CN116076894A - Sleep awakening method and device, intelligent bed and storage medium - Google Patents

Abstract

The application relates to a sleep awakening method, a sleep awakening device, an intelligent bed and a storage medium, wherein the sleep awakening method comprises the following steps: acquiring pressure values sensed by different areas of the bed body, and determining user parameters according to the pressure values, wherein the user parameters comprise sleeping postures of a user; and under the condition that the sleeping position of the user is determined to be the supine sleeping position, the user is allowed to wake up by lifting a bedside motor arranged on the bed body. Therefore, whether the user is in a supine sleeping position currently can be judged according to the sleeping position of the user, if the user is in the supine sleeping position currently, the user is allowed to be awakened by lifting the bedside motor arranged on the bed body, so that the situation that the user is sprain or uncomfortable when the user is in a lateral or prone position is avoided, and the potential safety hazard of the intelligent bed is greatly reduced.

Description

Sleep awakening method and device, intelligent bed and storage medium

Technical Field

The application relates to the technical field of intelligent home, in particular to a sleep awakening method, a sleep awakening device, an intelligent bed and a storage medium.

Background

Along with the rising of the intelligent bed, the intelligent bed is developed towards function diversification, wherein the intelligent wake-up function is one of main functions of the intelligent bed, and becomes a propaganda selling point of each manufacturer.

At present, the intelligent wake-up function of the intelligent bed still stays in a semi-intelligent state, namely, wake-up actions need to be executed according to human setting scenes, for example, when a user is in a deep sleep state, the user is woken up by playing music, and when the user is in a shallow sleep state, the user is woken up by lifting a bedside motor or massaging the user, and the like. Therefore, when the user needs to be awakened by lifting the bedside motor and the sleeping posture of the user is lateral or prone, the situation that the user is sprained or uncomfortable is easily caused, and accordingly, the potential safety hazard is large.

Disclosure of Invention

The application provides a sleep awakening method, a sleep awakening device, an intelligent bed and a storage medium, so as to solve the problem that the existing intelligent awakening mode has larger potential safety hazard.

In a first aspect, an embodiment of the present application provides a sleep wake-up method, where the method includes:

acquiring pressure values sensed by different areas of the bed body, and determining user parameters according to the pressure values, wherein the user parameters comprise sleeping postures of a user;

and under the condition that the sleeping position of the user is determined to be the supine sleeping position, the user is allowed to wake up by lifting a bedside motor arranged on the bed body.

Optionally, the user parameter further includes the number of users;

under the condition that the sleeping position of the user is determined to be the supine sleeping position, the user is allowed to be awakened by lifting the bedside motor arranged on the bed body, and the method comprises the following steps:

determining the number of the user numbers;

under the condition that the number of the users is determined to be one and the sleeping position of the user corresponding to the user is a supine sleeping position, the user is allowed to wake up by lifting the bedside motor;

and under the condition that the number of the users is multiple and the sleeping postures of the users corresponding to the multiple users are all supine sleeping postures, the multiple users are allowed to wake up by lifting the bedside motor.

Optionally, the user parameters further include a user position, the bedside motor includes a first motor and a second motor, the first motor is used for lifting a first bedside area of the bed body, the second motor is used for lifting a second bedside area of the bed body, and the bed body bedside includes the first bedside area and the second bedside area;

under the condition that the number of the users is multiple, and the sleeping postures of the users corresponding to the users are all supine sleeping postures, the method for waking up the users by lifting the bedside motor comprises the following steps:

judging whether a user with a head simultaneously positioned in the first head area and the second head area exists or not based on the user position;

in the event that it is determined that there are users with their heads simultaneously located in the first and second head areas, refusing to wake up a plurality of the users by lifting the first and second motors;

under the condition that no head exists and the users located in the first bedside area and the second bedside area simultaneously are determined, judging whether the sleeping postures of all the users in the first bedside area and the second bedside area are all supine sleeping postures or not respectively;

and allowing the user with the head in the first bedside area to wake up by lifting the first motor under the condition that the sleeping postures of all the users with the head in the first bedside area are confirmed to be supine sleeping postures, and/or allowing the user with the head in the second bedside area to wake up by lifting the second motor under the condition that the sleeping postures of all the users with the head in the second bedside area are confirmed to be supine sleeping postures.

