CN112704365A - Intelligent pillow and sleep monitoring method - Google Patents

Abstract

The application relates to an intelligent pillow, which comprises a pillow body, wherein the pillow body comprises a pressure sensing module, a processing module, a storage module and a sleep aiding module, and a detection area used for bearing force is formed above the pressure sensing module. The application has the following effects: the method comprises the steps of comparing each time required for falling asleep with the time required for falling asleep stored in a storage module, judging the insomnia of a current user under the condition that the time required for falling asleep of the user is monitored to be larger than the mean value of the time required for falling asleep stored in the storage module at present, and helping the user to fall asleep through a sleep aid module under the condition of insomnia.

Description

Intelligent pillow and sleep monitoring method

Technical Field

The application relates to the field of smart home technology, in particular to an intelligent pillow and a sleep monitoring method.

Background

The sleep is beneficial to eliminating fatigue, repairing the body, promoting growth and development, and directly influencing the physical and mental health of people, particularly for teenagers, in the society with gradually increased learning pressure, the teenagers bear double stress of the heart and the body, and the condition of insomnia of the teenagers is endless; the pillow is an important tool in sleeping, can influence the sleeping quality, pays attention to and monitors the sleeping condition of the teenagers in time through the pillow, and improves the sleeping quality of the teenagers so as to promote the growth and development of the teenagers.

In the related art, the radian or arching height of the pillow is usually changed to adjust the pillow to the neck of a human body, so that the comfort level of the pillow in use is improved. And can not improve the sleep of teenagers or help sleep in the case of insomnia according to self habits.

Disclosure of Invention

In order to improve the sleep quality of teenagers, the application provides an intelligent pillow and a sleep monitoring method.

On the one hand, the intelligent pillow provided by the application adopts the following technical scheme:

an intelligent pillow comprises a pillow body, wherein the pillow body comprises a pressure sensing module, a processing module, a storage module and a sleep aiding module, and a detection area for stress is formed above the pressure sensing module;

the pressure sensing module comprises a pressure sensor embedded in the pillow body and used for sensing the pressure applied to the detection area, and a pressure signal sensed by the pressure sensor is sent to the processing module;

the processing module is used for setting a pressure threshold value, and after receiving a pressure signal sensed by the pressure sensor, the processing module is also used for judging whether a user sleeps according to the pressure threshold value and the sensed pressure signal; the processing module is also used for timing from the beginning of use to the sleep onset to obtain the time required by the sleep onset and storing the time in the storage module;

after the time data required for falling asleep, which are stored in the storage module, reach a preset data threshold, the processing module is further used for monitoring the time required for falling asleep of the user, judging the current insomnia of the user when the time required for falling asleep of the user is monitored to be greater than the average value of the time required for falling asleep, which is stored in the storage module, and controlling the sleep-assisting module to assist in sleeping;

the storage module is used for storing the time required by the user to fall asleep each time;

the sleep-assisting module is controlled by the processing module and is used for accelerating the sleep of a user.

By adopting the technical scheme, the sleep condition of the user is monitored, the pressure signal received by the pillow body is analyzed by utilizing the pressure sensing module, so that the time required by each sleep starting to prepare for falling asleep to successfully fall asleep is obtained, after the user is detected for enough times, the time required by each sleep is stored in the storage module, a data set of the sleep time conforming to the habit of the user is formed, in the subsequent use process of the intelligent pillow, the time required by each sleep is continuously monitored, each time required by the sleep is compared with the time required by the sleep stored in the storage module, the insomnia of the current user is judged under the condition that the time required by the sleep of the user is currently monitored to be larger than the mean value of the time required by the sleep stored in the storage module, the sleep-assisting module is used for assisting the sleep of the user under the condition of the insomnia, particularly, for teenagers, due to daily habits such as learning, work and rest are relatively regular, insomnia is difficult to avoid under the stress condition, whether the people are in the insomnia condition at present is accurately judged by comparing with sleep onset data formed by the people per se, the accuracy of the sleep quality of the teenagers is improved, and the growth and development of the teenagers are facilitated.

