CN111248904B

CN111248904B - Infant nursing device and method thereof

Info

Publication number: CN111248904B
Application number: CN202010057534.3A
Authority: CN
Inventors: 林俊雄; 赵进; 侯文锋
Original assignee: Foshan Muj Information Technology Co ltd
Current assignee: Foshan Muj Information Technology Co ltd
Priority date: 2020-01-19
Filing date: 2020-01-19
Publication date: 2022-12-02
Anticipated expiration: 2040-01-19
Also published as: CN111248904A

Abstract

The utility model provides an infant nurses device, includes and sways frame, intelligent cradle, bionical mattress and gathers and the discernment instrument, gathers and is equipped with sound identification module with the discernment instrument at least, and bionical mattress is located in the intelligent cradle, and on the frame was swayd in locating to intelligent cradle, intelligent cradle respectively with sway frame, bionical mattress, gather and be connected with the discernment instrument. The method for nursing the infant comprises the following steps: a. data information is collected and analyzed, and the physiological and behavior requirements of the infants can be identified through voice; b. the method comprises the following steps of selecting automatic pacifying of the infant and/or pushing a notice to a caregiver according to requirements, wherein the automatic pacifying of the infant is at least one of shaking of a cradle and simulation of a parent environment of a bionic mattress. The infant nursing device and the method thereof have the characteristics of timely learning the physiological and behavior requirements of infants, timely mastering the sleeping state and the waking time of the infants, promoting the infants to calm down as soon as possible and reducing the burden of nurses.

Description

Infant nursing device and method thereof

Technical Field

The invention relates to the field of intelligent infant nursing, in particular to an infant nursing device and method.

Background

The electroencephalogram signal is weak and low in frequency, the electroencephalogram signal has randomness and nonlinearity, and the heartbeat frequency and the breathing frequency generally have a linear relation.

The heartbeat frequency of the children is easy to change at any time by external influence. Generally, the smaller the age, the faster the frequency of heartbeats. The heartbeat frequency of a normal child is 140 beats per minute for a newborn; 120-140 times from 1 month to 1 year old; 100-120 times for 2-4 years old, 90-100 times for 5-10 years old, 80-90 times for 11-14 years old, and 70-80 times for over 14 years old. Under the conditions of fever, physical activity, crying or mental stress, the heartbeat frequency can be increased, the body temperature is usually raised by 1 ℃, the heartbeat frequency is accelerated by 10 to 15 times, and the heartbeat frequency is slowed down by 10 to 20 times during sleeping. For example, the heartbeat frequency is too fast for a long time, and the baby has more than 160 times per minute in the case of heart failure; infant >140 times; children >120 times, or with heartbeat frequencies that beat too slowly <60 beats/minute, or with irregular rhythms of beating, i.e., arrhythmia, should be treated in time.

Infants are different in age and breathing frequency. The smaller the age, the faster the breath. The breathing frequency of the neonate is generally 40 to 44 times per minute; 1 to 12 months and 30 times; 24 times between 1 and 3 years old; 22 times between 4 and 7 years old; 8 to 14 years old 20 times; 16-18 times between 15 and 18 years old. Fever, physical activity, emotional stress can accelerate respiration and slow sleep; the body temperature is raised by 1 ℃ and the respiration is increased by about 4 times/minute; newborn babies and babies of several months after birth are extremely unstable in breathing, and can have the phenomena of alternating deep and shallow breathing, irregular breathing rhythm, intermittence, pause and the like.

Modern scientific research has known that human brain can spontaneously generate own brain waves when working, and the brain waves can be detected by an electronic scanner, and the research proves that the brain waves are at least four different brain waves: (1) The frequency of the delta wave is 1-3 times per second, and the wave band can appear when a person is in infancy or has immature intelligence development and an adult is in extreme fatigue and lethargy. (2) Theta waves, with a frequency of 4 to 7 times per second, are extremely pronounced in adults who are willing to suffer from frustration and depression, as well as in psychiatric patients. However, this wave is a major component in electroencephalograms of teenagers (10-17 years of age). (3) Alpha waves, with a frequency of 8 to 13 times per second, with an average of around 10, are the basic rhythm of normal human brain waves, and with a fairly constant frequency if no external stimuli are applied. This rhythm is most apparent when a person is awake, quiet, and closed, and the alpha wave disappears immediately when the eyes are opened or subjected to other stimuli. Alpha waves can be detected at the occipital part of the skull. (4) Beta wave with frequency of 14-30 times per second appears when the spirit is tense and the mood is excited or excited, and when the person wakes up from sleep, the original slow wave rhythm can be immediately replaced by the rhythm. The beta wave is most pronounced in the frontal and temporal regions. Scientific research finds that four types of brain waves correspond to four different states presented by the brain in the process from sleeping to waking. When the infant is under stress, the brain produces beta waves; when the baby feels hazy, the brain waves become theta waves; when deep sleep is started, brain waves become delta waves; when the body of the infant relaxes, the brain is active and inspiration is continuous, the brain waves derive the alpha waves.