Optionally, after the determining the number of users, the method further includes:

and stopping executing the wake-up action under the condition that the number of the user numbers is zero.

Optionally, after the acquiring the pressure values sensed by different areas of the bed body and determining the user parameters according to the pressure values, the method further includes:

and under the condition that the sleeping position of the user is determined to be the prone sleeping position or the side sleeping position, refusing to wake the user by lifting the bedside motor, and allowing other wake-up devices except for the bedside motor to wake the user, wherein the other wake-up devices comprise at least one of a music player and a massager.

Optionally, the acquiring the pressure values sensed by different areas of the bed body and determining the user parameters according to the pressure values includes:

acquiring preset wake-up time;

under the condition that the current time reaches the wake-up time, pressure values sensed by different areas of the bed body are obtained through pressure sensors arranged in the different areas of the bed body;

and inputting the pressure value into a preset model, and predicting to obtain the user parameter.

In a second aspect, an embodiment of the present application further provides a sleep wake-up device, where the device includes:

the acquisition and determination module is used for acquiring pressure values sensed by different areas of the bed body and determining user parameters according to the pressure values, wherein the user parameters comprise sleeping postures of a user;

and the first awakening module is used for allowing a user to be awakened by lifting a bedside motor arranged on the bed body under the condition that the sleeping position of the user is determined to be a supine sleeping position.

In a third aspect, an embodiment of the present application further provides an intelligent bed, where the intelligent bed includes a bed body, a bed head motor disposed on the bed body, and a control unit electrically connected to the bed head motor, where the control unit is configured to execute the steps of the sleep wake-up method according to any one of the embodiments of the first aspect.

In a fourth aspect, embodiments of the present application further provide a computer readable storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of the sleep wake-up method according to any of the embodiments of the first aspect.

In the embodiment of the application, the pressure values sensed by different areas of the bed body are obtained, and the user parameters are determined according to the pressure values, wherein the user parameters comprise sleeping postures of the user; and under the condition that the sleeping position of the user is determined to be the supine sleeping position, the user is allowed to wake up by lifting a bedside motor arranged on the bed body. Through the mode, whether the user is in the supine sleeping position currently can be judged according to the sleeping position of the user, if the user is in the supine sleeping position currently, the user is allowed to be awakened by lifting the bedside motor arranged on the bed body, so that the situation that the user is sprained or uncomfortable when the user is in the lateral or prone sleeping position is avoided, and the potential safety hazard of the intelligent bed is greatly reduced.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the invention and together with the description, serve to explain the principles of the invention.

In order to more clearly illustrate the embodiments of the invention or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, and it will be obvious to a person skilled in the art that other drawings can be obtained from these drawings without inventive effort.

Fig. 1 is a schematic flow chart of a sleep wake-up method according to an embodiment of the present application;

fig. 2 is a flow chart of another sleep wake-up method according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of a sleep wake-up device according to an embodiment of the present application.

Detailed Description

For the purposes of making the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present application based on the embodiments herein.

Referring to fig. 1, fig. 1 is a flow chart of a sleep wake-up method according to an embodiment of the present application. As shown in fig. 1, the sleep wake-up method specifically may include the following steps:

and 101, acquiring pressure values sensed by different areas of the bed body, and determining user parameters according to the pressure values, wherein the user parameters comprise sleeping postures of the user.