Optionally, the processing module further includes a clock unit for time-based travel, the storage module includes a first storage area and a second storage area, the first storage area is used for storing the time required for falling asleep obtained by the working day monitoring, and the second storage area is used for storing the time required for falling asleep obtained by the holiday detection.

By adopting the technical scheme, the working day and the double holiday of each week are distinguished through the clock unit, the clock unit is suitable for the school day and the holiday of the teenager, the states of the teenager in the school day and the holiday are considered to be different, so that the sleep quality is correspondingly distinguished, the time required for sleep on the working day is monitored and the time required for sleep on the holiday is monitored and compared respectively, the clock unit is suitable for the living state of the teenager, the accuracy of monitoring the sleep of the teenager is improved, and the clock unit is favorable for the growth of the teenager.

Optionally, the pillow body still includes the feedback module, place in the feedback module including inside network element and the cell-phone APP unit of pillow, processing module passes through network element with APP unit wireless connection, APP unit is used for receiving the sleep data that processing module sent.

Through adopting above-mentioned technical scheme, processing module passes through network element and APP unit data connection, and processing module can feed back APP unit with teenagers 'required time of falling asleep on, supplies the head of a family to refer to, in time knows teenagers' sleep condition, is favorable to the head of a family to take corresponding measure to teenagers insomnia to improve teenagers sleep quality, be favorable to teenagers to grow up and develop.

Optionally, the sleep-aiding module comprises a sound playing unit and an aroma unit which are arranged on two sides of the pillow body, and the sound playing unit and the aroma unit are controlled by the processing module.

By adopting the technical scheme, the sleep-assisting module is controlled by the processing module, and under the condition that the processing module judges that the user is in the insomnia state, the sleep-assisting module helps the user to sleep by the sleep-assisting music and the sleep-assisting aroma, so that the user can fall asleep quickly.

Optionally, a massage bulge is arranged on the upper surface of the pillow body.

Through adopting above-mentioned technical scheme, the holding power to the neck is strengthened to the protruding the strengthening of massage, is favorable to pillow body atress, improves the accuracy to the required time monitoring of falling asleep.

On the other hand, the sleep monitoring method of the intelligent pillow provided by the application adopts the following technical scheme:

a sleep monitoring method using the intelligent pillow comprises the following steps:

setting a pressure trigger threshold F₁Sober pressure threshold F₂，F₂＞F₁；

The processing module receives the pressure value F received by the detection area₀At a pressure value F₀Reaching said pressure trigger threshold F₁Under the condition of (1), the processing module judges that the user starts to use the pillow body to fall asleep, and the processing module starts to time;

the processing module receives the pressure value F received by the detection area₀At a pressure value F₀Intermittently reaching said waking pressure threshold F₂In case of (2), the processing module determines that the user is awake and intermittently changes posture;

the processing module receives the pressure value F received by the detection area₀At a pressure value F₀Below the wakefulness pressure threshold F₂And the pressure value F₀Under the condition that the stable time reaches a preset time threshold, the processing module judges that the user falls asleep, finishes timing and obtains the time required by falling asleep, and stores the time required by falling asleep in the storage module;

after the time data required for falling asleep stored in the storage module reaches a preset data threshold value, the processing module is further used for monitoring the time required for falling asleep of the user, judging the current user insomnia under the condition that the monitored time required for falling asleep of the user is greater than the average value of the time required for falling asleep stored in the storage module, and controlling the sleep-assisting module to assist in sleeping.

By adopting the technical scheme, the pressure signal received by the pillow body is analyzed by utilizing the pressure sensing module, so that the time required by each sleep starting to fall asleep to successfully fall asleep is obtained, after the user is detected for enough times, the time required by each sleep falling is stored in the storage module, a data set of sleep time conforming to own habits is formed, in the using process of the subsequent intelligent pillow, the time required by each sleep falling is continuously monitored, each time required by the sleep falling is compared with the time required by the sleep falling stored in the storage module, the insomnia of the current user is judged under the condition that the time required by the current sleep falling monitored by the user is greater than the mean value of the time required by the sleep falling stored in the storage module, and the sleep aiding module is used for aiding the user to sleep under the insomnia condition.

