CN117653455A - Intelligent snore relieving method, device, equipment and medium by adjusting pillow height - Google Patents

Abstract

The application relates to an intelligent snore stopping method, device, equipment and medium by adjusting the height of a pillow, which comprises the steps of obtaining a sleep starting signal of a user, generating initial adjustment information of a pillow inflator device, triggering a head pressure sensing instruction, obtaining pressure sensing data according to the head pressure sensing instruction, generating sleep information of the user according to the pressure sensing data, obtaining a snore sensing instruction, generating snore sensing feedback information according to the sleep information of the user, generating snore waveform data, breathing interval data and snore decibel data according to the snore waveform data, gap data during breathing and the snore decibel data, identifying through a snore database, and generating a pillow lifting adjusting instruction after identifying. The present application has the effect of slowing down snoring of the user.

Description

Intelligent snore relieving method, device, equipment and medium by adjusting pillow height

Technical Field

The invention relates to the technical field of adjusting the height of a pillow, in particular to an intelligent snore stopping method, device, equipment and medium by adjusting the height of the pillow.

Background

At present, modern people have high living pressure, and partial people can snore due to unsmooth breathing caused by unsuitable pillow height during sleeping, so that not only the health of a sleeper is influenced, but also other people sleeping nearby are influenced.

Currently, with the development of technology, a sensor designed in a pillow is used for receiving sound in a sleeping process, snore waveforms are identified, gap vibration during breathing is identified and the sound size is identified, whether a user snores or not is judged in decibels, and if snore information is detected, an air pump is controlled to inflate an air bag to lift the height of the pillow, so that the snore of the user is slowed down.

Aiming at the related technology, the snore data is not timely obtained, and the height of the pillow cannot be timely adjusted to relieve the snore of a user.

Disclosure of Invention

In order to timely alleviate the snoring condition of a sleeper, the application provides an intelligent snore stopping method, device, equipment and medium by adjusting the height of a pillow.

The first object of the present invention is achieved by the following technical solutions:

acquiring a sleep start signal of a user, generating initial adjustment information of the pillow inflator device, and triggering a head pressure sensing instruction;

acquiring pressure sensing data according to the head pressure sensing instruction, and generating user sleep information according to the pressure sensing data;

obtaining a snore perception instruction according to the sleeping information of the user, generating snore perception feedback information, and generating snore waveform data, breathing interval data and snore decibel data according to the snore perception feedback information;

and identifying through a snore database according to the snore waveform data, the gap data during breathing and the snore decibel data, and generating a pillow lifting adjusting instruction after identifying.

Through adopting above-mentioned technical scheme, thereby because the height of pillow leads to user's respiratory narrowing and sends snore, not only influence sleeper's health, also influence the people of nearby other sleeps, therefore when acquireing user's sleep initiation signal, according to user's sleep signal, generate the pillow instruction of inflating, acquire the first debugging information of pillow inflator device, simultaneously generate monitoring head forced induction information, trigger head forced induction instruction, acquire head forced induction data in real time, carry out data analysis through the sleep perception information base of predetermineeing according to head forced induction data and generate user's sleep information, according to user's sleep information. The method comprises the steps of monitoring snore data of a user in real time, identifying snore waveform data, breathing interval data and snore decibel data through the identification of the snore data, generating a command for adjusting the height of a lifting pillow, monitoring neck and pillow position information of the user in real time, adjusting the height of the pillow in real time through head pressure sensing information, recording sleeping information of the user, generating pillow height information when snore is minimum, acquiring sleeping information of the user next time, and automatically adjusting the height of the pillow when the snore is minimum.

The present application may be further configured in a preferred example to: the method comprises the steps of obtaining a sleep start signal of a user, generating initial adjustment information of a pillow inflator device, triggering a head pressure sensing instruction, and specifically comprising the following steps:

acquiring pillow height data according to the sleep start signal of the user, and generating initial adjustment information of the pillow inflator device according to the pillow height data;

and adjusting the pillow height value selected by a user according to the initial adjustment information of the pillow inflator device, and triggering the head pressure sensing instruction.

By adopting the technical scheme, the user sleep information is monitored in real time, the user sleep start signal is acquired, the pillow height adjusting instruction is generated through the user sleep start signal, the pillow height data is generated, meanwhile, the neck and pillow position information is detected, the initial adjustment information of the pillow inflator device is generated according to the pillow height data and the neck and pillow position information, meanwhile, the user can set the pillow height instruction, the pillow height position is selected, the pillow inflator inflation instruction is generated, the pillow height value selected by the user is adjusted, and the user pressure data is monitored in real time.

The present application may be further configured in a preferred example to: the method comprises the steps of obtaining pressure sensing data according to the head pressure sensing instruction, and generating sleeping information of a user according to the pressure sensing data, and specifically comprises the following steps:

acquiring head position information of a user according to the head pressure sensing instruction, and acquiring pressure sensing data according to the head position of the user;

and identifying the pressure sensing data through a preset sleep sensing information base according to the pressure sensing data, and generating the sleep information of the user.