Specifically, the pressure value refers to a pressure value of the human body on the bed body, and the pressure value may be obtained by a pressure sensing device, such as a pressure sensor. The user parameters may include, but are not limited to, user sleeping position, number of users, user location, etc. parameter information. The determination mode of the user parameters can be obtained by reasoning the pressure values sensed by different areas of the bed body through a preset sleeping gesture recognition model, or can be obtained through other modes, and the embodiment of the application is not particularly limited. Before the preset sleeping gesture recognition model is used for reasoning the pressure values sensed by different areas of the bed body to obtain the sleeping gesture of the user, a plurality of training samples are needed to be obtained, each training sample comprises a picture sample corresponding to a certain sleeping gesture of the user on the bed body and the pressure value samples sensed by different areas of the bed body corresponding to the picture sample, then the plurality of training samples are input into the model to be trained for iterative training, and finally the preset sleeping gesture recognition model is obtained through training. Therefore, when the user parameters are obtained by reasoning the pressure values sensed by the different areas of the bed body through the preset sleeping gesture recognition model, the user pictures can be obtained directly based on the pressure values sensed by the different areas of the bed body, and further the user parameters are obtained.

Of course, the bed can be switched to the sleep information acquisition mode through the remote controller when the intelligent bed is used for the first time, at the moment, the pressure distribution conditions corresponding to different sleeping postures of the user on the intelligent bed can be acquired through the pressure sensing device, and the acquired pressure value distribution conditions are recorded. Then, the bed is switched to a use mode through the remote controller, and when a user sleeps on the bed, the bed can identify the personnel on the bed and the sleeping posture of the personnel.

Step 102, under the condition that the sleeping position of the user is determined to be the supine sleeping position, the user is allowed to wake up by lifting a bedside motor arranged on the bed body.

Specifically, the user sleeping positions may include a supine sleeping position, a prone sleeping position, a lateral sleeping position, and the like, wherein the supine sleeping position refers to a lying sleeping position with the face of the human body facing upwards, the prone sleeping position refers to a lying sleeping position with the face of the human body facing downwards, and the lateral sleeping position refers to a sleeping position in both lateral directions of the human body lateral bed body. The bed head motor is arranged at the bed head position and used for lifting the bed head position, and a user can be awakened by lifting the head of the user. Of course, besides waking up the user by lifting the bed head motor arranged on the bed body, the user can also be woken up by other modes, such as playing music, massaging the user, and the like.

In this embodiment, whether the user is currently in a supine sleeping position can be determined according to the sleeping position of the user, if the user is currently in the supine sleeping position, the user is allowed to wake up by lifting the bedside motor arranged on the bed body, so that the situation that the user is sprained or uncomfortable when the user is in a lateral or prone position is avoided, and the potential safety hazard of the intelligent bed is greatly reduced.

Further, the user parameters further include the number of users; step 102, allowing a user to wake up by lifting a bed head motor arranged on the bed body under the condition that the sleeping position of the user is determined to be a supine sleeping position, including:

determining the number of the user number;

under the condition that the number of the users is determined to be one and the sleeping position of the user corresponding to the user is the supine sleeping position, the user is allowed to wake up by lifting the bedside motor;

under the condition that the number of the users is multiple, and the sleeping postures of the users corresponding to the multiple users are all supine sleeping postures, the multiple users are allowed to wake up by lifting the bedside motor.

In one embodiment, when determining whether to allow the user to wake up by lifting the headboard motor arranged on the bed body according to the sleeping gesture of the user, the number of users needs to be comprehensively considered to make a judgment. Specifically, when the number of the users is one, only whether the sleeping position of the user is a supine sleeping position needs to be considered, and if so, the user is allowed to wake up by lifting the bedside motor; if not, the user is refused to wake up by lifting the bedside motor. When the number of the users is a plurality of, simultaneously considering whether the sleeping postures of the users are all supine sleeping postures, if so, allowing the users to wake up by lifting the bedside motor; if not, the user is refused to wake up by lifting the bedside motor. It should be noted that, the headboard motor in the embodiment of the present application is used to lift the whole headboard area. For example, when the number of users is 2, it is necessary to consider simultaneously whether all 2 users are in the supine sleeping position, and if the sleeping position of 1 user or 2 users is not the supine sleeping position, the entire head area is not allowed to be lifted. Therefore, the situation that part of users are sprained or uncomfortable due to lateral or prone lying can be avoided, and the safety of each user is effectively guaranteed.

