center 30 may further include: and the statistical analysis module 370 is used for counting and analyzing the state information fed back by the pacifying equipment regularly, and the statistical analysis module 370 is connected with the control module 300.

Referring to fig. 5, the pacifier 40 includes: a second verification module 400, configured to verify the downloaded pacifying music file; the response module 410 returns a response instruction for confirming that the file transmission is successful to the control center 30 after the second checking module checks that the file transmission is correct; a reply module 420, configured to periodically feed back status information of the pacifying device 40 to the statistical analysis module 370 of the control center during pacifying, so that the statistical analysis module 370 performs statistics and analysis, where the status information includes at least the number of times of playing pacifying music files and the playing time; wherein the second checking module 400, the answering module 410 and the answering module 420 are connected this time.

Referring to fig. 6, the present utility model further provides a control method of the network system for neonatal pediatric pacifying apparatus according to the above, comprising the steps of:

step S1: the mobile terminal records heart sounds, heart sounds and voice, and borborygmus sounds to form a sound file, and uploads the recorded sound file to the cloud platform, wherein the steps specifically include (see fig. 7):

step S10: the mobile terminal establishes a network connection with an electronic stethoscope which is an electronic stethoscope employing prior art equipment, preferably an listening bell, and is capable of reducing the sound environment in the mother's uterus with high fidelity, as shown in fig. 8.

Step S11: the mobile terminal records heart sounds, heart sounds combined voices and borygmus sounds respectively through the electronic stethoscope to form independent sound files, and names are respectively given, three steps are required to complete the recording process as shown in fig. 9, fig. 10 shows the recording of mom heart sounds, in this step, the interface of the mobile terminal prompts a user to place the electronic stethoscope at the heart position, fig. 11 shows the process of recording mom heart sounds, fig. 12 shows the process of recording heart sounds combined voices, and fig. 13 shows the process of recording mom borygmus sounds.

S12: after all the recordings are completed, the corresponding recording sounds are independently displayed on the sound uploading interface, as shown in fig. 14, and then the independent sound files are uploaded to the cloud platform 20, and the names, contact ways and address information of the recording personnel are provided, so that the cloud platform 20 can verify conveniently.

Step S2, the cloud platform 20 processes the sound file to form a pacifying music file, and adds a check code label of CRC32, where the check code is obtained by calculating CRC32 from the file content, and pushes the pacifying music file to the control center 30 of the hospital after naming the unique identifier, where the steps specifically (see fig. 15):

step S20: preprocessing the sound file, wherein the preprocessing comprises denoising and selective enhancement, and denoising is to eliminate some sound noise points possibly introduced in the recording process so as to ensure the clean heartbeat sound; in addition, the recording process can also have the problem that the stethoscope is placed in a position deviation, the recorded sound has inconsistent intensity, the selection enhancement is to select an amplitude base point according to different sound frequencies, the selectivity of the recorded file is enhanced to the same sound intensity level, and the fact that the actual played sound intensity is consistent to the user is ensured.

Step S21: editing and processing the preprocessed sound file to form a pacifying music file, wherein the editing and processing specifically comprises the following steps: based on the heart beat sounds, the speech and the borborygmus sounds are added to the heart beat sounds at preset time intervals, for example: a whole section of music file with about 30 minutes is manufactured, and in the music file, heartbeat sound is used as a main body of pacifying sound to penetrate all the time; the voice and the borborygmus are respectively placed at different positions according to a certain time interval so as to restore the sound environment in the uterus during pregnancy as much as possible.

Step S22: a check code tag of CRC32 is added to the pacifying music file, the check code is obtained by performing CRC32 calculation on the file content, and the pacifying music file is named with a unique identification which at least comprises user information (information such as name or hospitalization ID) and the file check code.

Step S23: the named pacifying music files are pushed to the control center 30 of the hospital, and meanwhile, medical staff can be informed to check at the control center 30.

Step S3: when receiving a new pacifying music file, the control center 30 firstly calculates the CRC32 check result of the content of the file, compares the result with the check code label of the file, and has the same comparison, so that the file is free of errors, and then authorizes and confirms whether to download the pacifying music file into pacifying equipment, wherein the steps are as follows (participated in fig. 16):

step S30: receiving the pacifying music file sent by the cloud platform 20 and sending out a prompt, namely prompting medical staff to check at the control center 30 when the control center 30 receives the new pacifying music file.

Step S31: and calculating a CRC32 check result of the content of the file, comparing the result with a check code label of the file, and if the result is the same as the comparison result, continuing to execute the file, otherwise, stopping executing the file.

Step S32: downloading the checked pacifying music file into pacifying equipment, judging whether the unique identification of the pacifying music file is legal or not when the downloading module sends a downloading request, and if so, allowing downloading, otherwise, prohibiting downloading.

The control center 30 can integrate the above functions into one sound management platform software, thereby greatly improving the working efficiency and reducing the working intensity of medical staff.

And S4, after the pacifying equipment receives the pacifying music file, CRC32 check is carried out on the received file in the same way, and after the check is finished, a response instruction is returned to the control center.

Although the embodiments of the present utility model have been described with reference to the accompanying drawings, the patentees may make various modifications or alterations within the scope of the appended claims, and are intended to be within the scope of the utility model as described in the claims.

