CN112773155A - Intelligent pillow control method, device, equipment and storage medium - Google Patents

Abstract

The application relates to an intelligent pillow control method, an intelligent pillow control device, intelligent pillow equipment and a storage medium, wherein the method comprises the following steps: starting when an induction signal of the pressure sensor is received, detecting physiological data of a current user and generating detection data; recording the detection data and generating a data report; respectively comparing detection values corresponding to different detection items in the detection data with health range values preset in a database; if the detection value corresponding to a certain detection item is outside the health range value, marking the detection item and the detection value and generating an abnormal report according to the marked information; and when a data request sent by a user through the intelligent terminal is received, sending the generated data report and the abnormal report to a requester. The application has the technical effects that: the intelligent pillow can detect various physiological data of the user in the sleeping process of the user, and the intelligent degree is high.

Description

Intelligent pillow control method, device, equipment and storage medium

Technical Field

The application relates to the technical field of intelligent pillows, in particular to an intelligent pillow control method, device, equipment and storage medium.

Background

Sleeping generally refers to human sleeping, and is an indispensable physiological phenomenon for human beings. For most people, especially teenagers, the sleep is beneficial to eliminating fatigue, repairing bodies, promoting growth and development and the like; the quality of sleep directly affects the physical and mental health of the teenagers.

The pillow is an important tool in sleep and can affect the sleep quality; however, the common pillow in the related art can only provide stable support for the neck and head of the user in the using process, and is difficult to monitor the physiological data of the user, and the intelligent degree is low.

Disclosure of Invention

In order to improve the intelligentization degree of the pillow, the intelligent pillow control method, the intelligent pillow control device, the intelligent pillow control equipment and the storage medium are provided.

In a first aspect, the application provides an intelligent pillow control method, which adopts the following technical scheme: the method comprises the following steps: the method comprises the steps of starting when an induction signal of a pressure sensor is received, detecting physiological data of a current user and generating detection data, wherein the detection data comprises detection items and detection values corresponding to the detection items;

recording the detection data and generating a data report;

comparing detection values corresponding to different detection items in the detection data with health range values preset in a database respectively; if the detection value corresponding to a certain detection item is outside the health range value, marking the detection item and the detection value and generating an abnormal report according to the marked information;

and when a data request sent by a user through the intelligent terminal is received, sending the generated data report and the abnormal report to a requester.

By the technical scheme, when a user starts sleeping, the system is started by the pressure from the pillow, the system can detect the physiological data of the current user such as heart rate, respiratory rate, deep sleep time and the like and record and generate a data report after being started, and meanwhile, the detection data with the detection value outside the health range value is marked and an abnormal report is generated; after the user finishes sleeping, the intelligent terminal such as a mobile phone or a computer can inquire the data report and the abnormal report recorded by the system, so that the user can know the physiological condition of the user in the sleeping process according to the display of the data report and timely know the abnormal condition of the body according to the display of the abnormal report, the intelligent pillow can detect various physiological data of the user in the sleeping process of the user, and the intelligent degree is high.

Preferably, before the starting when the trigger signal of the pressure sensor is received, the method further comprises:

receiving identity identification information of a current user;

inquiring a preset standard range value corresponding to the current user in a database according to the received identity identification information; and if the preset standard range value corresponding to the current user is inquired in the database, replacing the preset health range value with the preset standard range value corresponding to the current user.

Through the technical scheme, the user can preset a standard range value matched with the user in the system according to the body condition of the user, and when the user sleeps, the identity can be authenticated through fingerprint identification or face identification and other modes, so that the system can call the standard range value preset by the user according to the current identity identification information, and the detection effect of the system on the physiological data is further improved.

Preferably, after the generating an exception report according to the marked information, the method further includes:

starting timing and generating first timing information when the sensing signal of the pressure sensor is interrupted;

clearing the timing information when receiving the sensing signal of the pressure sensor;

judging whether the time value corresponding to the first timing information is larger than a preset getting-up time value or not; if so, judging that the current user gets up and sending the abnormal report to the intelligent terminal of the current user.

