CN102968563B - A kind of infant formula Feeding volume automatic monitoring surveys administrating system - Google Patents

Abstract

The invention discloses an automatic monitoring and management system for infant formula milk intake. The system includes a base and a local intelligent information processing terminal. The base contains a weight measurement module and an information sending module for measuring the intake of infant formula milk and Time point and send the data to the local intelligent information processing terminal, the local intelligent information processing terminal analyzes and processes the received data by running the dedicated client software; this system can help ordinary parents who lack professional knowledge and tools to record the baby’s formula milk intake and growth and development, to understand more comprehensively the developmental status of their children and some deficiencies that may exist in the current parenting methods, and assist parents in managing infant parenting methods, and adjust parenting methods according to specific conditions, so that infants and young children grow healthy.

Description

An automatic monitoring and management system for infant formula milk intake

technical field

The invention relates to an information management system, in particular to a baby health management system related to formula milk intake.

Background technique

At present, infants and young children in China are mainly fed formula milk in addition to breastfeeding. The intake of formula milk directly determines the daily intake of calories, protein, fat, carbohydrates, minerals, vitamins and other nutritional elements for infants and young children. Infants and young children have relatively small reserves of nutritional elements, and their adaptability is also poorer than that of adults. Once the intake of certain nutritional elements is insufficient or the digestive function is disordered, the development process can be significantly affected in a short period of time. Therefore, the intake of formula milk The intake amount and intake rhythm will have a direct impact on the growth and development of infants and young children.

Infants of different ages have different needs for formula milk intake, and different brands of milk powder have different effects on the growth and development of children due to the different nutrients and trace elements contained in them. Therefore, how to The choice of formula and its intake is also a very important job. As new parents, the parents of the child are still inexperienced in grasping the daily milk intake and the timing of breastfeeding, and need the guidance and help of professionals. When professionals conduct the above guidance, they often need to fully understand the child's diet, sleep, growth and development in the past for a certain period of time, in order to fully understand the child's individual differences and current situation, and then give appropriate advice.

When recording the child's daily intake of formula milk, parents usually rely on the scale on the feeding bottle to measure the child's milk intake, but due to the irregular shape of the feeding bottle and the lack of product quality inspection, the scale of some feeding It is not accurate enough, which will have a certain impact on parents' accurate grasp of their children's formula milk intake. In addition, due to the constraints of various practical factors in daily life, it is difficult for parents to ensure that the child's milk intake can be recorded in a timely and correct manner every time, so it is difficult to provide a complete historical record of formula milk intake.

In addition, the average growth and development curve of infants is a medical tool for infant growth and development management that is drawn after detecting the development process of many normal infants and reflects the average growth and development trend of children of the same month age. Parents can record the key signs of their children, such as: length, weight, BMI, head circumference, chest circumference and other indicators, draw their child's growth and development curve, and then understand their child's growth and development status by comparing it with the average growth and development curve. From the perspective of growth and development curve, the adjustment of parents' use of formula milk will directly affect the direction of growth and development curve. As a parent, it is very necessary to scientifically manage the intake and rhythm of the child's formula milk to adapt to the child's growth and development stage and individual characteristics. A decision-aid tool developed by the average parent to recommend formula feeding based on growth curves.

To sum up, young parents are in urgent need of cheap and easy-to-use information tools that can automatically record and analyze the intake of infant formula milk to help them record and manage formula milk use and assist them in communicating with professionals , so as to achieve the purpose of protecting and promoting the healthy growth of children's body and mind and improving the quality of the population.

Contents of the invention

In view of this, the object of the present invention is to provide a management system that can automatically collect and record the formula milk intake and time point information of an infant, allow parents to input the baby's growth and development data, and perform intelligent analysis based on the above data. System, which can provide parents with appropriate suggestions and tips on professional child care knowledge such as infant formula milk use, sleep management, and exercise management, and assist parents in managing infant rearing methods.

