CN112890772A - Health index monitoring method and system for child smart watch - Google Patents

Abstract

The invention provides a method and a system for monitoring health indexes of a child smart watch, wherein the method comprises the following steps: acquiring vital sign data of children in real time; transmitting the vital sign data to a data processing center; the data processing center sequentially judges the vital sign data; when the vital sign data in the vital sign data judgment result exceed a preset normal range, immediately sending out a rescue prompt according to a grade rule; when no vital sign data exceeding a preset normal range exists in the vital sign data judgment result, performing data integration on the vital sign data to obtain health index monitoring information; and sending the health index monitoring information to a mobile phone provided with an APP matched with the child smart watch. The invention provides a child intelligent watch capable of monitoring a health index, which achieves the purpose of monitoring the health index of a child in real time and solves the problem that the basic health state of the child cannot be acquired.

Description

Health index monitoring method and system for child smart watch

Technical Field

The invention relates to the technical field of intelligence, in particular to a health index monitoring method and system for a child intelligent watch.

Background

The children's intelligence wrist-watch is the product that the software and hardware that a section was designed to children and head of a family combines, through wearing in children's wrist to and supporting cell-phone APP is connected, realizes the relevance of cell-phone and wrist-watch. The children's intelligence wrist-watch is as connecting the communication link between children and the head of a family, on the one hand need satisfy the activity information with children and in time feed back to the head of a family, and on the other hand still needs to make things convenient for the head of a family to use the cell-phone at any time to look over children's state for the head of a family masters child's state anytime and anywhere. Children are as the people of no action ability or restriction action ability, and the safety and the health state of health can't be judged to self, and the people that form possesses such ability, at this moment, just need establish portable communication safety link before children and adult for children, let the head of a family know and judge children's safe state through intelligent wrist-watch to for children in order to supply a safer state, in order to improve children to the demand of higher sense of security.

The current child intelligent watch can only realize communication between a child and a parent, and the parent can only obtain the position state information of the child at any time and cannot obtain the basic health state of the child, so that the invention provides a child intelligent watch health index monitoring method and system, and the purpose of monitoring the child health index in real time is realized.

Disclosure of Invention

The invention provides a health index monitoring method and system for a child intelligent watch, which effectively solve the problem that the basic health state of a child cannot be acquired in the prior art by carrying a millimeter wave radar sensor.

The invention provides a health index monitoring method for a child intelligent watch, which comprises the following steps:

acquiring vital sign data of children in real time;

transmitting the vital sign data to a data processing center;

the data processing center sequentially judges the vital sign data to obtain a vital sign data judgment result;

when the vital sign data in the vital sign data judgment result exceed a preset normal range, immediately sending out a rescue prompt according to a grade rule;

when no vital sign data exceeding a preset normal range exists in the vital sign data judgment result, performing data integration on the vital sign data to obtain health index monitoring information;

and sending the health index monitoring information to a mobile phone provided with an APP matched with the intelligent watch of the child.

Further, the real-time acquisition of the vital sign data of the child is realized by carrying a millimeter wave radar sensor in the child intelligent watch, and when the child intelligent watch is worn on the wrist of the child, the millimeter wave radar sensor acquires the vital sign data of the child through electromagnetic waves.

Further, when sending out the rescue prompt immediately according to the grade rule, the rescue prompt includes: sending a short message and positioning to a mobile phone provided with an APP matched with the intelligent watch of the child, directly calling an emergency contact and calling a nearby medical safety department for rescue;

the ranking rules include:

when the value of the vital sign data exceeding the preset normal range belongs to a low level in the level rule, sending a short message and positioning to a mobile phone provided with an APP matched with the child smart watch;

when the value of the vital sign data exceeding the preset normal range belongs to the middle level in the level rule, directly calling the emergency contact;

when the value of the vital sign data exceeding the preset normal range belongs to high level in the grade rule, a medical safety department calling request is sent to the mobile phone provided with the APP matched with the child smart watch, and the parent calls for rescue after confirming on the mobile phone to the nearby medical safety department.

Further, the health index monitoring information includes: the health index of the vital sign data, the normal range corresponding to the vital sign indexes and the normal range of the vital sign data.