By the technical scheme, in the process of detecting the physiological data of the user, if an abnormal report is generated, the system actively sends the abnormal report to an intelligent terminal such as a mobile phone or a computer of the current user after judging that the user gets up so as to remind the user to perform related adjustment or seek medical advice in time according to the abnormal condition.

Preferably, the method further comprises:

receiving a noise detection signal of a sound sensor and generating a noise chart, wherein the noise chart comprises noise values and time values corresponding to the noise values;

when the snoring condition of the current user is judged according to the noise value in the noise chart, the relative angle between the cervical vertebra and the pillow of the current user is adjusted according to a preset adjusting program;

and when the snoring condition is judged to stop, stopping executing the preset adjusting program.

Through the technical scheme, when the system detects that the user snores, the relative angle between the cervical vertebra and the pillow of the user can be adjusted according to the preset adjusting program, so that the snore condition of the user is relieved, and the sleep quality of the user is improved.

Preferably, the judging that the user snores according to the noise value in the noise chart includes:

when a certain noise value in the noise chart is larger than a preset quiet numerical value, starting a counting program to record the times of occurrence of the situation that the noise value is larger than the preset quiet numerical value in a first period preset after the current time value;

when the frequency of the noise value larger than the preset quiet numerical value appearing in a preset first period is larger than a preset limit numerical value, judging that the snoring condition of the current user appears at the moment; otherwise, judging that the snoring of the current user does not occur at the moment.

According to the technical scheme, the snore condition is judged by counting the occurrence times of the snore in the preset period according to the characteristic that the snore condition of the human body is periodic reciprocating, the possibility that the system misjudges the snore condition due to the fact that other noises occur in a room is reduced, and the accuracy of the system in judging the snore is improved.

Preferably, after the adjusting the relative angle between the cervical vertebrae and the pillow of the user according to the preset adjusting program, the method further comprises:

starting timing and generating second timing information while starting the preset adjusting program;

judging whether the time value corresponding to the second timing information is larger than a preset stop time value or not; and if so, stopping executing the preset adjusting program.

By the technical scheme, if the adjustment program is started and continues to the preset stop time value, and the snoring condition of the user still does not stop, the adjustment program is terminated, the adjustment of the relative angle between the cervical vertebra and the pillow of the user is stopped, the possibility that the user wakes up from the sleep due to long-time continuous adjustment is reduced, and therefore the sleep quality of the user is improved.

Preferably, before the adjusting the relative angle between the cervical vertebrae and the pillow of the user according to the preset adjusting program, the method further comprises:

recording the event that the system judges that the user snores to the adjustment database; deleting the data in the adjusting database by taking a preset time value as a period;

judging whether the number of corresponding event records in the adjustment database is greater than a preset reasonable numerical value or not; and if so, stopping the execution of the adjusting program within a preset time range.

According to the technical scheme, in a preset time period, if the times of executing the adjusting program by the system exceed a preset reasonable value, the execution of the adjusting program is stopped within a preset time range; the possibility that the user wakes up from the sleep due to the fact that the relative angle between the cervical vertebra and the pillow of the user is adjusted for many times in a short time is reduced, and therefore the sleep quality of the user is further improved.

In a second aspect, the present application provides an intelligent pillow control device, which adopts the following technical scheme: the device comprises: the physiological data detection module is used for starting when receiving a sensing signal of the pressure sensor, detecting the physiological data of the current user and generating detection data, wherein the detection data comprises detection items and detection values corresponding to the detection items;

the data report generating module is used for recording the detection data and generating a data report;

the abnormal report generation module is used for comparing detection values corresponding to different detection items in the detection data with health range values preset in a database respectively; if the detection value corresponding to a certain detection item is outside the health range value, marking the detection item and the detection value and generating an abnormal report according to the marked information;

and the physiological data sending module is used for sending the generated data report and the abnormal report to a requesting party when receiving a data request sent by a user through the intelligent terminal.

Through the technical scheme, the intelligent pillow can detect various physiological data of the user in the sleeping process of the user, so that the user can know the physiological condition of the user in the sleeping process according to the display of the data report, and can timely know the abnormal condition of the body according to the display of the abnormal report, and the intelligent degree is high.