By adopting the technical scheme, the head pressure sensing data are generated through head pressure sensing of the user, the head position information of the user is obtained, the head pressure data are analyzed in real time, the head pressure data of the pillow are analyzed, and the sleeping information of the user is generated through the preset sleeping sensing information base and the pressure information data.

The present application may be further configured in a preferred example to: the method comprises the steps of obtaining a perception instruction according to sleep information of a user, generating perception feedback information, and generating snore waveform data, gap data during breathing and snore decibel data according to the perception feedback information, wherein the method specifically comprises the following steps:

monitoring the sleep information of the user through the sleep perception information base according to the sleep information of the user, and generating sleep perception feedback information according to the sleep information of the user;

and identifying snore data according to the sleep perception feedback information, generating the snore waveform data according to the snore data, and generating gap data and the snore decibel data information during breathing.

By adopting the technical scheme, the user sleep information is acquired, the user sleep information is analyzed through the sleep perception information base to acquire the user sleep information, the user sleep information is monitored at the same time, the user sleep perception feedback information is generated, the snore detection instruction is acquired according to the user sleep perception feedback information, the user snore data value is generated, and the snore waveform data, the gap data during breathing and the snore decibel data information are generated according to the user snore data value.

The present application may be further configured in a preferred example to: the step of monitoring the sleep information of the user according to the sleep information of the user through the sleep perception information base and generating sleep perception feedback information according to the sleep information of the user specifically comprises the following steps:

generating a neck position monitoring instruction according to the sleeping information of the user, and generating neck position information according to the neck position monitoring instruction of the user;

and monitoring the positions of the neck and the pillow of the user according to the neck position information, and generating the sleep perception feedback information according to the positions of the neck and the pillow of the user.

By adopting the technical scheme, because the neck and the pillow position of the user are not fixed in the whole sleeping process, the user is not asleep well and the snore is overlarge, when the sleeping information of the user is acquired, the neck and the pillow position of the user are acquired and monitored, the neck and the pillow position information of the user are generated, the sleeping perception feedback information is generated according to the neck and the pillow position information of the user, and the height of the pillow is adjusted.

The present application may be further configured in a preferred example to: according to the snore waveform data, the gap data during breathing and the snore decibel data are identified through a snore database, and a pillow lifting adjusting instruction is generated after identification, and specifically comprises the following steps:

according to the snore waveform data, the gap data during breathing and the snore decibel data, comparing the gap data with a snore alarm threshold in the snore database to generate a snore comparison result;

and acquiring the neck and pillow position information of the user according to the snore comparison result, which is larger than the preset snore alarm threshold value, and generating the pillow lifting adjusting instruction.

By adopting the technical scheme, the gap data and the snore decibel data are obtained when the snore waveform data are breathed, meanwhile, the gap data and the snore decibel data are compared according to the snore waveform data, a comparison result of snore is generated, when the comparison result is larger than a preset snore alarm threshold value, the neck and pillow position information of a user is obtained, the adjustment information of the pillow inflator is generated, and the lifting instruction of the pillow is obtained.

The present application may be further configured in a preferred example to: the snore alarm threshold value is greater than a preset snore comparison result, the neck and pillow position information of the user is obtained, and the pillow lifting adjusting instruction is generated, and specifically comprises the following steps:

generating pillow lifting frequency information according to the pillow lifting adjusting instruction;

according to the pillow lifting information, analyzing the minimum snore data in the snore database at the same time, and generating optimal pillow height information according to the minimum snore data in the snore database;

and automatically generating the pillow lifting adjusting instruction through the sleep perception information base according to the optimal pillow height information.

According to the technical scheme, the lifting frequency information of the pillow is generated according to the instruction for adjusting the lifting of the pillow, the minimum value of the snore data in the snore database is obtained through the lifting information of the pillow, the optimal pillow height information corresponding to the minimum value of the snore data is generated, meanwhile, the sleep perception information base is used for recording according to the optimal pillow height information corresponding to the minimum value of the snore data, and the sleep information of a user is obtained, so that the sleep information of the user is automatically adjusted to the optimal pillow height.

The second object of the present invention is achieved by the following technical solutions:

the instruction generation module is used for acquiring a sleep start signal of a user, generating initial adjustment information of the pillow inflator device and triggering a head pressure sensing instruction;

the information generation module is used for acquiring pressure sensing data according to the head pressure sensing instruction and generating sleeping information of a user according to the pressure sensing data;

the snore data analysis module is used for acquiring a snore perception instruction according to the sleeping information of the user, generating snore perception feedback information, and generating snore waveform data, breathing interval data and snore decibel data according to the snore perception feedback information;

the instruction operation module is used for identifying through a snore database according to the snore waveform data, the gap data during breathing and the snore decibel data, and generating an instruction for adjusting the pillow to lift after identifying.