Optionally, the storing the time required for falling asleep in the storage module comprises:

the processing module stores the time required for falling asleep monitored in the working day in a first storage area; after the time data required for falling asleep stored in the first storage area reaches a preset data threshold, the processing module takes the time required for falling asleep stored in the first storage area as a mean value as a first comparison reference;

the processing module stores the time required for falling asleep monitored in the rest day in a second storage area; after the time data required for falling asleep stored in the second storage area reaches a preset data threshold, the processing module takes the time required for falling asleep stored in the second storage area as a mean value as a second comparison reference.

By adopting the technical scheme, the states of the teenagers in the class days and the holiday days are considered to be different, so that the sleep quality is correspondingly different, the monitoring and comparison of the time required for sleep in the working days and the time required for sleep in the rest days are carried out respectively, the sleep quality monitoring method is suitable for the living states of the teenagers, the accuracy of sleep monitoring of the teenagers is improved, and the growth of the teenagers is facilitated.

Optionally, the pressure value F received on the detection area₀After 5 minutes, the processing module resets the time needed for falling asleep.

By adopting the technical scheme, the pressure value on the detection area lasts for 5 minutes after being small, the processing module judges that the user stops using the pillow body, and the processing module times resetting and stops executing the judgment program.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the sleep condition of a user is monitored, a pressure signal received by a pillow body is analyzed by a pressure sensing module, so that the time required by each sleep starting to fall asleep to successfully fall asleep is obtained, after the user is detected for enough times, the time required by each sleep falling is stored in a storage module, a data set of sleep time conforming to the habit of the user is formed, the time required by each sleep falling is continuously monitored in the subsequent use process of the intelligent pillow, the time required by each sleep falling is compared with the time required by the user falling asleep stored in the storage module, the insomnia of the current user is judged under the condition that the currently monitored time required by the user falling asleep is larger than the mean value of the time required by the sleep falling stored in the storage module, and the sleep aiding module is used for aiding the sleep of the user under the condition of the insomnia, aiming at teenagers, due to daily habits such as learning, work and rest are relatively regular, insomnia is difficult to avoid under the stress condition, whether the people are in the insomnia condition at present is accurately judged by comparing with sleep onset data formed by the people in the past, the detection on the sleep quality of the teenagers is improved, and the growth of the teenagers is facilitated. And (5) development.

2. The working day and the double holiday of each week are distinguished through the clock unit, the clock unit is suitable for the school day and the holiday of the teenagers, the states of the teenagers in the school day and the holiday are considered to be different, so that the sleep quality is correspondingly distinguished, the time required for sleep in the working day is monitored and compared with the time required for sleep in the holiday, the clock unit is suitable for the living state of the teenagers, the accuracy of sleep monitoring of the teenagers is improved, and the clock unit is beneficial for the growth of the teenagers.

3. The processing module is in data connection with the APP unit through the network unit, the processing module can feed back the required sleep time of the teenager to the APP unit for the parents to refer to, the sleep condition of the teenager can be known in time, and the parents can take corresponding measures for the insomnia of the teenager, so that the sleep quality of the teenager is improved, and the growth and development of the teenager are facilitated.

Drawings

Fig. 1 is a cross-sectional view of an intelligent pillow described herein.

Fig. 2 is a schematic block diagram of the intelligent pillow of the present application.

Fig. 3 is a flowchart of a sleep monitoring method of the intelligent pillow according to the present application.

Description of reference numerals:

100. a pillow body; 101. detecting a surface; 200. a pressure sensor; 300. massaging the bumps.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

Example 1:

the embodiment of the application discloses an intelligent pillow.