In a third aspect, the present application provides a computer device, which adopts the following technical solution: comprising a memory and a processor, the memory having stored thereon a computer program that can be loaded by the processor and executed in any of the intelligent pillow control methods described above.

Through the technical scheme, the intelligent pillow can detect various physiological data of the user in the sleeping process of the user, so that the user can know the physiological condition of the user in the sleeping process according to the display of the data report, and can timely know the abnormal condition of the body according to the display of the abnormal report, and the intelligent degree is high.

In a fourth aspect, the present application provides a computer-readable storage medium, which adopts the following technical solutions: a computer program is stored which can be loaded by a processor and which can perform any of the above-described intelligent pillow control methods.

Through the technical proposal, the method has the advantages that,

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

1. the intelligent pillow can detect various physiological data of the user in the sleeping process of the user, so that the user can know the physiological condition of the user in the sleeping process according to the display of the data report, and can timely know the abnormal condition of the body according to the display of the abnormal report, and the intelligent degree is higher;

2. when the intelligent pillow detects that the user snores, the relative angle between the cervical vertebra of the user and the pillow can be automatically adjusted, so that the snore condition of the user is relieved, and the sleep quality of the user is improved.

Drawings

Fig. 1 is a flowchart of an intelligent pillow control method in an embodiment of the present application.

Fig. 2 is a flow chart of a snore adjusting method in an embodiment of the application.

Fig. 3 is a flowchart illustrating sub-steps of S25 in an embodiment of the present application.

Fig. 4 is a block diagram of the structure of the intelligent pillow control device in the embodiment of the present application.

Reference numerals: 301. an identity information recognition module; 302. a physiological data detection module; 303. a data report generation module; 304. an abnormal report generation module; 305. an abnormal report sending module; 306. a physiological data transmitting module; 307. sleep snore adjustment module.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses an intelligent pillow control method.

As shown in fig. 1, the method comprises the steps of:

and S10, receiving the identification information of the current user.

Specifically, the user may send the identification information to the system through fingerprint recognition or face recognition, so that the system may correspondingly identify the identity of the current user according to the received identification information.

S11, setting a health range value.

Specifically, the database of the system is pre-stored with conventional range values for various physiological indexes of a healthy human body, and the user can input basic information such as sex, age, height, weight and the like into the system through the intelligent device, so that the system can correspondingly generate standard range values of various physiological indexes matched with the user according to the basic information input by the user; if the system receives the user identity identification information before starting, a standard range value corresponding to the user identity identification information is correspondingly searched in a database, and the searched standard range value is set as a health range value; if the user identification information is not received or the standard range value corresponding to the received user identification is not inquired in the database, the conventional range value pre-stored by the system is set as the health range value.

And S12, detecting the physiological data of the current user and generating a data report.

Specifically, a pressure sensor connected with the system is preset in the pillow, the pressure sensor on the pillow can be triggered under the pressure of the head of a human body when a user sleeps, and sends a sensing signal to the system, and the system can start to detect physiological data such as the heart rate, the breathing rate and the deep sleep time of the current user and generate detection data when receiving the sensing signal, wherein the detection data comprises detection items and detection values corresponding to the detection items, for example: the detection item is the respiration rate, and the corresponding detection value is 15 times/minute; and recording and generating a data report according to all detection items in the detection data and the corresponding detection values.

S13, whether the detection value corresponding to the detection item is within the healthy range is judged.

Specifically, detection values corresponding to different detection items in the detection data are respectively compared with health range values, if the detection value corresponding to a certain detection item is located outside the health range value, the detection item and the detection value are marked, and an abnormal report is generated according to the marked information; for example, if the healthy range of the respiration rate is 12-20 times/min, and the detected respiration rate in a certain period is 22 times/min, the abnormal detection result is marked and an abnormal report is generated, and then S14 is executed; otherwise, S16 is executed.

S14, start timing and generate first timing information.