By adopting the technical scheme, the method comprises the steps of obtaining a sleep start signal of a user, generating a start instruction of the pillow inflator device, generating initial adjustment information of the pillow inflator device, triggering a head pressure sensing instruction, monitoring head position information in real time, generating the pressure sensing instruction according to the head position information, obtaining pressure sensing data, generating sleep information of the user according to a preset sleep sensing information base, obtaining a sensing instruction of snore according to the sleep information of the user, obtaining snore sensing feedback information in real time, generating snore waveform data, breathing interval data and snore decibel data, and identifying the neck and the pillow position information according to the snore waveform data, breathing interval data and the snore decibel data through a snore database, and generating a lifting instruction of the pillow.

The third object of the present application is achieved by the following technical solutions:

a computer device comprising a memory, a processor and a computer program stored in the memory and executable on the processor, the processor implementing the steps of the intelligent snore stopping method by adjusting the height of a pillow when executing the computer program.

The fourth object of the present application is achieved by the following technical solutions:

a computer readable storage medium storing a computer program which when executed by a processor performs the steps of the intelligent anti-snoring method described above by adjusting the height of a pillow.

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

1. when a sleep start signal of a user is acquired, generating a pillow inflation instruction according to the sleep signal of the user, acquiring primary debugging information of the pillow inflator device, generating monitoring head pressure sensing information, triggering the head pressure sensing instruction, acquiring head pressure sensing data in real time, performing data analysis according to the head pressure sensing data through a preset sleep sensing information base to generate user sleep information, and generating the user sleep information according to the user sleep information. Monitoring snore data of a user in real time, identifying snore waveform data, breathing interval data and snore decibel data through the identification of the snore data, generating a command for adjusting the height of a lifting pillow, monitoring neck and pillow position information of the user in real time, adjusting the height of the pillow in real time through head pressure sensing information, recording sleeping information of the user, generating pillow height information when the snore is minimum, acquiring sleeping information of the user next time, and automatically adjusting the height of the pillow when the snore is minimum;

2. by acquiring the sleeping information of the user, generating the pillow height position corresponding to the lowest snore data when the user sleeps, recording, and automatically adjusting to the optimal pillow height position when the next sleeping information of the user is acquired.

Drawings

FIG. 1 is a flow chart of an intelligent snore stopping method by adjusting the height of a pillow in one embodiment of the present application;

FIG. 2 is a flowchart showing the implementation of step S10 in intelligent snoring prevention by adjusting the height of the pillow according to an embodiment of the present application;

FIG. 3 is a flowchart showing the implementation of step S20 in intelligent snoring prevention by adjusting the height of the pillow according to an embodiment of the present application;

FIG. 4 is a flowchart showing the implementation of step S30 in intelligent snoring prevention by adjusting the height of the pillow according to an embodiment of the present application;

FIG. 5 is a flowchart showing the implementation of step S31 in intelligent snoring prevention by adjusting the height of the pillow according to an embodiment of the present application;

FIG. 6 is a flowchart showing the implementation of step S40 in intelligent snoring prevention by adjusting the height of the pillow according to an embodiment of the present application;

FIG. 7 is a flowchart showing the implementation of step S42 in intelligent snoring prevention by adjusting the height of the pillow according to an embodiment of the present application;

FIG. 8 is a schematic block diagram of intelligent snoring prevention by adjusting the height of a pillow in an embodiment of the present application;

fig. 9 is a schematic diagram of an apparatus in an embodiment of the present application.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

In an embodiment, as shown in fig. 1, the application discloses an intelligent snore stopping method by adjusting the height of a pillow, which specifically comprises the following steps:

s10: and acquiring a sleep start signal of a user, generating initial adjustment information of the pillow inflator device, and triggering a head pressure sensing instruction.

In this embodiment, the pillow inflator device initial adjustment information refers to information for initially adjusting the pillow height. The head pressure sensing instruction is generated by acquiring head pressure information.

Specifically, through being provided with the gasbag in the pillow, the gasbag is connected with the device that is used for inflating and gassing for the gasbag, the gasbag is inflated and is deflated the device and is adjusted the air velocity through the pneumatic valve and be used for the pressure sensing device of sensing pillow surface, thereby acquire the user to mattress pressure information, generate user's sleep start signal, adjust the inflator device and inflate the instruction, through the signal of inflation courage inflation that is generated, after the air pipe is obtained to the air valve, the gasbag inflation instruction, generate trachea, pneumatic valve, gasbag simultaneous working operation information, simultaneously pressure sensor generates and monitors head pressure signal and inflate the instruction to pillow air spring, generate the first debugging pillow height's information, simultaneously acquire user's head to pillow pressure information, trigger head pressure sensing instruction according to user's head to pillow pressure information, monitor user's head to pillow pressure information in real time.