As shown in fig. 1, an intelligent pillow comprises a pillow body 100, the pillow body 100 is made of latex material, a massage protrusion 300 is arranged on the upper surface of the pillow body 100, the material of the massage protrusion 300 is the same as that of the pillow body 100, and the massage protrusion can be integrally formed with the pillow body 100, when the pillow body 100 is put into practical use, the head of a human body is against the massage protrusion 300; the embedded pressure module that is equipped with of pillow body 100, the pillow body 100 above the pressure module forms the detection zone that is used for the atress in appearance, and pillow body 100 still includes the processing module that is used for the pressure data analysis of pressure module response to handle, is used for storing the storage module of the pressure data of pressure module response and is used for helping the dormancy module that helps the user to sleep.

As shown in fig. 1 and 2, the pressure sensing module includes a pressure sensor 200 embedded in the center of the pillow body 100 and under the detection area, when the pillow is used, the head presses the pressure sensor 200 downwards to the detection area, even if the pressure sensor 200 is disposed at the center of the pillow body 100, the pressure is applied on the surface of the pillow body 100 close to the left or right of the pillow body 100, because the pillow body 100 is a whole block of latex material, the deformation of the pillow body 100 can also cause the stress change of the pressure sensor 200, and the detection result is not affected.

The pressure sensor 200 is connected to a processing module for sending the force of the sensing detection area to the processing module.

As shown in fig. 1 and 2, the processing module includes an analog-to-digital converter unit and a processing unit, the processing unit is connected to the pressure sensor 200 through the analog-to-digital converter unit, and an analog signal sensed by the pressure sensor 200 is converted into a digital signal that can be processed by the processing unit through the analog-to-digital converter unit.

The processing unit is used for setting a pressure threshold value, starts timing when the user starts to use the intelligent pillow, judges whether the user sleeps according to the pressure threshold value and the pressure value sensed by the pressure sensor 200, stops timing after the user judges that the user sleeps, obtains the time required by the user to sleep, and stores the time required by the user to sleep detected by using the intelligent pillow in the storage module.

The pressure threshold comprises a pressure trigger threshold F₁And a conscious pressure threshold F₂；

Pressure trigger threshold F₁That is, the force applied to the detection surface 101 sensed by the pressure sensor 200 is greater than the pressure trigger threshold F₁In the case of (3), the processing unit starts to count the time required for falling asleep;

conscious pressure threshold F₂That is, the pressure applied to the pillow by the head is frequently changed due to frequent changes in the sleeping posture of the human body before the sleep is ready, and therefore, the pressure applied to the detection area intermittently reaches the waking pressure threshold F before the sleep is ready₂Then the processing unit determines that the current user is awake, and the pressure value detected by the pressure sensor 200 is lower than the awake pressure threshold F₂And under the stable condition, the processing unit judges that the user falls asleep, and the time required for falling asleep is obtained after the timing is finished.

After the storage module stores the data reaching the preset data threshold, in this embodiment, the preset data threshold is 50 sets, and the processing unit processes the stored time required for falling asleep: the longer and shorter time required for falling asleep is removed, and the remaining time required for falling asleep is averaged, and the data processing is a conventional means of data statistics, and the description is not repeated in the embodiment.

In subsequent use, the processing unit continues to compare the pressure value of the pressure sensor 200 with the pressure threshold value to judge whether the user falls asleep, and after the time of averaging the time required for falling asleep, the pressure value sensed by the pressure sensor 200 still reaches the waking pressure threshold value F₂Or in the case of instability (unstable means, although not reaching the conscious pressure threshold F)₂But the pressure value fluctuation is larger than a certain interval, for example, the pressure fluctuation is outside 10-15N), the processing unit judges that the user is insomnia, and the processing unit controls the sleep-assisting module to sleep the user in case of insomnia.

The analog-to-digital converter unit is an ADC, the processing unit realizes the control through a logic execution unit, and processing chips with data processing and control capabilities such as a CPU, an MCU or an FPGA can be adopted.