To achieve the above object, the present invention provides the following technical solutions:

An automatic monitoring and management system for infant formula milk intake, including a base and a local intelligent information processing terminal; the base contains a weight measurement module and an information sending module, which are used to measure infant formula milk intake and time points and send the data to the local intelligence Information processing terminal: The local intelligent information processing terminal analyzes and processes the received data by running the dedicated client software, and assists the user in managing the way of raising the baby.

Further, the dedicated client software includes an information storage subsystem, a data analysis subsystem, a user interaction subsystem and a device connection subsystem; the information storage subsystem is used to store the infant formula milk intake automatic monitoring and management data and information in the system; the equipment connection subsystem is used to establish a communication connection between the base and the local intelligent information processing terminal, the subsystem receives the data and information sent by the base and stores them in the information storage subsystem, In addition, the equipment connection subsystem sends control instructions to the base according to the requirements of the infant formula milk intake automatic monitoring and management system; the data analysis subsystem is used to analyze and process the data in the information storage subsystem; According to the information in the information storage subsystem and the analysis results of the data analysis subsystem, the user interaction subsystem sends personalized suggestions to the user and assists the user in managing the way of raising the baby.

Further, the information stored by the information storage subsystem includes: account management information; infant personal information and basic health data; milk intake and time point data of infants each time they consume formula milk; infant daily breast milk intake; The actual growth and development index of the baby; the average growth and development index of the baby in the region; the name of the formula milk powder currently used by the baby and the start time; the name of each milk powder variety and its nutritional composition and trace element content; the preset daily trace element intake reference for the baby Value; outpatient appointment resource information.

Further, the data analysis subsystem includes a milk intake analysis module, which is used to: analyze the change of a single milk intake and the feeding interval of a baby within a certain period of time according to the age of the baby, and analyze The results are stored in the information storage subsystem and sent to the user interaction subsystem; according to the age of the baby, the 24-hour milk intake changes within a certain period of time and the feeding interval are analyzed, and the analysis results are stored in the information storage subsystem And send it to the user interaction subsystem; analyze the baby's nighttime milk intake time and intake within a certain period of time according to the age of the baby, store the analysis results in the information storage subsystem and send it to the user interaction subsystem.

Further, the data analysis subsystem includes a growth and development index analysis module, which is used to: monitor the difference between the baby's actual growth and development index and the regional average baby growth and development index according to the baby's age in months, and store the monitoring results in The information is stored in the subsystem and sent to the user interaction subsystem; based on the baby's age in months, based on the baby's actual growth and development indicators, the regional average infant growth and development indicators, the baby's recent formula milk intake and formula milk intake habit suggestion compliance , to predict the growth and development trend of the baby in the next stage, store the prediction result in the information storage subsystem and send it to the user interaction subsystem.

Further, the data analysis subsystem includes a trace element analysis module, which is used to: calculate the baby’s daily intake of trace elements according to the information stored in the information storage subsystem, store the calculation results in the information storage subsystem and send them to User interaction subsystem; calculate the difference between the milk powder currently used by the baby and other milk powder varieties in terms of nutritional components and trace element content according to the information stored in the information storage subsystem, store the calculation results in the information storage subsystem and send them to the user interaction subsystem system; according to the age of the baby, monitor the difference between the baby's daily trace element intake and the reference value of the baby's daily trace element intake stored in the information storage subsystem, and store the monitoring results in the information storage subsystem system and send it to the user interaction subsystem; calculate the difference in formula milk intake of the baby before and after changing the type of milk powder according to the information stored in the information storage subsystem, store the calculation result in the information storage subsystem and send it to the user interaction subsystem.