S20: and acquiring pressure sensing data according to the head pressure sensing instruction, and generating sleeping information of the user according to the pressure sensing data.

In this embodiment, the pressure sensing data refers to sensing data generated by acquiring a head pressure sensing instruction. The user sleep information refers to information of the monitored sleep state of the user.

Specifically, according to the pressure sensing instruction of the head, real-time pressure data of the head to the pillow is obtained, pressure sensing data of the head is generated, meanwhile, information of a sleep state of a user is obtained, daily sleeping habit information of the user is generated, and personalized sleeping advice information is generated according to the daily sleeping habit information of the user, and the method comprises the following steps: adjusting bedroom environment information, optimizing sleeping posture information, arranging reasonable sleeping time information, acquiring light brightness information and temperature information in a room according to the adjusted bedroom environment information, confirming through a sleeping information database, and sending the most suitable bedroom environment information to a mobile terminal, for example: the mobile phone, the tablet, obtain the pressure variation value simultaneously, generate the body pressure variation information, through the body pressure variation information, generate and optimize the sleep posture information, obtain the head pressure response data simultaneously, confirm user's sleep information, obtain reminding user's sleep instruction, generate reasonable sleep time information and send to mobile terminal, according to snore recognizer, acquire the snore information in real time, generate and generate user's sleep information

It is understood that the snore identifier refers to a sensor that obtains snore data in real time.

S30: and obtaining a snore sensing instruction according to the sleeping information of the user, generating snore sensing feedback information, and generating snore waveform data, breathing interval data and snore decibel data according to the snore sensing feedback information.

In this embodiment, the snore sensing instruction refers to an instruction for sensing snore generated according to sleep information of a user. The sensing feedback information refers to snore sensing feedback information generated by a command to sense snore.

Specifically, while the sleep information of the user is acquired, a snore monitoring instruction is generated, a snore sensing instruction is acquired, snore sensing feedback information is generated through the snore sensing instruction, and snore waveform data, breathing interval data and snore decibel data are extracted according to the snore sensing feedback information.

S40: and identifying through a snore database according to the snore waveform data, the gap data during breathing and the snore decibel data, and generating a pillow lifting adjusting instruction after identifying.

In this embodiment, the snore database refers to a database that can analyze the obtained snore waveform data, the gap data during breathing, and the snore db data.

Specifically, the snore waveform data, the gap data during breathing and the snore decibel data are identified through the snore database, the snore numerical value of the user in the sleeping process is identified, meanwhile, the information of the neck and the position of the pillow is acquired, an instruction for adjusting the height of the pillow is generated, and the snore of the user is reduced through adjusting the height of the pillow.

In one embodiment, as shown in fig. 2, in step S10, a sleep start signal of a user is acquired, initial adjustment information of the pillow inflator device is generated, and a head pressure sensing instruction is triggered, which specifically includes:

s11: and acquiring pillow height data according to the sleep start signal of the user, and generating initial adjustment information of the pillow inflator device according to the pillow height data.

In this embodiment, the pillow height data refers to pillow height data generated by acquiring a sleep signal of a user to generate a pillow inflation instruction.

Specifically, according to a user sleep start signal, generating user sleep habit information, generating a pillow height adjusting instruction, ensuring perfect matching between the user sleep start signal and the head and neck curves of a user, acquiring pillow height data, generating pillow initial adjustment information including inflator inflation pressure information, exhaust speed information and inflation capacity information according to actual operation characteristics of an inflator device, generating a pillow inflator device adjusting instruction according to user body type and sleep posture change information, and simultaneously considering special requirements of the user, cervical vertebra problems and hypertension, adjusting inflation pressure and inflation capacity of the inflator for the user with cervical vertebra problems, and generating a soft and neck-fitting pillow height. For patients with hypertension, pillow data with a buffer function is generated, so that blood pressure fluctuation in the sleeping process is reduced, the sleeping quality of a user is improved, and snore is reduced.

S12: and adjusting the pillow to the height value selected by the user according to the initial adjustment information of the pillow inflator device, and triggering a head pressure sensing instruction.

Specifically, according to the initial adjustment information of the pillow inflator device, the pillow is adjusted to the height value of the pillow selected by the user, the inflation amount of the pillow inflator device is adjusted according to the height value of the pillow selected by the user, the proper supporting force can be provided by the pillow, meanwhile, the triggering mechanism of the head pressure sensing instruction is obtained, the pressure change can be accurately sensed when the head of the user is monitored in real time to place the pillow, so that the hardness of the pillow is automatically adjusted, meanwhile, safety problem information in the inflation process is generated, and damage to the pillow and the user in the inflation process is prevented.