The following are some cases of infants crying: (1) the infants hungry or eat too much. Hunger is the most common cause of crying of newborns, the smaller the infants are, the more possible the cause of crying is because of hungry, and intestinal colic can occur if some infants cry uninterruptedly for a long time, abdominal distension, incapability of sleeping well at night and full face with red or ceaseless 'flatus' happen at the same time. And (2) the infant needs to change clothes or diapers. Infants and young children are generally sensitive to cry if the clothes are too tight or the diaper is soiled, and some infants and young children may cry immediately when the skin is irritated. (3) infants feel too hot or too cold. Some newborns are not used to the light feeling of the skin after changing the diaper or taking a bath, but are willing to be wrapped in warm and soft ground, and the infants also can be improved from the phenomenon of overheating or supercooling by adjusting the temperature of the quilt when sleeping. And (4) the infant wants to be held. Some infants want to have more than one hold for comfort, and a large child may feel comfortable as long as one sees someone in the room or hears a familiar sound, but newborns generally have to hold for satisfaction, and if an infant is already full, and also has changed the diaper, still crying may only want to be held. And (5) the infant wants to sleep. The infant may feel that the infant can sleep no matter what time and place the infant should sleep, but many parents can find that after the infant comes from home, the infant cry more time than usual, because the infant is stimulated too much, and the infant is difficult to calm because of excessive stimulation compared with the situation that many guests come from home, and the infant just born cannot receive too much stimulation at once, such as light, sound, being held by the person and the like. (6) the infants and children are uncomfortable. If the infant has just been fed, nothing is found to be uncomfortable, the infant may be uncomfortable with something fine, such as a piece of hair becoming tangled with the toes or being pricked by a label on the clothing, or the body temperature of an amount of the infant may be taken into account to see if it is sick, the infant may be more anxious or more pointedly if it is too hungry or restless after getting sick, and similarly if an infant who normally always cries suddenly becomes abnormally quiet, something that is wrong is not cried. (7) In addition to the reasons, the infant actually has a 'night crying lang', the infant can crying without obvious reasons at night, sometimes lasts for one or two months, is not uncomfortable and hungry, and is not easy to cry by … …, namely the infant simply wants to cry, the infant is often very headache for adults, the 'difficult' infant can be natural, and the only way for adults is to take care of the infant and actively placate the infant.

The sleeping time of an infant in one day is more than 12 hours, parents want to use the time to finish their own things, but when the infant wakes up, the parents cannot predict the time, the parents need to check or listen to crying of the infant from time to time, and the adult cannot put into their work completely; this is the case for children, who have a certain impact on their health. The system can achieve the following aims: identifying physiological and behavioral requirements of infants and correspondingly soothing, for example identifying crying when the infants are sleepy, playing music or shaking a cradle to sooth the infants to sleep, identifying the infants to be sleepy to be clear crying when the infants are sleepy, identifying the infants to be solitary and accompanying the infants to play through a toy so as to concentrate attention on the infants without crying, identifying the infants to be hungry, informing parents of feeding the infants, and informing parents of checking the infants when the infants continue to be crying and screaming, so that the safety problem caused by excessive crying is avoided; according to the characteristics of alpha, beta, delta and theta waves in the brain waves of the infants, the waking state and the sleeping state of the infants are judged, particularly the delta waves and the theta waves are applied when the infants are guided to sleep, and the alpha waves are applied when the infants are guided to concentrate on attention. For the crying and screaming of infants, parents who do not have infant-raising experience do not know the physiological and behavioral requirements, do not know how to sooth the infants to fall asleep or calm down, and often feel restraint unfamiliar.