Claims (5)

1. A network system for neonatal pacifying equipment, comprising:

the mobile terminal is used for recording heart sounds, heart sounds and voice in combination through the electronic stethoscope and uploading recorded sound files to the cloud platform;

the cloud platform is used for processing the sound files uploaded by the mobile terminal to form pacifying music files, and pushing the pacifying music files to a control center of a hospital after being named by unique identification;

the control center is used for controlling the pacifying equipment in the setting area, checking the pacifying music file when the new pacifying music file exists, and confirming whether the pacifying music file is downloaded into the pacifying equipment or not through authorization;

the pacifying device is placed in the infant incubator and used for receiving and checking the pacifying music files, returning response instructions to the control center after checking is completed, and feeding back state information to the control center periodically;

the mobile terminal includes:

the network module is used for establishing network connection with the electronic stethoscope and a control center of a hospital;

the recording module is used for respectively recording heart sounds, heart sound combined voices and borygmus sounds through the electronic stethoscope so as to form independent sound files;

the first naming module is used for naming the sound files respectively;

the uploading module is used for uploading the independent sound file to the cloud platform and providing the name, the contact way and the address information of the recording personnel;

the recording module, the first naming module and the uploading module are connected in sequence, and the recording module and the uploading module are connected with the network module;

the cloud platform includes:

the pretreatment module is used for carrying out pretreatment on the sound file, wherein the pretreatment comprises denoising and selective enhancement;

the editing and processing module is used for editing and processing the preprocessed sound file to form a pacifying music file, and the editing and processing specifically comprises the following steps: based on the heartbeat sound, adding voice and borborygmus sound into the heartbeat sound according to a preset time interval;

the second naming module is used for naming the pacifying music file with a unique identifier, wherein the unique identifier at least comprises user information and a file check code;

the pushing module is used for pushing the named pacifying music file to a control center of a hospital;

the preprocessing module, the editing and processing module, the second naming module and the pushing module are connected in sequence;

the control center includes:

the control module is used for carrying out remote control on all pacifying equipment in the setting area, and the remote control at least comprises a switch, a check device and a check device state information;

the receiving module is used for receiving the pacifying music files pushed by the cloud platform and storing the pacifying music files in the storage module;

the first verification module is used for verifying the received pacifying music file;

the downloading module is used for downloading the pacifying music file after the verification is passed into pacifying equipment;

the authorization module is used for judging whether the unique identifier of the pacifying music file is legal or not when the downloading module sends a downloading request, if so, downloading is allowed, and if not, downloading is forbidden;

the notification module is used for sending notification reminding when the receiving module receives the new pacifying music file;

the control module, the receiving module, the storage module, the first verification module, the downloading module and the authorization module are connected in sequence, and the notification module is connected with the receiving module;

the control center further includes:

the statistical analysis module is used for carrying out statistics and analysis on the state information fed back by the pacifying equipment at regular intervals, and is connected with the control module;

the pacifying device comprises:

the second checking module is used for checking the downloaded pacifying music file;

the response module returns a response instruction for confirming that the file transmission is successful to the control center after the second checking module checks that the file transmission is correct;

the recovery module is used for feeding back the state information of the pacifying equipment to the control center at regular intervals, wherein the state information at least comprises the number of times of playing pacifying music files and the playing time;

the second checking module, the response module and the response module are sequentially connected.

2. A control method of a network system for neonatal pediatric pacifying equipment according to claim 1, comprising the steps of:

s1, recording heart sounds, heart sounds and bowel sounds by a mobile terminal to form a sound file, and uploading the recorded sound file to a cloud platform;

s2, the cloud platform processes the sound file to form a pacifying music file, a CRC32 check code label is added, the check code is obtained by calculating CRC32 of file content, and the pacifying music file is named by a unique identifier and then pushed to a control center of a hospital;

s3, when the control center receives a new pacifying music file, firstly calculating a CRC32 check result of the content of the file, comparing the CRC32 check result with a check code label of the file, and then authorizing to confirm whether the pacifying music file is downloaded into pacifying equipment or not if the CRC32 check result is identical to the check code label of the file;

s4, after the pacifying equipment receives the pacifying music file, CRC32 check is carried out on the received file in the same mode, and after the check is completed, a response instruction is returned to the control center.

3. The method for controlling a network system for neonatal pediatric pacifying equipment according to claim 2, characterized in that said step S1 comprises in particular:

s10, establishing network connection between the mobile terminal and the electronic stethoscope;

s11, the mobile terminal records heart sounds, heart sound combined voices and borygmus sounds through an electronic stethoscope to form independent sound files, and names the sound files respectively;

s12, uploading the independent sound file to a cloud platform, and providing the name, contact information and address information of the recorded person.

4. The control method of a network system for neonatal pediatric pacifying equipment according to claim 2, characterized by: the step S2 specifically includes:

s20, preprocessing the sound file, wherein the preprocessing comprises denoising and selective enhancement;

s21, clipping and processing the preprocessed sound file to form a pacifying music file, wherein the clipping and processing specifically comprises the following steps: based on the heartbeat sound, adding voice and borborygmus sound into the heartbeat sound according to a preset time interval;

s22, adding a CRC32 check code label to the pacifying music file, wherein the check code is obtained by carrying out CRC32 calculation on the file content, naming the pacifying music file with a unique identifier, and the unique identifier at least comprises user information and a file check code;

s23, pushing the named pacifying music file to a control center of a hospital.

5. The control method of a network system for neonatal pediatric pacifying equipment according to claim 2, characterized by: the step S3 specifically includes:

s30, receiving a pacifying music file sent by the cloud platform and sending out a prompt;

s31, calculating a CRC32 check result of the content of the file, comparing the result with a check code label of the file, and if the result is the same as the comparison result, continuing to execute the file, otherwise, stopping executing the file;

s32, downloading the checked pacifying music file into pacifying equipment, judging whether the unique identification of the pacifying music file is legal or not when the downloading module sends a downloading request, and if so, allowing downloading, otherwise, prohibiting downloading.

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