Further, the user interaction subsystem provides the user with the following information based on the information in the information storage subsystem and the analysis and monitoring results of the data analysis subsystem: 1) summary and suggestions about formula milk intake habits; 2) information about night milk Suggestions on withdrawal skills and the use of related auxiliary products; 3) current infant growth and development indicators and the differences between the regional average infant growth and development indicators; 4) predictions about the possibility of infant growth and development trends in the next stage;5 )Summary and suggestions on daily nutrient composition and trace element intake habits; 6) Differences in nutrient composition and trace element content between the milk powder currently used by infants and other milk powder varieties; 7) Monitoring of infants' preference for milk powder varieties Results; 8) Suggestions on complementary food intake habits; 9) Suggestions on infant exercise management; 10) Suggestions on consultation with professional child care professionals and appointments in outpatient clinics; 11) Suggestions on baby food, medicines and infant rearing aids Purchase suggestions; 12) Summary of the user's compliance with the above suggestions.

Further, the base also contains a temperature measurement and temperature control module, the temperature measurement and temperature control module is used to measure the temperature of infant formula milk or heat the formula milk according to the set temperature value, the measured temperature data and The time point data is sent to the local intelligent information processing terminal through the information sending module, and the equipment connection subsystem sends a heating instruction to the base in advance according to the feeding time point suggestion of the user interaction subsystem, and the base controls the temperature control module to heat the formula milk .

Further, the user interaction subsystem automatically generates a timed reminder and sends a reminder to the user at the set time to guide the user to perform childcare operations, child care consultation activities or shopping activities in due course.

The beneficial effect of adopting the present invention is that the system can automatically collect and record information on the formula milk intake and time point information of a certain infant, avoiding the uncertainty of manual operation, and at the same time, allowing parents to input the infant's growth and development Data, and intelligent analysis based on the above data, to obtain the growth and development of infants and young children, to provide parents with appropriate suggestions and tips on the use of infant formula milk, sleep management, and exercise management, and to assist parents in managing the way their babies are raised In this way, with the help of this system, even people without much parenting experience can well grasp the growth and development of infants and young children, and can adjust parenting methods according to specific conditions, so that infants and young children can grow up healthily.

Description of drawings

In order to make the purpose, technical scheme and beneficial effect of the present invention clearer, the present invention provides the following drawings for illustration:

Fig. 1 is a structural schematic diagram of an automatic monitoring and management system for infant formula milk intake according to the present invention.

Detailed ways

Fig. 1 is a schematic structural diagram of an automatic monitoring and management system for infant formula milk intake. The automatic monitoring and management system for infant formula milk intake includes a base and a local intelligent information processing terminal, wherein the base contains a weight measurement module and an information sending module. The local intelligent information processing terminal can use personal terminal devices such as mobile phones, personal desktop computers or tablet computers according to personal conditions. The intelligent information processing terminal analyzes and processes the received data by running special client software, and assists users in managing infant rearing methods. The special client software includes an information storage subsystem, a data analysis subsystem, and a device connection subsystem and user interaction subsystem.

The workflow of a preferred embodiment of the present invention will be described in detail below with reference to FIG. 1 .

First of all, every time the baby drinks formula milk, the base will weigh the feeding bottle before and after feeding, and send the obtained weight data and time point data to the local intelligent information processing terminal. Specifically: the first step, when the user When feeding the baby for the first time, first open the special client software on the local intelligent information terminal, and start the base, the base can be started either manually or through the device connection subsystem in the special client software to send instruction information to it. The start-up method is completed. When the system is running normally, a communication connection is established between the base and the local intelligent information processing terminal. At the same time, the local intelligent information processing terminal notifies the user through the dedicated client software: "The system is ready", here the local intelligent information processing terminal The communication connection between the processing terminal and the base can be wired or wireless according to the specific situation of the user; in the second step, the feeding bottle containing formula milk is placed on the base before feeding, and the base transmits the weight and time point data To the local intelligent information processing terminal, weigh the weight of the feeding bottle again after feeding, the obtained weight and time point data are transmitted to the local intelligent information processing terminal, and the local intelligent information processing terminal receives the data through the device connection subsystem of the dedicated client software The information is stored in the information storage subsystem; in the third step, the local intelligent information processing terminal calculates the difference in weight measured before and after the feeding event through the data analysis subsystem in the dedicated client software, and then obtains the milk volume of this feeding , and feed this information back to the user through the dedicated client software, the user can set the type and formula ratio (water:milk powder) of the milk powder used for this value through the dedicated client software, and can preset some milk powder through the dedicated client software The name of the variety is for quick selection, or a default value is preset to simplify the operation. The above milk volume information and data are stored in the information storage subsystem of the dedicated client software.