Further, transmitting the vital sign data to a data processing center includes:

temporarily caching the vital sign data of the child according to the set real-time acquisition time interval according to the acquisition time;

matching the temporarily cached vital sign data with the vital sign indexes, wherein the matched vital sign indexes and the vital sign data jointly form a vital sign data packet;

placing the vital sign data packets at the transmitting and transmitting positions of a transmission channel according to channels, and scheduling according to flow control information of each channel in the transmission channel;

transmitting and transmitting the vital sign data packet after scheduling to a data processing center;

when the vital sign data packet after scheduling is transmitted to the data processing center, the energy required by transmission is estimated through the following formula:

in the above formula, Q represents the energy of the data transmission loss, F represents the frequency of the transmission, D represents the distance of the transmission, W represents the transmission medium parameter, where the air corresponds to the medium parameter 32.4, T represents the energy required for the estimated transmission, E_iThe energy required by the ith vital sign data packet transmission is represented, N represents the number of vital sign data indexes, and D represents the retransmission rate during transmission;

and then when transmitting and transmitting to the data processing center, transmitting and transmitting the vital sign data packet after scheduling to the data processing center according to the estimated energy T required by transmission.

A system for a child smart watch to monitor a health index, comprising: the system comprises a data monitoring module, a data transmission module, a data judgment module, an exception handling module, a data integration module and a signal transceiving module;

the data monitoring module is used for acquiring vital sign data of the children in real time;

the data transmission module is used for transmitting the vital sign data acquired in real time to the data judgment module;

the data judgment module is used for sequentially judging the vital sign data transmitted by the data transmission module and obtaining a vital sign data judgment result;

the abnormity processing module is used for immediately outputting a rescue signal through the signal transceiver module when index data exceeding a preset normal range appears in the vital sign data judgment result;

the data integration module is used for integrating the vital sign data to obtain health index monitoring information when the index data exceeding a preset normal range does not appear in the vital sign data judgment result;

the signal receiving and transmitting module is used for transmitting the rescue signal and the health index monitoring information.

Further, the data monitoring module comprises a millimeter wave radar sensor, and the millimeter wave radar sensor acquires the vital sign data of the child through electromagnetic waves.

Further, the exception handling module includes: the system comprises a text unit, a voice unit, a positioning unit and an operation unit;

the text unit is used for generating a short message text;

the positioning unit is used for acquiring the position information of the child;

the voice unit is used for calling an emergency contact or calling a nearby medical safety department;

the operation unit is used for immediately sending rescue reminding according to a grade rule, and when the value of the vital sign data exceeding a preset normal range belongs to a low level in the grade rule, a short message text is generated through the text unit, the position information of the child is acquired through the positioning unit, and then the short message is sent to a mobile phone provided with an APP matched with the smart watch of the child and the positioning is carried out; when the value of the vital sign data exceeding the preset normal range belongs to the middle level in the level rule, directly calling the emergency contact through the voice unit; when the value that vital sign data surpass predetermined normal scope belongs to the senior in the grade rule, through voice unit with text unit sends medical safety department call request to installing on the cell-phone with supporting APP of children's smart watch, passes through after confirming on the cell-phone by the head of a family the voice unit calls the rescue to near medical safety department.

Further, the data integration module integrates the vital sign data, the normal range corresponding to the vital sign indexes and the health index of the vital sign data in the normal range to form health index monitoring information.

Further, the data transmission module includes: the device comprises a temporary storage unit, a matching unit, a scheduling unit and a transmitting unit;

the temporary storage unit is used for temporarily caching the vital sign data of the child according to the set real-time acquisition time interval and the acquisition time;

the matching unit is used for matching the temporarily cached vital sign data with the vital sign indexes to obtain a vital sign data packet;

the scheduling unit is used for scheduling according to the flow control information of each channel in the transmission channels;

the transmitting unit is used for transmitting and transmitting the vital sign data packets after scheduling;

wherein, when the transmitting unit transmits and transmits the scheduled vital sign data packet, the transmitting unit also estimates the energy required by transmission according to the following formula:

in the above formula, Q represents the energy of the data transmission loss, F represents the frequency of the transmission, D represents the distance of the transmission, W represents the transmission medium parameter, where the air corresponds to the medium parameter 32.4, T represents the energy required for the estimated transmission, E_iRepresents the energy required by the ith vital sign data packet transmission, N represents the number of vital sign data indexes, and D represents the retransmission during the transmissionRate;

and when the transmitting unit transmits and transmits, the scheduled vital sign data packet is transmitted and transmitted according to the estimated energy T required for transmission.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

fig. 1 is a flowchart of a health index monitoring method of a child smart watch according to the present invention;

fig. 2 is a schematic view of a health index monitoring system of a child smart watch according to the present invention.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

As shown in fig. 1, an embodiment of the present invention provides a method for monitoring a health index of a child smart watch, including:

acquiring vital sign data of children in real time;

transmitting the vital sign data to a data processing center;

the data processing center sequentially judges the vital sign data to obtain a vital sign data judgment result;

when the vital sign data in the vital sign data judgment result exceed a preset normal range, immediately sending out a rescue prompt according to a grade rule;

when no vital sign data exceeding a preset normal range exists in the vital sign data judgment result, performing data integration on the vital sign data to obtain health index monitoring information;

and sending the health index monitoring information to a mobile phone provided with an APP matched with the intelligent watch of the child.