In one embodiment, as shown in fig. 3, in step S20, pressure sensing data is obtained according to a head pressure sensing instruction, and user sleep information is generated according to the pressure sensing data, which specifically includes:

s21: and acquiring head position information of the user according to the head pressure sensing instruction, and acquiring pressure sensing data according to the head position of the user.

In this embodiment, the user head position information refers to user head position information generated by acquiring the head pressure sensing data.

Specifically, the head position information is acquired, the head position information and the body posture information of the user are generated, the head position of the user is acquired according to the position and posture information of the head of the user, the ongoing activity information is generated, the activity and sleep starting information of the user are identified, the corresponding height instruction is generated for the pillow, meanwhile, the head change data is identified, so that the corresponding adjustment instruction is generated, meanwhile, the pressure sensing parameter information of the device is adjusted, and the device adapts to different use scenes and user requirements, for example, when different pressure values of the user on the pillow are acquired, and when the user is analyzed and identified to perform certain activities needing to concentrate attention, the following steps are performed: when a user works and reads books, the sensitivity of the pressure sensing is reduced, so that uncomfortable feeling of the user is reduced, and when the user performs other activities, the sensitivity of the pressure sensing is improved, so that the head state of the user can be tracked better.

S22: and identifying the pressure sensing data through a preset sleep sensing information base according to the pressure sensing data, and generating the sleep information of the user.

Specifically, according to the pressure sensing data, the preset sleep sensing information base carries out data sleeve sorting on the pressure sensing data, analyzes the pressure signal data and identifies the pressure sensing data, and generates sleep information of a user according to the pressure signal data and the pressure sensing data identification

It should be understood that the preset sleep perception information base refers to a database for monitoring the sleep state of the user in real time.

In one embodiment, as shown in fig. 4, in step S30, namely, according to sleep information of a user, a snore sensing instruction is obtained, snore sensing feedback information is generated, and according to the snore sensing feedback information, snore waveform data, breathing interval data and snore decibel data are generated, which specifically includes:

s31: and monitoring the sleep information of the user through the sleep perception information base according to the sleep information of the user, and generating sleep perception feedback information according to the sleep information of the user.

Specifically, according to the sleep information of the user, the sleep information of the user is identified through the sleep perception information base, the sleep information of the user is generated, the user sleep information monitoring instruction is obtained, the sleep information of the user is monitored, and the sleep perception feedback information of the user is generated according to the monitored sleep information of the user.

S32: and identifying snore data according to sleep perception feedback information, and generating snore waveform data, gap data during breathing and snore decibel data information according to the snore data.

Specifically, the user sleep information is monitored in real time, and feedback information is perceived according to the user sleep. And identifying snore data information of the user, and identifying snore waveform data, gap data during breathing and snore decibel data information of the user according to the snore data.

In one embodiment, as shown in fig. 5, in step S31, user sleep information is acquired, and the user sleep information is monitored through a sleep perception information base to generate sleep perception feedback information, which specifically includes:

s321: generating a neck position monitoring instruction according to the sleeping information of the user, and generating neck position information by monitoring the neck position instruction of the user.

Specifically, according to the sleeping information of the user, sleeping posture information of the user in the sleeping process is generated, meanwhile, neck position monitoring instructions of the user are obtained, neck position monitoring instructions of the user are generated, and neck position information of the user in the sleeping process is generated according to the neck position monitoring instructions of the user.

S322: and monitoring the positions of the neck and the pillow of the user according to the neck position information, and generating sleep perception feedback information according to the positions of the neck and the pillow of the user.

Specifically, according to the neck position information, the neck and pillow position information of the user is generated and monitored, and according to the neck and pillow position information of the user, sleep perception feedback information of the user is generated.

In one embodiment, as shown in fig. 6, in step S40, the snore database is used to identify according to the snore waveform data, the gap data during breathing and the snore db data, and the step of generating the pillow lifting adjustment instruction after identifying specifically includes:

s41: and according to the snore waveform data, the gap data during breathing and the snore decibel data, comparing the snore waveform data with a snore alarm threshold value in a snore database to generate a snore comparison result.

Specifically, according to the snore waveform data, the gap data during breathing and the snore decibel data, the snore waveform data is compared with the snore data in the snore database to generate a snore comparison result. And sending out a lifting high-low instruction to the height of the pillow according to the comparison result.

S42: and according to the snore comparison result, the snore comparison result is larger than a preset snore alarm threshold value, the neck and pillow position information of the user is obtained, and a pillow lifting adjusting instruction is generated.

Specifically, according to the comparison of snore and the position information of the user neck and the pillow, frequent turn-over or movement data in the sleeping process is obtained, a pillow height adjusting instruction is generated to provide more comfortable neck support, meanwhile, the sleeping habit and preference of the user are provided, a personalized pillow lifting scheme is provided to help the user obtain better sleeping quality, and according to the using habit and the data analysis result of the user, a proper pillow type and height are generated, for example, according to the body shape and the sleeping requirement of the user, the proper pillow type and height are recommended to provide support for more fitting the body.