Disclosure of Invention

In order to overcome the defects of the background art, the invention provides an infant nursing device and a method thereof.

In order to achieve the purpose, the invention adopts the technical scheme that: the utility model provides an infant nurses device, includes and sways frame, intelligent cradle, bionical mattress and gathers and the discernment instrument, gathers and is equipped with sound identification module with the discernment instrument at least, and bionical mattress is located in the intelligent cradle, and on the frame was swayd in locating to intelligent cradle, intelligent cradle respectively with sway frame, bionical mattress, gather and be connected with the discernment instrument.

Furthermore, the acquisition and identification instrument further comprises a brain wave measurement module.

Furthermore, the acquisition and identification instrument further comprises a heartbeat frequency measurement module and a respiratory frequency measurement module.

Further, the intelligent cradle is provided with a toy performance module.

Furthermore, the bionic mattress is provided with a fluctuation module.

A method of infant care in connection with an infant care device, comprising the steps of:

a. data information is collected and analyzed, and the physiological and behavior requirements of the infants can be identified through voice;

b. the method comprises the steps of selecting and automatically pacifying an infant and/or pushing a notice to a caregiver according to requirements, wherein the automatically pacifying infant is at least one of a shaking cradle and a bionic mattress simulating maternal environment.

Furthermore, electroencephalogram data of the infants are collected and analyzed in the step a, and physiological and behavior requirements of the infants are identified.

Furthermore, the heartbeat frequency and respiratory frequency data of the infant are collected and analyzed in the step a, and the physiological and behavior requirements of the infant are identified.

Further, the automatically pacifying the infant in the step b comprises automatically performing by a toy to attract the infant.

Further, automatically pacifying the infant in the step b comprises simulating to embrace the infant by the bionic mattress.

The invention has the beneficial effects that: the infant nursing device and the method thereof identify the physiological and behavioral requirements of the infant through the crying behavior characteristics of the infant and the heartbeat frequency, the respiratory frequency, the body temperature and the brain wave physiological characteristics of the infant; the application of the heartbeat frequency and the respiratory frequency improves the accuracy of voiceprint recognition and facilitates the measurement of the sleep stage state; measuring the brain waves of the sleep stages to master the waking time and the sleep state of the infant in time; the characteristics of sleep staging are utilized to guide the infants to concentrate attention or fall asleep into a calm state, and various soothing behaviors of the infants are promoted to calm down as soon as possible by combining the shaking amplitude and frequency of the cradle, simulating the maternal environment, the temperament, the vision and the combination thereof, and simulating the degree of tightness and temperature of the arms; automatic pacifying is combined with manual nursing, so that the burden of a caregiver is relieved without the need of doing things.

Drawings

Fig. 1 is a schematic view of an infant care apparatus.

Fig. 2 is a schematic view of a bionic mattress.

In the figure: 1-a swinging rack, 21-a cradle brain part, 22-a cradle lying part, 23-a cradle side rail, 24-a toy demonstration module, 25-a telescopic rod, 31-a mattress brain part, 33-a mattress middle part, 32-a mattress edge, 34-a hand-shaped air bag, 35-a raised air bag, 36-an electromagnet, 37-an inflation inlet and 4-a touch display screen.

Detailed Description

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

In addition, the technical features related to the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

As shown in fig. 1 and 2, an infant nursing device comprises a swing frame, an intelligent cradle, a bionic mattress and a collecting and identifying instrument, wherein the collecting and identifying instrument is provided with a sound identification module, the bionic mattress is arranged in the intelligent cradle, the intelligent cradle is arranged on the swing frame, and the intelligent cradle is respectively connected with the swing frame, the bionic mattress and the collecting and identifying instrument. The method for nursing the infant comprises the following steps:

a. the method comprises the steps of collecting and analyzing crying information of an infant, identifying the crying of the infant through voiceprints to obtain the crying voiceprints of the infant, and matching physiological and behavior requirements corresponding to the crying voiceprints from a preset mapping relation between the physiological and behavior requirements and the voiceprints. The voice recognition module is divided into voiceprint recognition and voice recognition, the voiceprint recognition is used for distinguishing the physiological and behavioral requirements of the infant, the physiological and behavioral requirements can be hunger, abdominal distension, dampness (changing diapers), coldness, heating, lonely (wanting to be held), boredom (accompanying to play), sleepiness (wanting to sleep), other unknown conditions (such as sick, breathing unsmooth, tight clothes, dysphagia, pain, itch, being wound by clothes, convulsion and other body discomfort conditions), and the voice recognition can be used for enabling a user to carry out voice control on the infant nursing device;