Further, the user parameters further comprise a user position, the bedside motor comprises a first motor and a second motor, the first motor is used for lifting a first bedside area of the bed body, the second motor is used for lifting a second bedside area of the bed body, and the bed body bedside comprises the first bedside area and the second bedside area;

the above steps, when the number of the users is determined to be a plurality of, and the sleeping postures of the users corresponding to the plurality of users are all supine sleeping postures, the method for waking up the plurality of users by lifting the bedside motor comprises the following steps:

judging whether a user with a head simultaneously positioned in a first head area and a second head area exists or not based on the user position;

in the case that it is determined that there is a user whose head is located in both the first and second head areas, refusing to wake up the plurality of users by lifting the first and second motors;

under the condition that no user with the head simultaneously positioned in the first bedside area and the second bedside area is determined, judging whether the sleeping postures of all the users in the first bedside area and the second bedside area are all supine sleeping postures or not respectively;

and allowing the user with the head in the first bedside area to wake up by lifting the first motor under the condition that the sleeping postures of all the users with the head in the first bedside area are confirmed to be supine sleeping postures, and/or allowing the user with the head in the second bedside area to wake up by lifting the second motor under the condition that the sleeping postures of all the users with the head in the second bedside area are confirmed to be supine sleeping postures.

In one embodiment, when the headboard motor includes a first motor and a second motor, a combination of user sleeping positions, number of users, and user positions are required to determine whether to allow the user to wake up by lifting the headboard motor. Specifically, it is necessary to determine whether there is a user whose head is located in the first and second head areas at the same time based on the user position, and if there is a user whose head is located in the first and second head areas at the same time, it is described that lifting any motor may cause the user to roll over, resulting in poor sleep experience for the user, so that the user is not allowed to wake up by lifting the first and second motors at this time, but other wake-up modes may be adopted to wake up the user, such as a mode of playing music or massaging the user. If there is no user whose head is located in both the first and second head areas, it may be further determined whether all of the sleeping postures of the users in the first head area and all of the sleeping postures of the users in the second head area are supine sleeping postures, and if it is determined that all of the sleeping postures of the users whose head is located in the first head area are supine sleeping postures, the user whose head is located in the first head area is allowed to wake up by lifting the first motor, and/or if all of the sleeping postures of the users whose head is located in the second head area are supine sleeping postures, the user whose head is located in the second head area is allowed to wake up by lifting the second motor. Therefore, the first motor and the second motor can be controlled according to the user sleeping position of the user in the first bedside area and the user sleeping position of the user in the second bedside area, so that flexible control of the bedside motors is realized, and the safety of each user is effectively ensured.

Further, after the step of determining the number of users, the method further includes:

and stopping executing the wake-up action when the number of the users is zero.

In an embodiment, when the number of the users is zero according to the pressure value, the number indicates that no user is sleeping in the bed currently, and at this time, a wake-up action can not be executed, so that the power consumption is reduced.

Further, after the step 101 of obtaining the pressure values sensed by different areas of the bed body and determining the user parameters according to the pressure values, the method further includes:

in the case that the sleeping position of the user is determined to be the prone sleeping position or the side sleeping position, waking up the user by lifting the bedside motor is refused, and waking up the user by other waking up devices except the bedside motor is allowed, wherein the other waking up devices comprise at least one of a music player and a massager.

In an embodiment, after determining the user parameter according to the pressure value, if a bed head motor is arranged on the bed body to lift the whole bed head area, if only one user of the users has a prone sleeping position or a lateral sleeping position, the user is refused to wake up by lifting the bed head motor, and other wake-up devices such as a music player and a massager are allowed to wake up the user, so that the purpose of waking up the user is achieved. If two motors are arranged on the bed body to lift the first bed head area and the second bed head area respectively, if only one user of each bed head area is in prone sleeping position or side sleeping position, the user is refused to wake up by lifting the corresponding motor of the bed head area, and other wake-up devices such as a music player and a massager are allowed to wake up the user, so that the purpose of waking up the user is achieved. Therefore, not only can the situation that the user is sprained or uncomfortable caused by the user lying on one side or lying on the prone position be avoided, but also the user can be awakened, so that the sleeping experience of the user is further improved.