Secondly, based on the obtained historical data of infant formula milk intake and other data information, the user can grasp the growth and development of the baby through the local intelligent information processing terminal, and adjust the parenting method according to the specific situation. Specifically:

On the one hand, the user can browse historical records through the dedicated client software in the local intelligent information processing terminal. The historical records include all or part of the feeding records, such as a certain feeding time and feeding amount, and can be sorted by time, variety name and other relevant parameters to query and sort the data, which are all stored in the information storage subsystem.

On the other hand, the data analysis subsystem in the dedicated client software can analyze and monitor the milk intake data stored in the information storage subsystem and various data input by the user, and also combine the preset reference The data is intelligently analyzed, and the above monitoring and analysis results are sent to the user interaction subsystem. The various data entered by the user and the preset reference data include but are not limited to: baby personal information and basic health data, baby's daily breast milk intake The baby's actual growth and development indicators, the formula milk powder currently used by the baby and the time when it was started, the name of each milk powder variety and its nutrient composition and trace element content, the reference value of the baby's daily trace element intake, outpatient appointment resource information, regional average Infant growth and development indicators, specifically: the data analysis subsystem includes a milk intake analysis module, which can: analyze the change of a single milk intake of a baby within a certain period of time and the feeding Interval, for example, within a certain period of time, whether the baby’s single milk intake is stable, whether there is an abnormal increase or decrease, etc., the data analysis subsystem will store the analysis results in the information storage subsystem and send it to the user interaction subsystem System; according to the age of the baby, analyze the change of milk intake within a certain period of time and the feeding interval, store the analysis results in the information storage subsystem and send it to the user interaction subsystem; according to the age of the baby Analyze the timing and amount of milk intake at night during a certain period of time, store the analysis results in the information storage subsystem and send them to the user interaction subsystem.

The data analysis subsystem also includes a growth and development index analysis module, which can: monitor the difference between the baby's actual growth and development index and the regional average baby growth and development index according to the baby's age in months, and store the monitoring results in the information storage subsystem And send it to the user interaction subsystem; according to the baby's age, based on the baby's actual growth and development indicators, the regional average baby growth and development indicators, the baby's recent formula milk intake and formula milk intake habit suggestion compliance, predict the baby's next For the growth and development trend of the first stage, the predicted results are stored in the information storage subsystem and sent to the user interaction subsystem.

The data analysis subsystem also includes a trace element analysis module, which can: calculate the baby’s daily trace element intake based on the information stored in the information storage subsystem, that is, daily trace element intake = daily formula milk intake × Trace element content ratio, store the calculation result in the information storage subsystem and send it to the user interaction subsystem; calculate the nutritional composition and trace element content of the milk powder currently used by the baby and other milk powder varieties based on the information stored in the information storage subsystem difference, store the calculation result in the information storage subsystem and send it to the user interaction subsystem; monitor the baby’s daily trace element intake and the baby’s daily trace element intake stored in the information storage subsystem according to the baby’s age. The difference between the intake reference values is stored in the information storage subsystem and sent to the user interaction subsystem; according to the information stored in the information storage The calculation results are stored in the information storage subsystem and sent to the user interaction subsystem.