The principle of the technical scheme is as follows: in the technical scheme, the method for realizing health index monitoring of the intelligent watch for the children sequentially monitors the health index according to the following steps: acquiring vital sign data of children in real time; transmitting the vital sign data to a data processing center; the data processing center sequentially judges the vital sign data; when the vital sign data in the vital sign data judgment result exceed a preset normal range, immediately sending out a rescue prompt according to a grade rule; when no vital sign data exceeding a preset normal range exists in the vital sign data judgment result, performing data integration on the vital sign data to obtain health index monitoring information; and sending the health index monitoring information to a mobile phone provided with an APP matched with the child smart watch.

The beneficial effects of the above technical scheme are that: according to the technical scheme, the purpose of monitoring the health index of the child is achieved through the child intelligent watch, so that parents can communicate with the child through the child intelligent watch and can acquire health index monitoring information of the child in real time, a safer state is provided for the child, and the requirement of the child on the safety sense is improved; moreover, the vital sign data of the children are acquired in real time, so that the health index of the children can be monitored at any time, and the abnormal health condition of the children can be found in time; the data processing center is used for sequentially judging the vital sign data, so that the judgment sensitivity is high, the accuracy of the judgment result is high, the vital sign data can be presented in the judgment result of the vital sign data when being judged as long as one index is abnormal, and omission in the judgment of the vital sign data index can be avoided by sequentially judging; the rescue prompt is sent immediately according to the grade rule, the abnormal degree of the health condition of the child can be judged according to the received rescue prompt, and corresponding measures are taken in time according to the health condition of the child; the data integration is carried out on the vital sign data, so that parents can obtain the health index without subjective vital sign data judgment, and the judgment result is prevented from being influenced by subjective factors; in addition, parents can also adjust partial vital sign data index normal range according to children's self health through APP for also can be accurate to the children of special physique carry out health index monitoring.

In an embodiment provided by the invention, the real-time acquisition of the vital sign data of the child is carried out by carrying a millimeter wave radar sensor in a child smart watch, and when the child smart watch is worn on the wrist of the child, the millimeter wave radar sensor acquires the vital sign data of the child through electromagnetic waves.

The principle of the technical scheme is as follows: among the above-mentioned technical scheme, when children wear children's intelligence wrist on, millimeter wave radar sensor acquires children's vital sign data through the transmission electromagnetic wave.

The beneficial effects of the above technical scheme are that: carry on the millimeter wave radar sensor through above-mentioned technical scheme and need not reserve the hole of electromagnetic wave transmission in children's intelligence wrist-watch for children's intelligence wrist-watch is more pleasing to the eye, reduces children's intelligence wrist-watch's the manufacturing degree of difficulty and manufacturing cost, and in addition, the electromagnetic wave can pierce through the insulator, can see through accurate vital sign data that obtain children of obstacles such as children's intelligence wrist-watch shell and clothes, and it is less for laser, infrared, ultrasonic wave etc. to children's health injury.

In an embodiment provided by the present invention, when the rescue prompt is sent immediately according to the grade rule, the rescue prompt includes: sending a short message and positioning to a mobile phone provided with an APP matched with the intelligent watch of the child, directly calling an emergency contact and calling a nearby medical safety department for rescue;

the ranking rules include:

when the value of the vital sign data exceeding the preset normal range belongs to a low level in the level rule, sending a short message and positioning to a mobile phone provided with an APP matched with the child smart watch;

when the value of the vital sign data exceeding the preset normal range belongs to the middle level in the level rule, directly calling the emergency contact;

when the value of the vital sign data exceeding the preset normal range belongs to high level in the grade rule, a medical safety department calling request is sent to the mobile phone provided with the APP matched with the child smart watch, and the parent calls for rescue after confirming on the mobile phone to the nearby medical safety department.

The principle of the technical scheme is as follows: according to the technical scheme, when the rescue reminding is sent, reminding is carried out according to the grade rule, if the value of the vital sign data exceeding the preset normal range belongs to a low grade in the grade rule, a short message is sent to the mobile phone provided with the APP matched with the child smart watch, and positioning is carried out; if the value of the vital sign data exceeding the preset normal range belongs to the middle level in the level rule, directly calling the emergency contact; if the value of the vital sign data exceeding the preset normal range belongs to high level in the grade rule, a calling request of a medical safety department is sent to a mobile phone provided with an APP matched with the child intelligent watch, and a parent calls for rescue after confirming on the mobile phone to the nearby medical safety department.