It should be noted that, the sleep awakening method provided by the embodiment of the application does not limit the number of motors, the number of the motors can be 2, 3, 4 or the number of the motors, but no matter how many motors are, the sleeping postures of the users in the bedside area corresponding to each motor can be judged, so that independent control of each motor is realized.

Further, the step 101 of obtaining the pressure values sensed by different areas of the bed body and determining the user parameters according to the pressure values includes:

acquiring preset wake-up time;

under the condition that the current time reaches the wake-up time, pressure values sensed by different areas of the bed body are obtained through pressure sensors arranged in the different areas of the bed body;

inputting the pressure value into a preset model, and predicting to obtain the user parameter.

In an embodiment, the user parameters may be obtained in real time or at a specified time, and it is obvious that the latter can save power better. When the user parameters are acquired at regular time, the preset awakening time can be acquired first, when the current time reaches the awakening time, the pressure values sensed by different areas of the bed body are acquired through the pressure sensors arranged in different areas of the bed body, then the pressure values are input into a preset model, the user parameters such as sleeping positions of the user, the number of the user, the position of the user and the like are obtained through prediction, and whether the user is awakened by lifting the bedside motor arranged on the bed body or not is conveniently judged based on the user parameters.

In an example, the sleep wakeup process, as shown in fig. 2, may include the steps of:

step 201, the user sets the wake-up alarm time and starts counting down.

Step 202, when the alarm clock countdown is zero, the pressure sensors detect the pressure values of different areas of the intelligent bed.

Step 203, judging whether a person is on the intelligent bed. If it is determined that a person is on the smart bed, step 204 is performed; if it is determined that no person is in the smart bed, step 205 is performed.

And 204, stopping executing the wake-up action at the alarm clock arrival point.

And 205, judging the number of people on the intelligent bed according to the pressure distribution conditions of different areas of the intelligent bed, and generating a human sleeping posture distribution map.

Step 206, judging whether the number of people on the intelligent bed is greater than 1. If the number of people on the smart bed is greater than 1, then step 208 is performed; if the number of people on the smart bed is equal to 1, step 207 is performed.

Step 207, judging whether the sleeping posture of the person lying on the bed is upward or not. If the sleeping posture of the person in the bed is lying down upwards, then step 214 is performed; if the sleeping position of the person in the bed is not lying flat upwards, step 211 is performed.

Step 208, judging whether the head of the intelligent bed is a left-right separated geographical control structure, if the head of the intelligent bed is not a left-right separated geographical control structure, executing step 209; if the head of the smart bed is a left-right separation independent control structure, step 210 is performed.

Step 209, determine whether the person lying on the bed is lying on his/her head in the bed head position. If it is determined that all the people on the bed lie flat upwards and the heads are all at the head positions, then step 214 is performed; if it is determined that the person on the bed is not lying down upwards and the head is in the head position, step 211 is performed.

Step 210, determining whether the head of the person is located on the left-right separation independent control structure at the same time, and if the head of the person is located on the left-right separation independent control structure at the same time, executing step 211; if the unmanned head is simultaneously located on the left-right separation independent control structure, executing step 212;

step 211, performing other wake-up actions, such as massaging, playing music, etc.

Step 212, judging whether the sleeping postures of the people on the left side and the right side of the intelligent bed lie upwards and lie flat, and the heads of the people are all at the head positions.

Step 213, performing a motor lifting wake-up action on the side meeting the sleeping gesture, and not performing other wake-up actions, such as massaging, playing music, etc.

Step 214, performing the lifting of the bed head motor to wake up.

Therefore, on the basis of hardware control of the existing intelligent bed, a pressure sensor is added, the pressure value obtained by detection of the pressure sensor is used for modeling a human body to form a human body sleeping posture distribution diagram, when an alarm clock is executed to wake up, the corresponding wake-up action is automatically matched according to the detection of the number of people in the bed, the judgment of the sleeping posture of the human body and the judgment of whether the separation and the independent control of the left and right sides of the bed head are carried out, the situation that the human body is sprained or uncomfortable for a user is avoided, and the true intelligent wake-up is realized.