In one embodiment, as shown in fig. 7, in step S42, according to the snore comparison result being greater than the preset snore alarm threshold, the neck and pillow position information of the user is obtained, and a pillow lifting adjustment instruction is generated, which specifically includes:

s421: generating pillow lifting frequency information according to the pillow lifting adjusting instruction.

Specifically, by acquiring the pillow lifting instruction, pillow lifting information is recorded in real time, and pillow lifting frequency information is generated.

S422: and simultaneously analyzing the minimum value of the snore data in the snore database according to the pillow lifting information, and generating the optimal pillow height information according to the minimum value of the snore data in the snore database.

Specifically, when the snore data is the minimum value in the snore database, the analyzed optimal pillow height information is used for generating solution information which is more fit with the sleeping requirement of the user by adjusting the lifting height of the pillow, the minimum value of the snore data in the snore database is identified, the body type and sleeping habit data of the user are analyzed, the occurrence of the snore can be reduced, the sleeping quality is improved, the user can feel more comfortable sleeping experience, the pillow height data currently used by the user are acquired through the pillow lifting information, basic information of the user such as the height and the body type information is acquired, preliminary pillow height evaluation is performed, the snore data are analyzed, the snore condition of the user at the specific pillow height can be known through the minimum value of the snore data in the snore database, the relevance between the snore and the pillow height is acquired, and personalized pillow height suggestions are further provided for each user.

S423: according to the optimal pillow height information, a pillow lifting adjusting instruction is automatically generated through a sleep perception information base.

Specifically, according to the optimal pillow height information, the sleep quality of a user is continuously monitored through a sleep perception information base, the pillow height is adjusted in real time to provide the most suitable sleep environment, the user turns over or moves, the change is perceived, a pillow position adjusting instruction is generated to keep the natural curve of the head and the neck of the user, the conditions of snoring caused by stiff neck and neck pain and narrowing of the respiratory tract are reduced, and the pillow height value when the snoring is minimum is automatically adjusted when the next sleep information of the user is detected.

It should be understood that the sequence number of each step in the foregoing embodiment does not mean that the execution sequence of each process should be determined by the function and the internal logic of each process, and should not limit the implementation process of the embodiment of the present application in any way.

In one embodiment, an intelligent snore stopping device capable of adjusting the height of the pillow is provided, and the intelligent snore stopping device capable of adjusting the height of the pillow corresponds to the intelligent snore stopping method capable of adjusting the height of the pillow in one-to-one correspondence. As shown in fig. 8, the intelligent snore relieving device by adjusting the height of the pillow comprises an instruction generating module, an information generating module, a snore data analyzing module and an instruction operating module. The functional modules are described in detail as follows:

the instruction generation module is used for acquiring a sleep start signal of a user, generating initial adjustment information of the pillow inflator device and triggering a head pressure sensing instruction;

the information generation module is used for acquiring pressure sensing data according to the head pressure sensing instruction and generating sleeping information of a user according to the pressure sensing data;

the snore data analysis module is used for acquiring a snore perception instruction according to sleeping information of a user, generating snore perception feedback information, and generating snore waveform data, breathing interval data and snore decibel data according to the snore perception feedback information;

the instruction operation module is used for identifying through the snore database according to the snore waveform data, the gap data during breathing and the snore decibel data, and generating an instruction for adjusting the lifting of the pillow after identifying.

Optionally, the instruction generating module includes:

the acquisition signal submodule is used for acquiring pillow height data according to a sleep start signal of a user and generating initial adjustment information of the pillow inflator device according to the pillow height data;

and the induction instruction generation sub-module is used for adjusting the pillow to the height value of the pillow selected by the user according to the initial adjustment information of the pillow inflator device and triggering the head pressure induction instruction.

Optionally, the information generating module includes:

the pressure sensing data sub-module is used for acquiring head position information of a user according to the head pressure sensing instruction and acquiring pressure sensing data according to the head position of the user;

the sleep information generation sub-module is used for identifying the pressure sensing data through a preset sleep sensing information base according to the pressure sensing data and generating sleep information of the user.

Optionally, the snore data analysis module includes:

the feedback information generation sub-module is used for monitoring the sleep information of the user through the sleep perception information base according to the sleep information of the user and generating sleep perception feedback information according to the sleep information of the user;

the snore identification sub-module is used for identifying snore data according to sleep perception feedback information, and generating snore waveform data, gap data during breathing and snore decibel data information according to the snore data.

Optionally, the generating feedback information submodule includes:

the neck recognition unit is used for generating a neck position monitoring instruction according to the sleeping information of the user and generating neck position information according to the neck position monitoring instruction;

and the sensing feedback information unit is used for monitoring the positions of the neck and the pillow of the user according to the neck position information and generating sleep sensing feedback information according to the positions of the neck and the pillow of the user.