The beneficial effects of the above technical scheme are that: can make in case the normal scope that the vital sign data index corresponds of being monitored by children surpass through above-mentioned technical scheme can be according to the vital sign data surpass the value judgement that preset normal scope surpasss and belong to low level, intermediate level or senior in the grade rule and send corresponding rescue warning, moreover, the grade rule is that the head of a family sets up through APP on installing the cell-phone with supporting APP of children's intelligence wrist-watch, effectively avoid children health to appear after unusual unmanned knowing, and, work as when the value that the vital sign data surpass preset normal scope belongs to senior in the grade rule, call the rescue to near medical safety department again after confirming on the cell-phone by the head of a family, avoided children's intelligence wrist-watch health index monitoring system to appear misjudgement and lead to medical safety department's rescue, thereby cause medical resource waste.

In one embodiment of the present invention, the health index monitoring information includes: the health index of the vital sign data, the normal range corresponding to the vital sign indexes and the normal range of the vital sign data.

The principle of the technical scheme is as follows: in the above technical scheme, the health index monitoring information includes the vital sign data, a normal range corresponding to the vital sign index, and a health index of the vital sign data to the normal range.

The beneficial effects of the above technical scheme are that: through the technical scheme, make the head of a family pass through in the cell-phone with the supporting APP of children's intelligent wrist-watch obtain children's vital sign data and vital sign data to the health index of normal scope, and simultaneously, still give the normal scope that the vital sign index corresponds, not only can make the head of a family can directly perceivedly obtain children's health index monitoring data like this, and can also fully understand the position that current children's vital sign data locate in the normal scope of vital sign data index that corresponds, in addition, do not need the head of a family to carry out subjective vital sign data judgement and can obtain the health index, avoid subjective factor to influence the judged result, can also adjust the normal scope of vital sign data index to the part according to children's self testing result through APP, make also can be accurate to the monitoring of health index to the children of special health.

In an embodiment of the present invention, the transmitting the vital sign data to the data processing center includes:

temporarily caching the vital sign data of the child according to the set real-time acquisition time interval according to the acquisition time;

matching the temporarily cached vital sign data with the vital sign indexes, wherein the matched vital sign indexes and the vital sign data jointly form a vital sign data packet;

placing the vital sign data packets at the transmitting and transmitting positions of a transmission channel according to channels, and scheduling according to flow control information of each channel in the transmission channel;

transmitting and transmitting the vital sign data packet after scheduling to a data processing center;

when the vital sign data packet after scheduling is transmitted to the data processing center, the energy required by transmission is estimated through the following formula:

in the above formula, Q represents the energy of the data transmission loss, F represents the frequency of the transmission, D represents the distance of the transmission, W represents the transmission medium parameter, where the air corresponds to the medium parameter 32.4, T represents the energy required for the estimated transmission, E_iThe energy required by the ith vital sign data packet transmission is represented, N represents the number of vital sign data indexes, and D represents the retransmission rate during transmission;

and then when transmitting and transmitting to the data processing center, transmitting and transmitting the vital sign data packet after scheduling to the data processing center according to the estimated energy T required by transmission.

The principle of the technical scheme is as follows: in the technical scheme, when the vital sign data are transmitted to the data processing center, firstly, the vital sign data of the child are temporarily cached according to the acquisition time according to the set real-time acquisition time interval; then matching the temporarily cached vital sign data with the vital sign indexes, wherein the matched vital sign indexes and the vital sign data jointly form a vital sign data packet; then, placing the vital sign data packet at a transmitting position of a transmission channel according to channels, and scheduling according to flow control information of each channel in the transmission channel; finally, transmitting and transmitting the vital sign data packet after scheduling to a data processing center; and when the scheduled vital sign data packet is transmitted to the data processing center, the energy required by the transmission is estimated through the following formula:

and then when transmitting and transmitting to the data processing center, transmitting and transmitting the scheduled vital sign data packet to the data processing center according to the estimated energy T required by transmission.