Referring to fig. 3, fig. 3 is a schematic structural diagram of a sleep wake-up device according to an embodiment of the present application. As shown in fig. 3, the apparatus 300 includes:

the acquiring and determining module 301 is configured to acquire pressure values sensed by different regions of the bed body, and determine user parameters according to the pressure values, where the user parameters include sleeping postures of a user;

the first wake-up module 302 is configured to allow a user to wake up by lifting a bed head motor provided on the bed body in a case where the sleeping position of the user is determined to be a supine sleeping position.

Further, the user parameters further include the number of users;

the first wake-up module 302 includes:

the determining submodule is used for determining the number of the user number;

the first awakening sub-module is used for allowing the user to be awakened by lifting the bedside motor under the condition that the number of the users is determined to be one and the sleeping position of the user corresponding to the user is the supine sleeping position;

the second awakening sub-module is used for allowing the plurality of users to be awakened by lifting the bedside motor under the condition that the number of the users is multiple, and the sleeping postures of the users corresponding to the users are all supine sleeping postures. Further, the user parameters further comprise a user position, the bedside motor comprises a first motor and a second motor, the first motor is used for lifting a first bedside area of the bed body, the second motor is used for lifting a second bedside area of the bed body, and the bed body bedside comprises the first bedside area and the second bedside area;

further, the second wake-up submodule includes:

a first judging unit for judging whether there is a user whose head is located in both the first head area and the second head area based on the user position;

a first wake-up unit for refusing to wake up a plurality of users by lifting the first motor and the second motor in case that it is determined that there is a user whose head is located in both the first head area and the second head area;

a second judging unit for judging whether all the sleeping postures of the users in the first and second bedside areas are supine sleeping postures or not, respectively, under the condition that the users with no head simultaneously located in the first and second bedside areas are determined;

the second wake-up unit is used for allowing the user with the head located in the first bedside area to be waken up by lifting the first motor under the condition that the sleeping postures of all the users with the head located in the first bedside area are confirmed to be supine sleeping postures, and/or allowing the user with the head located in the second bedside area to be waken up by lifting the second motor under the condition that the sleeping postures of all the users with the head located in the second bedside area are confirmed to be supine sleeping postures.

Further, the first wake-up module 302 further includes:

and the execution stopping sub-module is used for stopping executing the wake-up action under the condition that the number of the determined user number is zero.

Further, the apparatus 300 further comprises:

the second wake-up module is used for refusing to wake up the user by lifting the bedside motor and allowing other wake-up devices except the bedside motor to wake up the user under the condition that the sleeping position of the user is determined to be the prone sleeping position or the side sleeping position, and the other wake-up devices comprise at least one of a music player and a massager.

Further, the acquiring and determining module 301 includes:

the first acquisition sub-module is used for acquiring preset wake-up time;

the second acquisition submodule is used for acquiring pressure values sensed by different areas of the bed body through pressure sensors arranged in different areas of the bed body under the condition that the current time reaches the wake-up time;

and the prediction sub-module is used for inputting the pressure value into a preset model and predicting to obtain the user parameter.

It should be noted that, the apparatus 300 may implement the steps of the sleep wake-up method provided in any one of the foregoing method embodiments, and may achieve the same technical effects, which are not described herein again.

In addition, the embodiment of the application also provides an intelligent bed, which comprises a bed body, a bed head motor arranged on the bed body, and a control unit electrically connected with the bed head motor, wherein the control unit is used for executing the steps of the sleep awakening method provided by any one of the method embodiments.

The present application also provides a computer readable storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of the sleep wakeup method provided in any one of the method embodiments described above.

It should be noted that in this document, relational terms such as "first" and "second" and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The foregoing is only a specific embodiment of the invention to enable those skilled in the art to understand or practice the invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A sleep arousal method, the method comprising:

acquiring pressure values sensed by different areas of the bed body, and determining user parameters according to the pressure values, wherein the user parameters comprise sleeping postures of a user;

and under the condition that the sleeping position of the user is determined to be the supine sleeping position, the user is allowed to wake up by lifting a bedside motor arranged on the bed body.