Optionally, the instruction operation module includes:

the comparison result submodule is used for generating a snore comparison result by comparing the snore waveform data, the gap data during breathing and the snore decibel data with a snore alarm threshold value in a snore database;

the generation regulation command submodule is used for acquiring the neck and pillow position information of a user according to the snore comparison result which is larger than a preset snore alarm threshold value and generating a regulation pillow lifting command.

Optionally, generating the adjustment instruction submodule includes:

the times recording unit is used for generating pillow lifting times information according to the pillow lifting adjusting instruction;

the height information generating unit is used for simultaneously analyzing the minimum value of the snore data in the snore database according to the pillow lifting information and generating the optimal pillow height information according to the minimum value of the snore data in the snore database;

and the lifting adjusting unit is used for automatically generating a pillow lifting adjusting instruction through the sleep perception information base according to the optimal pillow height information.

For specific limitations of the intelligent snore stopping device by adjusting the height of the pillow, reference may be made to the above limitation of the intelligent snore stopping method by adjusting the height of the pillow, and the details are not repeated here. All or part of the modules in the intelligent snore relieving device through adjusting the height of the pillow can be realized through software, hardware and the combination thereof. The above modules may be embedded in hardware or may be independent of a processor in the computer device, or may be stored in software in a memory in the computer device, so that the processor may call and execute operations corresponding to the above modules.

In one embodiment, a computer device is provided, which may be a server, and the internal structure of which may be as shown in fig. 9. The computer device includes a processor, a memory, a network interface, and a database connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device includes a non-volatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, computer programs, and a database. The internal memory provides an environment for the operation of the operating system and computer programs in the non-volatile storage media. The database of the computer device is used for a sleep perception information base. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program, when executed by the processor, implements an intelligent snore stopping method by adjusting the height of the pillow.

In one embodiment, a computer device is provided comprising a memory, a processor, and a computer program stored on the memory and executable on the processor, the processor implementing the steps of when executing the computer program:

acquiring a sleep start signal of a user, generating initial adjustment information of the pillow inflator device, and triggering a head pressure sensing instruction;

acquiring pressure sensing data according to the head pressure sensing instruction, and generating sleeping information of a user according to the pressure sensing data;

according to sleeping information of a user, a snore sensing instruction is acquired, snore sensing feedback information is generated, and snore waveform data, breathing interval data and snore decibel data are generated according to the snore sensing feedback information;

and identifying through a snore database according to the snore waveform data, the gap data during breathing and the snore decibel data, and generating a pillow lifting adjusting instruction after identifying.

In one embodiment, a computer readable storage medium is provided having a computer program stored thereon, which when executed by a processor, performs the steps of:

acquiring a sleep start signal of a user, generating initial adjustment information of the pillow inflator device, and triggering a head pressure sensing instruction;

acquiring pressure sensing data according to the head pressure sensing instruction, and generating sleeping information of a user according to the pressure sensing data;

according to sleeping information of a user, a snore sensing instruction is acquired, snore sensing feedback information is generated, and snore waveform data, breathing interval data and snore decibel data are generated according to the snore sensing feedback information;

and identifying through a snore database according to the snore waveform data, the gap data during breathing and the snore decibel data, and generating a pillow lifting adjusting instruction after identifying.

Those skilled in the art will appreciate that implementing all or part of the above-described methods in accordance with the embodiments may be accomplished by way of a computer program stored on a non-transitory computer readable storage medium, which when executed may comprise the steps of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in the various embodiments provided herein may include non-volatile and/or volatile memory. The nonvolatile memory can include Read Only Memory (ROM), programmable ROM (PROM), electrically Programmable ROM (EPROM), electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), dynamic RAM (DRAM), synchronous DRAM (SDRAM), double Data Rate SDRAM (DDRSDRAM), enhanced SDRAM (ESDRAM), synchronous Link DRAM (SLDRAM), memory bus direct RAM (RDRAM), direct memory bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM), among others.

It will be apparent to those skilled in the art that, for convenience and brevity of description, only the above-described division of the functional units and modules is illustrated, and in practical application, the above-described functional distribution may be performed by different functional units and modules according to needs, i.e. the internal structure of the apparatus is divided into different functional units or modules to perform all or part of the above-described functions.

The above embodiments are only for illustrating the technical solution of the present application, and are not limiting thereof; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present application, and are intended to be included in the scope of the present application.