b. and selecting and automatically pacifying the infant and/or pushing a notice to a caregiver according to the requirement, wherein the automatically pacifying infant simulates a maternal environment for a shaking cradle and a bionic mattress. The bionic mattress is provided with a simulator capable of simulating heartbeat frequency and respiratory frequency of a mother in a mattress brain, the baby can sense the brain of the mattress, the rocking amplitude and the rocking frequency of the cradle can be adjusted by the rocking rack, the rocking amplitude and the rocking frequency which enable the baby to be quietly come down most quickly are found through machine learning by combining the voiceprint recognition module, if crying is recognized as cold or overheated physiological requirements, the temperature can be adjusted through the bionic mattress so as to placate the baby, no notification is sent when the baby is not crying after being pacified automatically, and the notification is pushed to a nurse if the baby continues crying. If the crying is identified as a hungry physiological need, a wet behavior need, or other unclear condition, a notification is pushed to the caregiver or/and the infant is automatically soothed.

In an embodiment, further, the collecting and identifying instrument further comprises a brain wave measuring module. Collecting and analyzing brain wave data of the infant, wherein when the infant is in a state of mental stress, emotional excitement or excitement, beta waves are generated by the brain, the infant is automatically pacified by simulating the mother environment of the mother through shaking the cradle and the bionic mattress, if continuous crying and screaming cannot be calmed down, a caregiver is informed to check the infant, and the voiceprint identifies the physiological and behavior requirements of the infant and informs the caregiver of the required information through the touch display screen, so that the caregiver can timely take measures; when the baby feels hazy, the brain waves are changed into theta waves, and the baby can be automatically pacified by shaking the cradle and the bionic mattress to simulate the mother environment of the mother; when the baby falls into deep sleep, the electroencephalogram waves are changed into delta waves, and the bionic mattress simulates the mother environment of the mother or automatically pacifies the baby; when the body of the infant is relaxed, the brain is active and inspiration is continuous, the brain wave can lead out the alpha wave, and a caregiver can be informed to check the alpha wave or accompany the alpha wave through the toy performance module. According to the change of brain waves, automatic soothing actions are made in advance, and unnecessary crying such as sleepiness of infants is reduced; the brain waves are measured, the sleeping and waking states of the infants are controlled in the sleep stage to make reasonable arrangement, and therefore the nursing person can conveniently vacate time to process other things; research and analysis are carried out on the combination situation of certain physiological characteristics and/or behavioral characteristics which promote or maintain the brain waves to appear, for example, theta waves which are dim in sleepiness after the infant eats the infant to be saturated and is embraced, delta waves which are deep in sleep after the infant shakes and simulates the mother environment to be pacified in sequence, alpha waves which are active in waking after the infant is played, and various situations which promote the infant to concentrate on calm down or fall asleep as soon as possible are positioned.

In an embodiment, the acquisition and identification apparatus further includes a heartbeat frequency measurement module and a respiratory frequency measurement module, and acquires and analyzes heartbeat frequency and respiratory frequency data of the infant, wherein the heartbeat frequency and respiratory frequency data are represented by a value at a certain moment, an average value in a certain time period and a variation value in a certain time period. In addition, the heartbeat frequency measuring module and the breathing frequency measuring module can be used for measuring the heartbeat frequency and the breathing frequency of the mother, and the heartbeat frequency and the breathing frequency are recorded into the database for calling. Counting the heartbeat frequency and the respiratory frequency of the infant when the infant is calm and crying and screaming, and on one hand, detecting life signs or pathological change characteristics; on the other hand, due to the occurrence of the voice of the speaker, such as hoarseness, emotion and the like, the voice print identification cannot match the voice print with the voice print in the database, the numerical values, the average values and the variation values of the heartbeat frequency, the respiratory frequency and the variation values thereof corresponding to the physiological and behavior requirements under various crying and screaming conditions are analyzed, the fitness of the voice print, the heartbeat frequency and the respiratory frequency under the same condition is analyzed, a mapping relation is established, when the voice print cannot be matched, the corresponding physiological requirement or behavior requirement is mapped through the heartbeat frequency and the respiratory frequency, and the accuracy of voice print identification is improved.