As shown in fig. 1 and 2, the storage module is a ROM of the processing unit, and the storage module is used for storing the time required for falling asleep at each time of the processing unit, and includes a first storage area and a second storage area, where the first storage area is used for storing the time required for falling asleep monitored on a working day, and the second storage area is used for storing the time required for falling asleep detected on a weekday; the processing unit is provided with a clock unit, the clock unit is a common clock function, such as a clock unit in a computer, the clock unit is used for travel time to distinguish working days and rest days, the processing unit is used for storing the time required for falling asleep obtained from the working days in a first storage area and processing the time required for falling asleep in the first storage area: removing the longer and shorter time required for falling asleep, averaging the rest time required for falling asleep, and using the average as a comparison standard for judging whether the insomnia is caused in the subsequent working days;

the processing unit is used for storing the time required for falling asleep obtained on the holiday into the second storage area and processing the time required for falling asleep in the second storage area: the longer and shorter time required for falling asleep is removed, and the remaining time required for falling asleep is averaged and used as a comparison standard for judging whether the insomnia is caused or not in the following rest days.

As shown in fig. 1 and 2, the sleep-aiding module includes a sound playing module unit and an aromatherapy unit, the sound playing unit includes sound players disposed on two sides of the pillow body 100, the sound players are controlled by the processing unit, the processing unit controls the sound playing unit to play sleep-aiding music when it is determined that the user is insomnia, and the sleep-aiding music can be stored in the storage module;

the aroma unit is also arranged at two sides of the pillow body 100 and comprises air storage bags and valves, aroma gas is filled in the air storage bags, the valves are controlled by the processing unit, the valves are controlled to be opened under the condition that the processing unit judges that the user is insomnia, and the aroma gas is used for helping sleep.

As shown in fig. 1 and 2, the pillow body 100 further comprises a feedback module, which comprises a network unit and an APP unit; the network unit is a wireless module carried on the processing unit, can be a WiFi module or a GPRS module and is used for networking for data transmission, the APP unit is applied to the mobile phone, and the processing unit sends the information of the time required for sleep or whether the insomnia is caused to the mobile phone APP through the network unit.

The implementation principle of the intelligent pillow in the embodiment of the application is as follows:

at the inside pressure sense module that sets up of pillow body 100, respond to the atress condition on the detection zone through the pressure sense module, processing unit judges whether the user sleeps, obtain the required time of falling asleep under the condition of judging for the user falls asleep, and to fall asleep required time and store in storage module, after the data set is sufficient in storage module, the pressure value that follow-up monitoring pressure sensor 200 sensed, according to the steady condition of pressure value and fall asleep required time in the past and compare, processing unit judges whether the user is insomnia, control under the condition of insomnia and help the dormancy module and help the dormancy.

Example 2:

the embodiment of the application discloses a sleep monitoring method of an intelligent pillow.

As shown in fig. 3, a sleep monitoring method of an intelligent pillow includes the following steps:

s100 setting a pressure trigger threshold F₁Sober pressure threshold F₂，F₂＞F₁And F₂Is larger than the pressure of the head on the pillow body 100 to the detection area naturally;

pressure trigger threshold F₁That is, the force applied to the detection surface 101 sensed by the pressure sensor 200 is greater than the pressure trigger threshold F₁In case of (2), the use of the pillow body 100 is started;

conscious pressure threshold F₂That is, the pressure applied to the pillow by the head is frequently changed due to frequent changes in the sleeping posture of the human body before the sleep is ready, and therefore, the pressure applied to the detection area intermittently reaches the waking pressure threshold F before the sleep is ready₂。

S200 the processing module receives the pressure value F received by the detection area₀If F is₀＞F₁The processing module judges that the user starts to use the pillow and prepares for sleeping, and simultaneously, the processing module starts to time the time required by falling asleep.

The processing module continues to receive the pressure value F received on the detection area₀Passing pressure value F₀And a pressure trigger threshold F₁Sober pressure threshold F₂And (3) comparing and judging whether the user falls asleep:

if the pressure value F₀Indirectly reaching or exceeding the conscious pressure threshold F₂E.g. 5-10s internal pressure value F₀Reaching a conscious pressure threshold F₂The processing module judges that the user is in a waking state and intermittently changes postures to prepare for falling asleep;

if the pressure value F₀Below the wakefulness pressure threshold F₂And a pressure value F₀When the stabilization time reaches a preset time threshold, the preset time threshold can be set to be 1-2 minutes, and a pressure value F₀After the stable time reaches 1-2 minutes, the processing module judges that the user falls asleep, stops timing to obtain the time required for falling asleep, and stores the time required for falling asleep in the storage module.