Claims (10)

1. The intelligent snore stopping method by adjusting the height of the pillow is characterized by comprising the following steps of:

acquiring a sleep start signal of a user, generating initial adjustment information of the pillow inflator device, and triggering a head pressure sensing instruction;

acquiring pressure sensing data according to the head pressure sensing instruction, and generating user sleep information according to the pressure sensing data;

obtaining a snore perception instruction according to the sleeping information of the user, generating snore perception feedback information, and generating snore waveform data, breathing interval data and snore decibel data according to the snore perception feedback information;

and identifying through a snore database according to the snore waveform data, the gap data during breathing and the snore decibel data, and generating a pillow lifting adjusting instruction after identifying.

2. The intelligent snore relieving method by adjusting the height of a pillow according to claim 1, wherein the step of obtaining a sleep start signal of a user, generating initial adjustment information of a pillow inflator device, and triggering a head pressure sensing instruction comprises the following steps:

acquiring pillow height data according to the sleep start signal of the user, and generating initial adjustment information of the pillow inflator device according to the pillow height data;

and adjusting the pillow height value selected by a user according to the initial adjustment information of the pillow inflator device, and triggering the head pressure sensing instruction.

3. The intelligent snore relieving method by adjusting the height of a pillow according to claim 1, wherein the step of obtaining pressure sensing data according to the head pressure sensing instruction and generating user sleep information according to the pressure sensing data specifically comprises the steps of:

acquiring head position information of a user according to the head pressure sensing instruction, and acquiring pressure sensing data according to the head position of the user;

and identifying the pressure sensing data through a preset sleep sensing information base according to the pressure sensing data, and generating the sleep information of the user.

4. The intelligent snore stopping method by adjusting the height of a pillow according to claim 1, wherein the steps of obtaining a sensing instruction according to the sleeping information of the user, generating sensing feedback information, and generating snore waveform data, gap data during breathing and snore decibel data according to the sensing feedback information comprise the following steps:

monitoring the sleep information of the user through the sleep perception information base according to the sleep information of the user, and generating sleep perception feedback information according to the sleep information of the user;

and identifying snore data according to the sleep perception feedback information, generating the snore waveform data according to the snore data, and generating gap data and the snore decibel data information during breathing.

5. The intelligent snore relieving method by adjusting the height of a pillow according to claim 4, wherein the steps of monitoring the sleep information of the user through the sleep perception information base according to the sleep information of the user and generating sleep perception feedback information according to the sleep information of the user comprise the following steps:

generating a neck position monitoring instruction according to the sleeping information of the user, and generating neck position information according to the neck position monitoring instruction of the user;

and monitoring the positions of the neck and the pillow of the user according to the neck position information, and generating the sleep perception feedback information according to the positions of the neck and the pillow of the user.

6. The intelligent snore stopping method by adjusting the height of a pillow according to claim 1, wherein the step of generating a pillow lifting adjusting instruction after recognition according to the snore waveform data, the gap data during breathing and the snore decibel data through a snore database specifically comprises the following steps:

according to the snore waveform data, the gap data during breathing and the snore decibel data, comparing the gap data with a snore alarm threshold in the snore database to generate a snore comparison result;

and acquiring the neck and pillow position information of the user according to the snore comparison result, which is larger than the preset snore alarm threshold value, and generating the pillow lifting adjusting instruction.

7. The intelligent snore relieving method by adjusting the height of a pillow according to claim 6, wherein the step of obtaining the information of the neck and the pillow position of the user according to the snore comparison result being larger than the preset snore alarm threshold value and generating the instruction for adjusting the pillow lifting specifically comprises the following steps:

generating pillow lifting frequency information according to the pillow lifting adjusting instruction;

according to the pillow lifting information, analyzing the minimum snore data in the snore database at the same time, and generating optimal pillow height information according to the minimum snore data in the snore database;

and automatically generating the pillow lifting adjusting instruction through the sleep perception information base according to the optimal pillow height information.

8. An intelligent snore relieving device by adjusting the height of a pillow, which is characterized by comprising:

the instruction generation module is used for acquiring a sleep start signal of a user, generating initial adjustment information of the pillow inflator device and triggering a head pressure sensing instruction;

the information generation module is used for acquiring pressure sensing data according to the head pressure sensing instruction and generating sleeping information of a user according to the pressure sensing data;

the snore data analysis module is used for acquiring a snore perception instruction according to the sleeping information of the user, generating snore perception feedback information, and generating snore waveform data, breathing interval data and snore decibel data according to the snore perception feedback information;

the instruction operation module is used for identifying through a snore database according to the snore waveform data, the gap data during breathing and the snore decibel data, and generating an instruction for adjusting the pillow to lift after identifying.

9. A computer device comprising a memory, a processor and a computer program stored in the memory and executable on the processor, characterized in that the processor, when executing the computer program, realizes the steps of the intelligent snore stopping method by adjusting the pillow height as claimed in any one of claims 1 to 7.

10. A computer readable storage medium storing a computer program, characterized in that the computer program when executed by a processor implements the steps of the intelligent snore stopping method by adjusting pillow height according to any of claims 1 to 7.