In one embodiment, the intelligent cradle is provided with a toy performance module, and an infant or a caregiver plays with a playing tool to give a rhythm or automatically performs an imitation sound-imitating toy which simulates music and acts to attract the attention of the infant and make the infant calm down. In another embodiment, through brain wave recognition, the infant is sought to concentrate on watching and listening to the rhythms, visual pictures and imitating actions, the conditions of the rhythms, the vision and the combination thereof which promote the appearance of wakefulness and active alpha waves are positioned, and the remodeling condition is convenient for soothing the infant to calm down.

In one embodiment, the cradle brain is located to the mattress brain of bionical mattress, and the cradle portion of lying is located at mattress middle part and mattress edge, and the cradle side fence is located through the electro-magnet to the hand type gasbag, through the inclination of the adjustable cradle brain of telescopic link and cradle portion of lying, conveniently adjusts infant's the gesture of lying and taking a seat. The bionic mattress comprises a fluctuation module, a negative pressure device, a temperature adjusting device and a thermometer, wherein the fluctuation module comprises a convex air bag and a hand-shaped air bag, the hand-shaped air bag forms an encircling posture after being expanded to simulate the embracing of a mother or a father, the infant is automatically pacified by encircling the infant, the brain of the infant is overturned to the edge of the mattress from the middle part side of the mattress, the convex air bag is expanded, and gaps are formed between the convex supports and the bulges to prevent the infant from suffocating; the negative pressure device controls the expansion and contraction of the convex air bag and the hand-shaped air bag through the inflation inlet so as to adjust the holding tightness; the temperature adjusting device can circulate hot air flow or cold air flow between the inflation ports so as to improve the temperature of the infant's bed and the temperature of the infant's arms; the body thermometer is used for measuring the body temperature of the infant, and the maternal environment can be a placenta environment which simulates the heartbeat frequency and the respiratory frequency of a mother, the placenta environment formed by simulating the blood flow of the placenta and the like. In another embodiment, the brain waves of the infants are recorded simultaneously by statistically analyzing various combinations of the degree of tightness and the temperature of the arms, the temperature of the quilt, the shaking amplitude and the shaking frequency of the cradle, the maternal environment and the like, so that the situation of occurrence of hazy theta waves is positioned, and the infant is guided to sleep conveniently and remoulded.

In one embodiment, the heart rate can be increased under the conditions of fever, physical activity, crying or mental stress, and the like, the body temperature is usually raised by 1 ℃, the heart rate is accelerated by 10 to 15 times, and the sleep is slowed by 10 to 20 times; fever, physical activity and emotional stress can accelerate respiration and slow sleep, and the breathing frequency is increased by about 4 times/minute when the body temperature rises by 1 ℃. Because the electroencephalogram signals are weak, low in frequency and have the characteristics of randomness and nonlinearity, the electroencephalogram waves cannot accurately distinguish the physiological needs or the behavioral needs of the infants about hunger, abdominal distension, dampness (diaper changing), coldness, fever, loneliness (want to be held), boredom (accompany), sleepiness (want to sleep), other unknown conditions (such as sickness, unsmooth breathing, tight clothes, dysphagia, pain, itching, winding of clothes, convulsion and other body discomfort situations); the heartbeat frequency, the breathing frequency, the body temperature and the like generally have a linear relation and are easy to collect, and the mapping relation of the heartbeat frequency, the breathing frequency, the body temperature and the brain waves can be collected and analyzed, so that the sleep stage state of the brain waves can be presented by detecting the heartbeat frequency, the breathing frequency and the body temperature, and the measurement of the sleep stage state is facilitated. In another embodiment, the combined situation of certain physiological characteristics and/or behavior characteristics for prompting or maintaining the brain wave to appear is researched and analyzed, the emergence of a hazy theta wave, a deep sleep delta wave and a wakeful active alpha wave is preceded, the heartbeat frequency, the breathing frequency, the cradle shaking amplitude and shaking frequency, the body temperature, the holding tightness and the holding temperature, the maternal environment, the rhythm and vision and the change rule of the combination thereof are statistically analyzed, the situation that the corresponding brain wave appears fastest is selected to establish a mapping relation, and the situation is reshaped when the infant cries and screaming to prompt the infant to calm down or sleep; when theta waves, delta waves and alpha waves which show hazy sleepiness and deep sleep are maintained, the heartbeat frequency, the breathing frequency, the body temperature, the shaking amplitude and the shaking frequency of the cradle, the degree of tightness of the arms and the temperature of the arms, the maternal environment, the temperament, the vision and the combination of the two are statistically analyzed, the condition which shows the longest corresponding brain waves is selected to establish a mapping relation, the remodeling of the theta waves can be used for hypnosis before the infant falls asleep, a caregiver can conveniently take out time to do other things, and the infant can be considered; the reshaping of the delta wave can be used for enabling the infants to fall asleep deeply at night to reduce crying and avoid influencing the work and rest of the caretaker.