The beneficial effects of the above technical scheme are that: the vital sign data are transmitted to the data processing center through the technical scheme, so that the vital sign data of the children acquired in real time at two adjacent time can be prevented from being mixed, the incomplete transmission condition of the vital sign data can be avoided, the health monitoring of the children can be ensured to be accurate, the transmission channel comprises a plurality of channels, the transmission rate can be increased, parents can obtain the real-time vital sign data information of the children in time, the transmission channel can be prevented from being blocked by scheduling according to the flow control information of each channel in the transmission channel, the loss of the vital sign data packet in the transmission process is avoided, the data transmission speed and the data transmission integrity are improved, in addition, when the energy required by transmission is estimated, the loss of propagation in a free space and the retransmission phenomenon caused by poor signals are fully considered, the estimated energy required for emission can be ensured to finish emission transmission of the vital sign data of the children obtained in real time, and the phenomenon of data loss is avoided.

As shown in fig. 2, an embodiment of the present invention provides a system for monitoring a health index by a child smart watch, including: the system comprises a data monitoring module, a data transmission module, a data judgment module, an exception handling module, a data integration module and a signal transceiving module;

the data monitoring module is used for acquiring vital sign data of the children in real time;

the data transmission module is used for transmitting the vital sign data acquired in real time to the data judgment module;

the data judgment module is used for sequentially judging the vital sign data transmitted by the data transmission module and obtaining a vital sign data judgment result;

the abnormity processing module is used for immediately outputting a rescue signal through the signal transceiver module when index data exceeding a preset normal range appears in the vital sign data judgment result;

the data integration module is used for integrating the vital sign data to obtain health index monitoring information when the index data exceeding a preset normal range does not appear in the vital sign data judgment result;

the signal receiving and transmitting module is used for transmitting the rescue signal and the health index monitoring information.

The principle of the technical scheme is as follows: the system for monitoring the health index of the intelligent watch for the children in the technical scheme comprises a data monitoring module, a data transmission module, a data judgment module, an exception handling module, a data integration module and a signal receiving and sending module, and firstly, vital sign data of the children are acquired in real time through the data monitoring module; the data transmission module transmits the vital sign data acquired in real time to the data judgment module; then, the data judgment module is used for sequentially judging the vital sign data transmitted by the data transmission module and obtaining a vital sign data judgment result; when index data exceeding a preset normal range appears in the vital sign data judgment result through the abnormity processing module, a rescue signal is immediately output through the signal transceiving module; when the index data exceeding a preset normal range does not appear in the vital sign data judgment result, performing data integration on the vital sign data through a data integration module to obtain health index monitoring information; and then the rescue signal and the health index monitoring information are transmitted through the signal transceiver module.

The beneficial effects of the above technical scheme are that: the purpose of monitoring the health index of the child is achieved through the technical scheme, so that parents can not only communicate with the child through the child intelligent watch, but also acquire the health index monitoring information of the child in real time, so that a safer state can be provided for the child, and the requirement of the child on the safety sense is improved; moreover, the data monitoring module acquires vital sign data of the children in real time, so that the health index of the children can be monitored at any time, and the abnormal health condition of the children can be found in time; the data judgment module is used for sequentially judging the vital sign data, so that the vital sign data can be displayed in the judgment result of the vital sign data as long as one index is abnormal in the obtained vital sign data, the judgment result of the vital sign data is more accurate, and omission in the judgment of the vital sign data index can be avoided by sequentially judging; the abnormal processing module immediately sends out rescue reminders according to the grade rules, in different grade rules, parents receive different rescue reminders on mobile phones provided with APPs matched with the intelligent watches of the children, and the parents can judge the abnormal degree of the health condition of the children according to the received rescue reminders, so that confusion is avoided; the data integration module carries out data integration to vital sign data, can make the head of a family need not carry out subjective vital sign data judgement, just can obtain health index, avoids subjective factor to influence the judged result, in addition, can also adjust partial vital sign data index normal range according to children's self health through APP for also can be accurate to the children of special physique carry out health index monitoring.

In an embodiment provided by the present invention, the data monitoring module includes a millimeter wave radar sensor, and the millimeter wave radar sensor obtains the vital sign data of the child through electromagnetic waves.

The principle of the technical scheme is as follows: in the technical scheme, the data monitoring module emits electromagnetic waves through the millimeter wave radar sensor to acquire the vital sign data of the child.

The beneficial effects of the above technical scheme are that: carry out data monitoring module through above-mentioned technical scheme and acquire children's vital sign data in real time, and carry on the millimeter wave radar sensor and need not reserve the electromagnetic wave transmission mouth in children's intelligence wrist-watch, make children's intelligence wrist-watch more pleasing to the eye, reduce children's intelligence wrist-watch's the manufacturing degree of difficulty and manufacturing cost, and the electromagnetic wave can pierce through the insulator, can see through accurate vital sign data that obtain children of obstacles such as children's intelligence wrist-watch shell and clothes, and for laser, infrared, the ultrasonic wave is disturbed for a short time, it is easy-to-use and practical more, be convenient for quick marketing.