Specifically, timing is started when a sensing signal of a pressure sensor is interrupted, and first timing information is generated; and when the system receives the sensing signal of the pressure sensor again, the generated first timing information is cleared, so that the system can judge the time when the user leaves the pillow according to the time value corresponding to the first timing information.

And S15, judging whether the time value corresponding to the first timing information is larger than a preset getting-up time value.

Specifically, if the time value corresponding to the first timing information is greater than a preset getting-up time value, judging that the current user gets up and actively sending the generated abnormal report to the intelligent terminal of the current user so as to remind the user of paying attention to the abnormal condition occurring in the sleep period; otherwise, executing S16; the preset getting-up time value is preset by a user according to needs, for example, the getting-up time is set to be half an hour, and the user is judged to have got up when the time for the user to leave the pillow reaches half an hour continuously; the possibility that the system judges that the user gets up when the user gets up to drink water or goes to a toilet at night for activities less than half an hour is reduced, so that the accuracy of the system for judging that the user gets up is improved; the user can adjust the preset getting-up time value according to the self condition, and the flexibility of the system is improved.

And S16, sending the generated data report and the abnormal report to a requester when the data request is received.

Specifically, the data request is generated when a user inquires sleep data through an intelligent terminal such as a mobile phone or a computer, the system sends the generated data report and the abnormal report to the intelligent terminal of the user for display after receiving the user inquiry request, and if the data of the abnormal report does not exist in the system, the data report is sent to the intelligent terminal of the user independently; so that the user can visually know the self sleep data condition according to the display of the intelligent terminal.

As shown in fig. 2, the method further comprises the steps of:

s20, a noise detection signal of the acoustic sensor is received and a noise map is generated.

Specifically, a sound sensor for detecting noise near the pillow is preset in the pillow, the sound sensor can detect the sound near the pillow during the sleeping period of a user and send the sound to a system in real time, and the system can correspondingly generate a noise chart according to a received noise detection signal, wherein the noise chart comprises noise values and time values corresponding to the noise values.

And S21, starting a counting procedure when the noise value is larger than the preset quiet value in the noise chart.

Specifically, when a noise value larger than a preset quiet value appears in a noise chart, a counting program is started to record the condition that the noise value is larger than the preset quiet value and adjust the accumulated times to one time; and when the noise value is larger than the preset quiet value again, gradually adding one to the accumulated times.

And S22, judging whether the accumulated number of times in the preset first period is larger than a preset limit number of times.

Specifically, when the number of occurrences of the noise value being greater than the preset quiet value within a certain period is greater than the preset limit number, it is determined that the user is snoring and step S23 is performed; otherwise, judging that the snoring of the current user does not occur; for example, setting a certain period to be 1 minute, setting a quiet numerical value to be 40 decibels, and setting a limit numerical value to be 20 times, and when the frequency of occurrence of the noise value greater than 40 decibels in 1 minute reaches 20 times, determining that the user snores; the interference of other short-time noises in the room is reduced, and the accuracy of judging the snoring condition is improved.

And S23, recording the current event that the user snores.

Specifically, when the system judges that the snoring condition of the current user occurs, the system records the snoring condition into the adjustment database in the form of an event; and deleting the data in the adjustment database by taking the preset time value as a period, for example, if the preset period time value is 1 hour, the system executes a command of deleting the data in the database every 1 hour.

And S24, judging whether the number of the events in the adjustment database is larger than a preset reasonable value.

Specifically, if the number of events in the adjustment database is not greater than the preset reasonable value, step S25 is executed; otherwise, executing the command of stopping executing the adjusting program within the preset time range; for example, if a reasonable value is preset to 3 times and the preset time range is 2 hours, the command of the adjustment program will stop executing in the next two hours when the number of times the adjustment program executed by the system in 1 hour reaches 4 times.

And S25, adjusting the snore condition of the user according to a preset adjusting program.

As shown in fig. 3, in particular, S25 includes the following four substeps.

And S251, adjusting the relative angle between the cervical vertebra and the pillow of the current user according to a preset adjusting program.

Specifically, according to the specific structure of the pillow, the relative angle between the cervical vertebrae and the pillow of the user can be adjusted by adjusting the air inflation amount of different areas in the pillow or adjusting the internal structure of the pillow according to a preset adjustment program, so as to relieve the snoring condition of the user.