2. The method of claim 1, wherein the user parameters further comprise a number of users;

under the condition that the sleeping position of the user is determined to be the supine sleeping position, the user is allowed to be awakened by lifting the bedside motor arranged on the bed body, and the method comprises the following steps:

determining the number of the user numbers;

under the condition that the number of the users is determined to be one and the sleeping position of the user corresponding to the user is a supine sleeping position, the user is allowed to wake up by lifting the bedside motor;

and under the condition that the number of the users is multiple and the sleeping postures of the users corresponding to the multiple users are all supine sleeping postures, the multiple users are allowed to wake up by lifting the bedside motor.

3. The method of claim 2, wherein the user parameters further comprise a user position, the head of bed motor comprising a first motor for lifting a first head region of the bed and a second motor for lifting a second head region of the bed, the bed head comprising the first head region and the second head region;

under the condition that the number of the users is multiple, and the sleeping postures of the users corresponding to the users are all supine sleeping postures, the method for waking up the users by lifting the bedside motor comprises the following steps:

judging whether a user with a head simultaneously positioned in the first head area and the second head area exists or not based on the user position;

in the event that it is determined that there are users with their heads simultaneously located in the first and second head areas, refusing to wake up a plurality of the users by lifting the first and second motors;

under the condition that no head exists and the users located in the first bedside area and the second bedside area simultaneously are determined, judging whether the sleeping postures of all the users in the first bedside area and the second bedside area are all supine sleeping postures or not respectively;

and allowing the user with the head in the first bedside area to wake up by lifting the first motor under the condition that the sleeping postures of all the users with the head in the first bedside area are confirmed to be supine sleeping postures, and/or allowing the user with the head in the second bedside area to wake up by lifting the second motor under the condition that the sleeping postures of all the users with the head in the second bedside area are confirmed to be supine sleeping postures.

4. The method of claim 2, wherein after said determining the number of said number of users, the method further comprises:

and stopping executing the wake-up action under the condition that the number of the user numbers is zero.

5. The method of claim 1, wherein after the sensing of the pressure values at different regions of the bed and determining the user parameters from the pressure values, the method further comprises:

and under the condition that the sleeping position of the user is determined to be the prone sleeping position or the side sleeping position, refusing to wake the user by lifting the bedside motor, and allowing other wake-up devices except for the bedside motor to wake the user, wherein the other wake-up devices comprise at least one of a music player and a massager.

6. The method of claim 1, wherein the acquiring the sensed pressure values of different regions of the bed and determining the user parameter based on the pressure values comprises:

acquiring preset wake-up time;

under the condition that the current time reaches the wake-up time, pressure values sensed by different areas of the bed body are obtained through pressure sensors arranged in the different areas of the bed body;

and inputting the pressure value into a preset model, and predicting to obtain the user parameter.

7. A sleep wake-up device, the device comprising:

the acquisition and determination module is used for acquiring pressure values sensed by different areas of the bed body and determining user parameters according to the pressure values, wherein the user parameters comprise sleeping postures of a user;

and the first awakening module is used for allowing a user to be awakened by lifting a bedside motor arranged on the bed body under the condition that the sleeping position of the user is determined to be a supine sleeping position.

8. The apparatus of claim 7, wherein the user parameters further comprise a number of users;

the first wake-up module comprises:

a determining submodule, configured to determine the number of users;

the first awakening submodule is used for allowing the user to be awakened by lifting the bedside motor under the condition that the number of the users is determined to be one and the sleeping position of the user corresponding to the user is a supine sleeping position;

and the second awakening sub-module is used for allowing the plurality of users to be awakened by lifting the bedside motor under the condition that the number of the users is multiple, and the sleeping postures of the users corresponding to the users are all supine sleeping postures.

9. An intelligent bed, characterized in that the intelligent bed comprises a bed body, a bed head motor arranged on the bed body, and a control unit electrically connected with the bed head motor, wherein the control unit is used for executing the steps of the sleep awakening method as claimed in any one of claims 1-7.

10. A computer readable storage medium, on which a computer program is stored, characterized in that the computer program, when being executed by a processor, implements the steps of the sleep wakeup method according to any one of claims 1-7.

Images