In one embodiment of the present invention, the exception handling module includes: the system comprises a text unit, a voice unit, a positioning unit and an operation unit;

the text unit is used for generating a short message text;

the positioning unit is used for acquiring the position information of the child;

the voice unit is used for calling an emergency contact or calling rescue;

the operation unit is used for immediately sending rescue reminding according to a grade rule, and when the value of the vital sign data exceeding a preset normal range belongs to a low level in the grade rule, a short message text is generated through the text unit, the position information of the child is acquired through the positioning unit, and then the short message is sent to a mobile phone provided with an APP matched with the smart watch of the child and the positioning is carried out; when the value of the vital sign data exceeding the preset normal range belongs to the middle level in the level rule, directly calling the emergency contact through the voice unit; when the value that vital sign data surpass predetermined normal scope belongs to the senior in the grade rule, through voice unit with text unit sends medical safety department call request to installing on the cell-phone with supporting APP of children's smart watch, passes through after confirming on the cell-phone by the head of a family the voice unit calls the rescue to near medical safety department.

The principle of the technical scheme is as follows: in the technical scheme, the abnormity processing module judges whether the value of the vital sign data exceeding the preset normal range belongs to low-grade, middle-grade or high-grade in the grade rule for rescue reminding through the text unit, the voice unit, the positioning unit and the operation unit when the vital sign data exceeding the preset normal range exists in the vital sign data judgment result.

The beneficial effects of the above technical scheme are that: through the technical scheme, the abnormal processing module can immediately send out rescue reminding according to the grade rule when the vital sign data in the judgment result of the vital sign data exceeds the preset normal range, and can send out different rescue reminding according to the grade of the value of the vital sign data exceeding the normal range of the corresponding vital sign data index and the grade in the grade rule, so that the children can quickly remind once abnormal vital sign data occurs, thereby quickly obtaining rescue, and when the value of the vital sign data exceeding the preset normal range belongs to the high grade in the grade rule, a medical safety department calling request is sent to a mobile phone provided with an APP matched with a child intelligent watch through the voice unit and the text unit, and a parent calls for the nearby medical safety department for rescue through the voice unit after confirming on the mobile phone, the phenomenon of misjudgment generated when the judgment is carried out according to the grade rule is avoided, so that the medical safety department can rescue before, and medical resources are wasted.

In an embodiment provided by the invention, the data integration module integrates the vital sign data, the normal range corresponding to the vital sign indexes and the health index of the vital sign data in the normal range together to form health index monitoring information.

The principle of the technical scheme is as follows: in the technical scheme, when the data integration module performs data integration on the vital sign data, the normal range corresponding to the vital sign indexes and the health index of the vital sign data to the normal range are integrated together.

The beneficial effects of the above technical scheme are that: through the technical scheme, the data integration module integrates the vital sign data, the normal range corresponding to the vital sign indexes and the health index of the vital sign data to the normal range together to form health index monitoring information, so that parents can obtain the vital sign data of the children and the health index of the vital sign data to the normal range through the APP connected with the intelligent child watch and also give the normal range corresponding to the vital sign indexes, so that the parents can visually obtain the health index monitoring data of the children and can know the positions of the current vital sign data of the children in the normal range of the corresponding vital sign data indexes, the scheme does not need the parents to subjectively judge the vital sign data, and the judgment result is prevented from being influenced by subjective factors; in addition, the normal range of partial vital sign data indexes can be adjusted through the APP according to the detection result of the child, so that the health index monitoring can be accurately performed on the child with the special constitution.

In one embodiment of the present invention, the data transmission module includes: the device comprises a temporary storage unit, a matching unit, a scheduling unit and a transmitting unit;

the temporary storage unit is used for temporarily caching the acquired vital sign data of the child according to the set real-time acquisition time interval and the acquisition time;

the matching unit is used for matching the temporarily cached vital sign data with the vital sign indexes to obtain a vital sign data packet;

the scheduling unit is used for scheduling according to the flow control information of each channel in the transmission channels;

the transmitting unit is used for transmitting and transmitting the vital sign data packets after scheduling;

wherein, when the transmitting unit transmits and transmits the scheduled vital sign data packet, the transmitting unit also estimates the energy required by transmission according to the following formula:

in the above formula, Q represents the energy of the data transmission loss, F represents the frequency of the transmission, D represents the distance of the transmission, W represents the transmission medium parameter, where the air corresponds to the medium parameter 32.4, T represents the energy required for the estimated transmission, E_iThe energy required by the ith vital sign data packet transmission is represented, N represents the number of vital sign data indexes, and D represents the retransmission rate during transmission;

and when the transmitting unit transmits and transmits, the scheduled vital sign data packet is transmitted and transmitted according to the estimated energy T required for transmission.