S400 processing module continues to go into to sleep and detects when using this application intelligence pillow at every turn to obtain the required time of falling asleep at every turn, after the storage reaches the preset data threshold in the storage module, in this embodiment, preset data threshold is 50 groups, and the processing unit is handled the required time of falling asleep of storage: the longer and shorter time required for falling asleep is removed, and the remaining time required for falling asleep is averaged, and the data processing is a conventional means of data statistics, and the description is not repeated in the embodiment.

The storage module comprises a first storage area and a second storage area, the first storage area is used for storing the time required for falling asleep, which is obtained by working day monitoring, and the second storage area is used for storing the time required for falling asleep, which is obtained by resting day detection; the processing unit is provided with a clock unit, the clock unit is a common clock function, such as a clock unit in a computer, the clock unit is used for travel time to distinguish working days and rest days, the processing unit is used for storing the time required for falling asleep obtained from the working days in a first storage area and processing the time required for falling asleep in the first storage area: removing the longer and shorter time required for falling asleep, averaging the rest time required for falling asleep, and using the average as a comparison standard for judging whether the insomnia is caused in the subsequent working days;

the processing unit is used for storing the time required for falling asleep obtained on the holiday into the second storage area and processing the time required for falling asleep in the second storage area: the longer and shorter time required for falling asleep is removed, and the remaining time required for falling asleep is averaged and used as a comparison standard for judging whether the insomnia is caused or not in the following rest days.

S500, in the subsequent process of using the pillow body 100, judging whether the user has insomnia:

the pressure value F sensed by the pressure sensor 200 after the time averaged over the time required for falling asleep₀Less than the waking pressure threshold F₂And a pressure value F₀The area tends to be smooth (smooth means that the pressure value fluctuation is less than a certain interval, for example, the pressure fluctuation is within 10-15N), and the processing unit judges that the user is sleeping normally.

The pressure value F sensed by the pressure sensor 200 after the time averaged over the time required for falling asleep₀Still reaching the conscious pressure threshold F₂Or in case of unevenness(unstable means, although not reaching the wakefulness pressure threshold F₂But the pressure value fluctuation is larger than a certain interval, for example, the pressure fluctuation is outside 10-15N), the processing unit judges that the user is insomnia, and the processing unit controls the sleep-assisting module to sleep the user in case of insomnia.

To prevent erroneous judgment, the pressure value F₀Vanishing at pressure value F₀After the time of =0 lasts five minutes, the processing unit judges that the sleep is ended, and the time required for falling asleep is reset.

The implementation principle of the sleep monitoring method of the intelligent pillow in the embodiment of the application is as follows:

at the inside pressure sense module that sets up of pillow body 100, respond to the atress condition on the detection zone through the pressure sense module, processing unit judges whether the user sleeps, obtain the required time of falling asleep under the condition of judging for the user falls asleep, and to fall asleep required time and store in storage module, after the data set is sufficient in storage module, the pressure value that follow-up monitoring pressure sensor 200 sensed, according to the steady condition of pressure value and fall asleep required time in the past and compare, processing unit judges whether the user is insomnia, control under the condition of insomnia and help the dormancy module and help the dormancy.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. An intelligent pillow, which is characterized in that: the pillow comprises a pillow body (100), wherein the pillow body (100) comprises a pressure sensing module, a processing module, a storage module and a sleep aiding module, and a detection area for bearing force is formed above the pressure sensing module;

the pressure sensing module comprises a pressure sensor (200) embedded in the pillow body (100) and used for sensing the pressure applied to the sensing area, and a pressure signal sensed by the pressure sensor (200) is sent to the processing module;