On the other hand, the user interaction subsystem provides suggestions to the user based on the information in the information storage subsystem and the analysis and monitoring results of the data analysis subsystem, including: 1) summary and advice on formula milk intake habits; Suggestions on night-time milk withdrawal skills and related auxiliary products, such as the use of pacifiers, so as to assist users in scientifically managing the baby's night-time feeding and night-time milk withdrawal, improve the baby's night sleep, and promote its healthy growth; 3) The current infant growth and development indicators and the differences between the regional average infant growth and development indicators, so that users can understand the current infant growth and development conditions, and take measures to improve the infant growth and development indicators, so that they can reach the regional average infant growth and development indicators 4) Prediction on the possibility of the baby’s growth and development trend in the next stage; 5) Summary and suggestions on the daily nutritional ingredients and trace element intake habits, such as suggesting to users to reduce or increase the intake of certain trace elements 6) Differences in nutrient components and trace elements between the milk powder currently used by infants and other milk powder varieties; 7) The monitoring results of infants’ preferences for milk powder varieties; 8) Suggestions on complementary food intake habits; 9) About Suggestions on infant exercise management; 10) Suggestions on consultation with professional child care professionals and outpatient appointments; 11) Suggestions on purchasing baby food, medicines, and baby feeding aids; 12) Summary of users' compliance with the above recommendations.

In addition, the user interaction subsystem can also automatically generate timed reminders based on the above suggestions and send reminders to users at the set time to guide users to perform childcare operations, child care consultation activities or shopping activities in due course.

As a further improvement of this embodiment, a temperature measurement and temperature control module can also be added to the base, and the temperature measurement and temperature control module is used to measure the temperature of the baby's drinking milk or heat the drinking milk according to the set temperature value, The measured temperature data and time point data are sent to the local intelligent information processing terminal through the information sending module. The device connection subsystem sends a heating instruction to the base in advance according to the feeding time point suggestion of the user interaction subsystem, and the base controls the control unit. The warming module heats the formula milk.

Finally, it should be noted that the above preferred embodiments are only used to illustrate the technical solutions of the present invention and not to limit them. Although the present invention has been described in detail through the above preferred embodiments, those skilled in the art should understand that it can be described in terms of form and Various changes may be made in the details without departing from the scope of the invention defined by the claims.

Claims (8)

1. infant formula Feeding volume automatic monitoring surveys an administrating system, it is characterized in that: comprise base and the local intelligent information processing terminal; Described base contains weight measurement module and information sending module, for measuring infant formula Feeding volume and time point and sending the data to the local intelligent information processing terminal; The described local intelligent information processing terminal comes data analysis to receiving and process by running private client software, and assisted user manages baby's rearing; Described private client software comprises information storage subsystem, data analytics subsystem, user interactions subsystem and equipment connection subsystem;

Described information storage subsystem surveys data in administrating system and information for storing described infant formula Feeding volume automatic monitoring;

Described equipment connection subsystem is used for establishing a communications link between base and the local intelligent information processing terminal, this subsystem receives the data sent of base and information and is stored to information storage subsystem, in addition, described equipment connection subsystem surveys the demand of administrating system to base sending controling instruction according to described infant formula Feeding volume automatic monitoring;

Described data analytics subsystem is used for the data analysis process in information storage subsystem;

Described user interactions subsystem sends personalized recommendations and assisted user manages baby's rearing according to the analysis result of the information in information storage subsystem and data analytics subsystem to user.

2. infant formula Feeding volume automatic monitoring according to claim 1 surveys administrating system, it is characterized in that: the information that described information storage subsystem stores comprises:

Account management information;

Baby's personal information and basic health data;

Absorption milk amount when baby takes in formulas at every turn and time point data;

24 hours formulas intakes of baby every day and night time formula Feeding volume;

Baby's day breast milk intake;

The actual Growth and development index of baby;

The average infants growth and development index in area;

The formula milk title of the current use of baby and enabling time;

Each milk powder variety name and nutritional labeling thereof and micronutrient levels;

Preset baby's trace element intake every day reference value;

Outpatient clinic appointment resource information.