The principle of the technical scheme is as follows: in the above technical solution, the data transmission module includes: the device comprises a temporary storage unit, a matching unit, a scheduling unit and a transmitting unit; the temporary storage unit is used for temporarily caching the acquired vital sign data of the child according to the set real-time acquisition time interval and the acquisition time; the matching unit is used for matching the temporarily cached vital sign data with the vital sign indexes to obtain a vital sign data packet; the scheduling unit is used for scheduling according to the flow control information of each channel in the transmission channels; the transmitting unit is used for transmitting and transmitting the vital sign data packets after scheduling; wherein, when the transmitting unit transmits and transmits the scheduled vital sign data packet, the transmitting unit further transmits and transmits the scheduled vital sign data packet by a formula:

and predicting energy required by transmission and transmission, and transmitting the scheduled vital sign data packet to be transmitted according to the predicted energy T required by transmission when the transmitting unit transmits and transmits the vital sign data packet.

The beneficial effects of the above technical scheme are that: according to the technical scheme, the temporary storage unit can distinguish the child vital sign data acquired in real time at two adjacent times, so that the child vital sign data acquired in real time at two adjacent times are prevented from being mixed, the condition that the vital sign data is not completely transmitted is avoided, and the health monitoring of the child is ensured to be accurate; moreover, the transmission channels in the scheme are multi-channel, so that the transmission rate can be increased, parents can obtain real-time vital sign data information of children in time, the transmission channels can be prevented from being blocked by scheduling according to the flow control information of each channel in the transmission channels, vital sign data packets are prevented from being lost in the transmission process, and the data transmission speed and the data transmission integrity are improved; in addition, the phenomenon that the energy required by the estimated transmission is transmitted in a free space and the phenomenon that the signal is bad to cause retransmission is also considered, so that the estimated energy required by the transmission can ensure that the vital sign data of the child obtained in real time is transmitted and transmitted, and the phenomenon of data loss is avoided.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (10)

1. A health index monitoring method of a child smart watch is characterized by comprising the following steps:

acquiring vital sign data of children in real time;

transmitting the vital sign data to a data processing center;

the data processing center sequentially judges the vital sign data to obtain a vital sign data judgment result;

when the vital sign data in the vital sign data judgment result exceed a preset normal range, immediately sending out a rescue prompt according to a grade rule;

when no vital sign data exceeding a preset normal range exists in the vital sign data judgment result, performing data integration on the vital sign data to obtain health index monitoring information;

and sending the health index monitoring information to a mobile phone provided with an APP matched with the intelligent watch of the child.

2. The children's smart watch health index monitoring method according to claim 1, wherein the acquiring of the vital sign data of the children in real time is to mount a millimeter wave radar sensor in the children's smart watch, and when the children's smart watch is worn on the wrist of the children, the millimeter wave radar sensor acquires the vital sign data of the children through electromagnetic waves.

3. The children's smart watch health index monitoring method according to claim 1, wherein when a rescue alert is issued immediately according to a ranking rule, the rescue alert comprises: sending a short message and positioning to a mobile phone provided with an APP matched with the intelligent watch of the child, directly calling an emergency contact and calling a nearby medical safety department for rescue;

the ranking rules include:

when the value of the vital sign data exceeding the preset normal range belongs to a low level in the level rule, sending a short message and positioning to a mobile phone provided with an APP matched with the child smart watch;

when the value of the vital sign data exceeding the preset normal range belongs to the middle level in the level rule, directly calling the emergency contact;

when the value of the vital sign data exceeding the preset normal range belongs to high level in the grade rule, a medical safety department calling request is sent to the mobile phone provided with the APP matched with the child smart watch, and the parent calls for rescue after confirming on the mobile phone to the nearby medical safety department.

4. The children's smart watch health index monitoring method of claim 1, wherein the health index monitoring information includes: the health index of the vital sign data, the normal range corresponding to the vital sign indexes and the normal range of the vital sign data.