And S252, judging whether the snoring of the current user stops.

Specifically, in the process of executing the adjustment program, if the noise value is not greater than the preset quiet value within the preset time, it is determined that the user snore, and S255 is executed, otherwise, it is determined that the user snore is not stopped, and S253 is executed; for example, if the preset time is ten seconds, in the process of executing the adjustment program, if the noise value is not greater than the preset quiet value within ten seconds, it is determined that the snoring condition of the user stops.

And S253, starting timing and generating second timing information.

Specifically, the system synchronously clocks the single running time of the adjusting program and generates second timing information at the same time when the adjusting program is started.

And S254, judging whether the time value corresponding to the second timing information is larger than a preset stop time value.

Specifically, if the time value corresponding to the second timing information is greater than the preset time value, step S255 is executed, otherwise, step S251 is continuously executed; for example, the preset stop time value is 2 minutes, if the snoring condition of the user is not ended after 2 minutes, that is, the single operation of the adjustment program is continued, S255 is executed, otherwise, S251 is executed continuously.

And S255, stopping the execution of the preset adjusting program.

Specifically, when the user stops snoring in the execution process of the user adjustment program or the user does not stop snoring when the single execution time of the adjustment program reaches a preset stop time value, the execution of the preset adjustment program is automatically stopped; the possibility that the user wakes up from the sleep due to the fact that the relative angle between the cervical vertebra and the pillow of the user is adjusted for a long time is reduced, and therefore the sleep quality of the user is improved.

The implementation principle of the embodiment of the application is as follows: after a user lies down on the intelligent pillow, a system in the intelligent pillow can start to detect physiological data of the user in real time, and when the user snores in the sleeping process, the system can automatically start a preset adjusting program to adjust the relative angle between the cervical vertebra and the pillow of the user so as to relieve the snore condition of the user and improve the sleeping quality of the user; the physiological data of the user in the sleeping process can be checked in an active inquiry mode by using intelligent equipment such as a mobile phone or a computer after the user gets up, and if the abnormal condition of certain physiological data occurs in the sleeping period, the system judges that the abnormal condition can be actively sent to the intelligent equipment of the user after the user gets up so as to remind the user to carry out related adjustment or medical treatment in time.

Based on the method, the embodiment of the application also discloses an intelligent pillow control device.

As shown in fig. 4, the apparatus includes the following modules:

the identity information identification module 301 is configured to correspondingly identify the identity of the current user according to the received identity identification information, and correspondingly set a health range value;

the physiological data detection module 302 is configured to start when receiving a sensing signal of the pressure sensor, detect physiological data of a current user, and generate detection data, where the detection data includes detection items and detection values corresponding to the detection items;

the data report generating module 303 is configured to record the detection data and generate a data report;

the abnormal report generation module 304 is configured to compare detection values corresponding to different detection items in the detection data with health range values preset in the database respectively; if the detection value corresponding to a certain detection item is outside the health range value, marking the detection item and the detection value and generating an abnormal report according to the marked information;

the abnormal report sending module 305 is configured to actively send the generated abnormal report to the intelligent terminal of the current user when it is determined that the current user gets up;

the physiological data sending module 306 is used for sending the generated data report and the abnormal report to a requester when receiving a data request sent by a user through an intelligent terminal;

the snoring adjusting module 307 is configured to adjust a relative angle between the cervical vertebrae and the pillow of the user according to a preset adjusting program when it is determined that the user snores.

The embodiment of the application also discloses computer equipment.

In particular, the computer device comprises a memory and a processor, the memory having stored thereon a computer program that can be loaded by the processor and execute the above-described intelligent pillow control method.

The embodiment of the application also discloses a computer readable storage medium.