In one embodiment, the acquisition and identification instrument is further provided with a playing module, a video monitoring module, a temperature and humidity detection module and the like, and can play videos, music or records of parent sounds for pacifying, detect the environmental temperature and humidity and take measures in time; the swing rack is provided with a mobile device and a touch display screen, and can detect and monitor the physiology and behavior of the infant when the infant goes out, and the physical and mental states of the infant can be mastered in time through the touch display screen.

In one embodiment, the smart cradle is provided with a safety belt and/or a convertible cover to prevent the infant from climbing out of or rolling off of the smart cradle. In another embodiment, the intelligent cradle can be a cradle bed with guardrails on the periphery, or the cradle side rails are arranged on the cradle lying part and the cradle brain part in a surrounding manner, and the height of the guardrails or the cradle side rails can be 30 cm-100 cm and is used for preventing the infant from falling.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. An infant nursing device characterized in that: the intelligent cradle is arranged on the swing frame and is respectively connected with the swing frame, the bionic mattress and the acquisition and recognition instrument;

the bionic mattress comprises a fluctuation module, a negative pressure device, a temperature adjusting device and a thermometer, wherein the fluctuation module comprises a convex air bag and a hand air bag, the hand air bag forms an encircling posture after being expanded to simulate the embracing of a mother or a father, the infant is automatically pacified by encircling the infant, the brain of the infant is overturned to the edge of the mattress from the middle part side of the mattress, the convex air bag is expanded, and gaps are formed between the convex supports and the protrusions to prevent the infant from suffocating; the negative pressure device controls the expansion and contraction of the convex air bag and the hand-shaped air bag through the inflation inlet so as to adjust the degree of tightness of the holding; the temperature adjusting device circulates hot air flow or cold air flow between the inflation ports so as to improve the temperature of the infant's bed and the temperature of the infant's arms; the thermometer is used for measuring the body temperature of the infant.

2. An infant care device as claimed in claim 1, characterized in that: furthermore, the collecting and identifying instrument further comprises a brain wave measuring module.

3. An infant care device as claimed in claim 1, characterized in that: furthermore, the acquisition and identification instrument further comprises a heartbeat frequency measurement module and a respiratory frequency measurement module.

4. An infant care device as claimed in claim 1, characterized in that: the intelligent cradle is provided with a toy performance module.

5. A method of nursing an infant using the device according to any one of claims 1-4, comprising the steps of:

a. collecting and analyzing data information, and identifying the physiological and behavior requirements of the infants through voice;

b. the method comprises the following steps of selecting automatic pacifying of the infant and/or pushing a notice to a caregiver according to requirements, wherein the automatic pacifying of the infant is at least one of shaking of a cradle and simulation of a parent environment of a bionic mattress.

6. The method of nursing an infant of claim 5, wherein: furthermore, electroencephalogram data of the infants are collected and analyzed in the step a, and physiological and behavior requirements of the infants are identified.

7. The method of nursing an infant of claim 5, wherein: furthermore, the heartbeat frequency and respiratory frequency data of the infants are collected and analyzed in the step a, and the physiological and behavior requirements of the infants are identified.

8. The method of nursing an infant of claim 5, wherein: and the step b of automatically pacifying the infant comprises automatically performing by using a toy to attract the infant.

9. The method of nursing an infant of claim 5, wherein: and the step b of automatically pacifying the infant comprises simulating to embrace the infant by the bionic mattress.