5. The children's smart watch health index monitoring method of claim 1, wherein transmitting the vital sign data to a data processing center comprises:

temporarily caching the vital sign data of the child according to the set real-time acquisition time interval according to the acquisition time;

matching the temporarily cached vital sign data with the vital sign indexes, wherein the matched vital sign indexes and the vital sign data jointly form a vital sign data packet;

placing the vital sign data packets at the transmitting and transmitting positions of a transmission channel according to channels, and scheduling according to flow control information of each channel in the transmission channel;

transmitting and transmitting the vital sign data packet after scheduling to a data processing center;

when the vital sign data packet after scheduling is transmitted to the data processing center, the energy required by transmission is estimated through the following formula:

in the above formula, Q represents the energy of the data transmission loss, F represents the frequency of the transmission, D represents the distance of the transmission, W represents the transmission medium parameter, where the air corresponds to the medium parameter 32.4, T represents the energy required for the estimated transmission, E_iRepresents the energy required by the transmission of the ith vital sign data packet, and N representsThe number of vital sign data indicators, D representing the retransmission rate at the time of transmission;

and then when transmitting and transmitting to the data processing center, transmitting and transmitting the vital sign data packet after scheduling to the data processing center according to the estimated energy T required by transmission.

6. A system for monitoring health indexes of a child smart watch, comprising: the system comprises a data monitoring module, a data transmission module, a data judgment module, an exception handling module, a data integration module and a signal transceiving module;

the data monitoring module is used for acquiring vital sign data of the children in real time;

the data transmission module is used for transmitting the vital sign data acquired in real time to the data judgment module;

the data judgment module is used for sequentially judging the vital sign data transmitted by the data transmission module and obtaining a vital sign data judgment result;

the abnormity processing module is used for immediately outputting a rescue signal through the signal transceiver module when index data exceeding a preset normal range appears in the vital sign data judgment result;

the data integration module is used for integrating the vital sign data to obtain health index monitoring information when the index data exceeding a preset normal range does not appear in the vital sign data judgment result;

the signal receiving and transmitting module is used for transmitting the rescue signal and the health index monitoring information.

7. The system for children's smart watch to monitor health index according to claim 1, wherein the data monitoring module comprises a millimeter wave radar sensor, and the millimeter wave radar sensor acquires vital sign data of the children through electromagnetic waves.

8. The system of child smartwatch monitoring health index of claim 1, wherein the exception handling module includes: the system comprises a text unit, a voice unit, a positioning unit and an operation unit;

the text unit is used for generating a short message text;

the positioning unit is used for acquiring the position information of the child;

the voice unit is used for calling an emergency contact or calling a nearby medical safety department;

the operation unit is used for immediately sending rescue reminding according to a grade rule, and when the value of the vital sign data exceeding a preset normal range belongs to a low level in the grade rule, a short message text is generated through the text unit, the position information of the child is acquired through the positioning unit, and then the short message is sent to a mobile phone provided with an APP matched with the smart watch of the child and the positioning is carried out; when the value of the vital sign data exceeding the preset normal range belongs to the middle level in the level rule, directly calling the emergency contact through the voice unit; when the value that vital sign data surpass predetermined normal scope belongs to the senior in the grade rule, through voice unit with text unit sends medical safety department call request to installing on the cell-phone with supporting APP of children's smart watch, passes through after confirming on the cell-phone by the head of a family the voice unit calls the rescue to near medical safety department.

9. The system for monitoring health indexes of a child smart watch according to claim 1, wherein the data integration module is configured to integrate the vital sign data, a normal range corresponding to the vital sign indicator, and the health indexes of the vital sign data with respect to the normal range to form health index monitoring information.

10. The system for children's smart watch to monitor health index of claim 6, wherein the data transmission module comprises: the device comprises a temporary storage unit, a matching unit, a scheduling unit and a transmitting unit;

the temporary storage unit is used for temporarily caching the vital sign data of the child according to the set real-time acquisition time interval and the acquisition time;

the matching unit is used for matching the temporarily cached vital sign data with the vital sign indexes to obtain a vital sign data packet;

the scheduling unit is used for scheduling according to the flow control information of each channel in the transmission channels;

the transmitting unit is used for transmitting and transmitting the vital sign data packets after scheduling;

wherein, when the transmitting unit transmits and transmits the scheduled vital sign data packet, the transmitting unit also estimates the energy required by transmission according to the following formula:

in the above formula, Q represents the energy of the data transmission loss, F represents the frequency of the transmission, D represents the distance of the transmission, W represents the transmission medium parameter, where the air corresponds to the medium parameter 32.4, T represents the energy required for the estimated transmission, E_iThe energy required by the ith vital sign data packet transmission is represented, N represents the number of vital sign data indexes, and D represents the retransmission rate during transmission;

and when the transmitting unit transmits and transmits, the scheduled vital sign data packet is transmitted and transmitted according to the estimated energy T required for transmission.

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