Specifically, the computer readable storage medium stores a computer program capable of being loaded by a processor and executing the above-mentioned intelligent pillow control method, and includes, for example: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-only memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (10)

1. An intelligent pillow control method, characterized in that the method comprises:

the method comprises the steps of starting when an induction signal of a pressure sensor is received, detecting physiological data of a current user and generating detection data, wherein the detection data comprises detection items and detection values corresponding to the detection items;

recording the detection data and generating a data report;

comparing detection values corresponding to different detection items in the detection data with health range values preset in a database respectively; if the detection value corresponding to a certain detection item is outside the health range value, marking the detection item and the detection value and generating an abnormal report according to the marked information;

and when a data request sent by a user through the intelligent terminal is received, sending the generated data report and the abnormal report to a requester.

2. The intelligent pillow control method according to claim 1,

before the starting when the trigger signal of the pressure sensor is received, the method further comprises the following steps:

receiving identity identification information of a current user;

inquiring a preset standard range value corresponding to the current user in a database according to the received identity identification information; and if the preset standard range value corresponding to the current user is inquired in the database, replacing the preset health range value with the preset standard range value corresponding to the current user.

3. The intelligent pillow control method according to claim 1, further comprising, after generating an exception report according to the marked information:

starting timing and generating first timing information when the sensing signal of the pressure sensor is interrupted;

clearing the timing information when receiving the sensing signal of the pressure sensor;

judging whether the time value corresponding to the first timing information is larger than a preset getting-up time value or not; if so, judging that the current user gets up and sending the abnormal report to the intelligent terminal of the current user.

4. The intelligent pillow control method of claim 1, further comprising:

receiving a noise detection signal of a sound sensor and generating a noise chart, wherein the noise chart comprises noise values and time values corresponding to the noise values;

when the snoring condition of the current user is judged according to the noise value in the noise chart, the relative angle between the cervical vertebra and the pillow of the current user is adjusted according to a preset adjusting program;

and when the snoring condition is judged to stop, stopping executing the preset adjusting program.

5. The intelligent pillow control method according to claim 4, wherein the judging the snoring of the current user according to the noise value in the noise chart comprises:

when a certain noise value in the noise chart is larger than a preset quiet numerical value, starting a counting program to record the times of occurrence of the situation that the noise value is larger than the preset quiet numerical value in a first period preset after the current time value;

when the frequency of the noise value larger than the preset quiet numerical value appearing in a preset first period is larger than a preset limit numerical value, judging that the snoring condition of the current user appears at the moment; otherwise, judging that the snoring of the current user does not occur at the moment.

6. The intelligent pillow control method according to claim 4, further comprising, after the adjusting the relative angle between the cervical vertebrae and the pillow of the current user according to a preset adjusting program:

starting timing and generating second timing information while starting the preset adjusting program;

judging whether the time value corresponding to the second timing information is larger than a preset stop time value or not; and if so, stopping executing the preset adjusting program.

7. The intelligent pillow control method according to claim 4, wherein before the adjusting the relative angle between the cervical vertebrae and the pillow of the user according to the preset adjusting program, the method further comprises:

recording the event that the system judges that the user snores to the adjustment database; deleting the data in the adjusting database by taking a preset time value as a period;

judging whether the number of corresponding event records in the adjustment database is greater than a preset reasonable numerical value or not; and if so, stopping the execution of the adjusting program within a preset time range.

8. An intelligent pillow control apparatus, the apparatus comprising:

the physiological data detection module (302) is used for starting when receiving a sensing signal of the pressure sensor, detecting the physiological data of the current user and generating detection data, wherein the detection data comprises detection items and detection values corresponding to the detection items;

a data report generating module (303) for recording the detection data and generating a data report;

an abnormal report generation module (304) for comparing the detection values corresponding to different detection items in the detection data with the health range values preset in the database; if the detection value corresponding to a certain detection item is outside the health range value, marking the detection item and the detection value and generating an abnormal report according to the marked information;

and the physiological data sending module (306) is used for sending the generated data report and the abnormal report to a requesting party when receiving a data request sent by a user through the intelligent terminal.

9. A computer device comprising a memory and a processor, the memory having stored thereon a computer program that can be loaded by the processor and that executes the method according to any of claims 1 to 7.

10. A computer-readable storage medium, in which a computer program is stored which can be loaded by a processor and which executes the method of any one of claims 1 to 7.

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