the processing module is used for setting a pressure threshold value, and after receiving a pressure signal sensed by the pressure sensor (200), the processing module is also used for judging whether a user sleeps according to the pressure threshold value and the sensed pressure signal; the processing module is also used for timing from the beginning of use to the sleep onset to obtain the time required by the sleep onset and storing the time in the storage module;

after the time data required for falling asleep, which are stored in the storage module, reach a preset data threshold, the processing module is further used for monitoring the time required for falling asleep of the user, judging the current insomnia of the user when the time required for falling asleep of the user is monitored to be greater than the average value of the time required for falling asleep, which is stored in the storage module, and controlling the sleep-assisting module to assist in sleeping;

the storage module is used for storing the time required by the user to fall asleep each time;

the sleep-assisting module is controlled by the processing module and is used for accelerating the sleep of a user.

2. An intelligent pillow as recited in claim 1, wherein: the processing module further comprises a clock unit used for travel time, the storage module comprises a first storage area and a second storage area, the first storage area is used for storing the time required for falling asleep obtained by working day monitoring, and the second storage area is used for storing the time required for falling asleep obtained by weekday detection.

3. An intelligent pillow as recited in claim 1, wherein: the pillow body (100) further comprises a feedback module, the feedback module comprises a network unit and a mobile phone APP unit which are arranged inside the pillow, the processing module is in wireless connection with the APP unit through the network unit, and the APP unit is used for receiving sleep data sent by the processing module.

4. An intelligent pillow as recited in claim 1, wherein: the sleep-assisting module comprises a sound playing unit and an aroma unit which are arranged on two sides of the pillow body (100), and the sound playing unit and the aroma unit are controlled by the processing module.

5. An intelligent pillow as recited in claim 1, wherein: the upper surface of the pillow body (100) is provided with a massage bulge (300).

6. A sleep monitoring method using the intelligent pillow of any one of claims 1-5, characterized in that: the method comprises the following steps:

setting a pressure trigger threshold F₁Sober pressure threshold F₂，F₂＞F₁；

The processing module receives the pressure value F received by the detection area₀At a pressure value F₀Reaching said pressure trigger threshold F₁Under the condition that the user is falling asleep, the processing module judges that the user starts to use the pillow body (100) to prepare for falling asleep, and the processing module starts to time;

the processing module receives the pressure value F received by the detection area₀At a pressure value F₀Intermittently reaching said waking pressure threshold F₂In case of (2), the processing module determines that the user is awake and intermittently changes posture;

the processing module receives the pressure value F received by the detection area₀At a pressure value F₀Below the wakefulness pressure threshold F₂And the pressure value F₀Under the condition that the stable time reaches a preset time threshold, the processing module judges that the user falls asleep, finishes timing and obtains the time required by falling asleep, and stores the time required by falling asleep in the storage module;

after the time data required for falling asleep stored in the storage module reaches a preset data threshold value, the processing module is further used for monitoring the time required for falling asleep of the user, judging the current user insomnia under the condition that the monitored time required for falling asleep of the user is greater than the average value of the time required for falling asleep stored in the storage module, and controlling the sleep-assisting module to assist in sleeping.

7. The sleep monitoring method of the intelligent pillow according to claim 6, wherein the sleep monitoring method comprises the following steps: said storing said time to fall asleep in said storage module comprises:

the processing module stores the time required for falling asleep monitored in the working day in a first storage area; after the time data required for falling asleep stored in the first storage area reaches a preset data threshold, the processing module takes the time required for falling asleep stored in the first storage area as a mean value as a first comparison reference;

the processing module stores the time required for falling asleep monitored in the rest day in a second storage area; after the time data required for falling asleep stored in the second storage area reaches a preset data threshold, the processing module takes the time required for falling asleep stored in the second storage area as a mean value as a second comparison reference.

8. The sleep monitoring method of the intelligent pillow according to claim 6, wherein the sleep monitoring method comprises the following steps: the pressure value F applied to the detection area₀After 5 minutes, the processing module resets the time needed for falling asleep.

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