3. infant formula Feeding volume automatic monitoring according to claim 1 surveys administrating system, and it is characterized in that: described data analytics subsystem comprises Feeding volume analysis module, this module is used for:

According to the situation of change of its single Feeding volume within certain period of the monthly age Analyzing on Size of baby and breast-feeding room every, analysis result is stored in information storage subsystem and is sent to user interactions subsystem;

According to the monthly age of baby analyze the situation of change of its 24 hours Feeding volume within certain period and breast-feeding room every, analysis result is stored in information storage subsystem and is sent to user interactions subsystem;

Analyze its milk at night within certain period according to the monthly age of baby and take in time point and intake, analysis result is stored in information storage subsystem and is sent to user interactions subsystem.

4. infant formula Feeding volume automatic monitoring according to claim 1 surveys administrating system, and it is characterized in that: described data analytics subsystem comprises Growth and development index analysis module, this module is used for:

According to the monthly age of baby, the difference between the average infants growth and development index of actual Growth and development index and area of monitoring baby, is stored in information storage subsystem by monitoring result and is sent to user interactions subsystem;

According to the monthly age of baby, situation is taken in and formulas takes in custom suggestion compliance based on the formulas that the actual Growth and development index of baby, the average infants growth and development index in area, baby are recent, the Growth trend of prediction baby's next stage, will predict the outcome and be stored in information storage subsystem and be sent to user interactions subsystem.

5. infant formula Feeding volume automatic monitoring according to claim 1 surveys administrating system, and it is characterized in that: described data analytics subsystem comprises trace element analysis module, this module is used for:

According to trace element intake every day of the information calculating baby that information storage subsystem stores, result of calculation is stored in information storage subsystem and is sent to user interactions subsystem;

Calculate milk powder kind and the difference of other milk powder kind in nutritional labeling and micronutrient levels of the current use of baby according to the information of information storage subsystem storage, result of calculation is stored in information storage subsystem and is sent to user interactions subsystem;

According to the monthly age of baby, monitoring baby every day trace element intake and information storage subsystem in difference between baby's trace element intake every day reference value of storing, monitoring result is stored in information storage subsystem and is sent to user interactions subsystem;

Calculate according to the information that information storage subsystem stores the difference that baby changes its formulas intake before and after milk powder kind, result of calculation is stored in information storage subsystem and is sent to user interactions subsystem.

6. infant formula Feeding volume automatic monitoring according to claim 1 surveys administrating system, it is characterized in that: described user interactions subsystem provides to user according to the analysis of the information in information storage subsystem and data analytics subsystem and monitoring result:

1) the situation summaries and recommendations of custom are taken in about formulas;

2) about the suggestion giving up the using method of skill and relevant assistant product of milk at night;

3) current infants growth and development index and and the average infants growth and development index in area between difference;

4) about the prediction of the Growth trend possibility of baby's next stage;

5) take in trace element the situation summaries and recommendations be accustomed to about nutritional labeling every day;

6) the current milk powder kind used of baby and the difference of other milk powder kind in nutritional labeling and micronutrient levels;

7) baby is for the monitoring result of the hobby of milk powder kind;

8) suggestion of custom is taken in about diatery supplement;

9) about the suggestion of baby sport buret reason;

10) about carrying out to professional children's health care personage seeking advice from and the suggestion of outpatient clinic appointment;

11) baby food, medicine and baby bring up the purchase suggestion of auxiliary implement product;

12) user sums up for the compliance situation of above-mentioned suggestion.

7. infant formula Feeding volume automatic monitoring as claimed in any of claims 1 to 6 surveys administrating system, it is characterized in that: described base contains thermometric, temperature control module, described thermometric, temperature control module is for measuring the temperature of formulated infant milk or heating formulas by the temperature value of setting, measured temperature data and time point data send to the local intelligent information processing terminal by information sending module, equipment connection subsystem is advised according to the initiation time point of user interactions subsystem, heating instructions is sent in advance to base, control described temperature control module by base to heat formulas.

8. infant formula Feeding volume automatic monitoring according to claim 7 surveys administrating system, it is characterized in that: described user interactions subsystem automatically generates timed reminding and sends prompting in the time of setting to user, guide user to perform child-bearing operation, children's health care consulting activity or shopping activity in good time.