CN115299731B

CN115299731B - User awakening method based on intelligent electric bed and related products

Info

Publication number: CN115299731B
Application number: CN202210978970.3A
Authority: CN
Inventors: 王炳坤
Original assignee: De Rucci Healthy Sleep Co Ltd
Current assignee: De Rucci Healthy Sleep Co Ltd
Priority date: 2022-08-16
Filing date: 2022-08-16
Publication date: 2023-06-23
Anticipated expiration: 2042-08-16
Also published as: CN115299731A

Abstract

The embodiment of the application relates to the technical field of intelligent home, and discloses a user awakening method based on an intelligent electric bed and related products, wherein the method comprises the following steps: when the current time point reaches a designated time point, acquiring a first electroencephalogram signal of a user on a mattress of the intelligent electric bed; the appointed time point is earlier than the alarm clock time point at which the intelligent electric bed is set; identifying whether the user is in a sleep stage according to the first electroencephalogram signal; if so, controlling the mattress to vibrate the user from weak to strong so as to force the user to enter a light sleep stage from a deep sleep stage; when the current time point reaches the alarm clock time point, acquiring a second electroencephalogram signal of the user; identifying whether the user is in a light sleep stage according to the second electroencephalogram signal; if yes, playing the wake-up video selected by the user in advance to wake up the user. By implementing the embodiment of the application, the occurrence of the condition that a sleeping user is suddenly awakened by the alarm clock can be reduced, and the physical health of the user is facilitated.

Description

User awakening method based on intelligent electric bed and related products

Technical Field

The application relates to the technical field of intelligent home, in particular to a user awakening method based on an intelligent electric bed and related products.

Background

The intelligent electric bed is an intelligent bed which can electrically control the height of the head part or the foot part of the bed board and can freely adjust the bending degree of the bed board, and is commonly used in families or medical care.

Smart electric beds on the market generally have a user wake-up function, which generally wakes up the user in the form of an alarm clock. However, the alarm clock with suddenly sounded alarm often causes the sleeping user to be suddenly waken, which easily causes symptoms such as neurasthenia and the like to the user.

Disclosure of Invention

The embodiment of the application discloses a user awakening method based on an intelligent electric bed and related products, which can reduce the occurrence of sudden awakening of a sleeping user by an alarm clock and are beneficial to the physical health of the user.

The first aspect of the embodiment of the application discloses a user awakening method based on an intelligent electric bed, which comprises the following steps:

when the current time point reaches a designated time point, acquiring a first electroencephalogram signal of a user on a mattress of the intelligent electric bed; the appointed time point is earlier than an alarm clock time point at which the intelligent electric bed is set;

identifying whether the user is in a sleep stage according to the first electroencephalogram signal; if yes, controlling the mattress to vibrate the user from weak to strong so as to force the user to enter a light sleep stage from a deep sleep stage;

When the current time point reaches the alarm clock time point, acquiring a second electroencephalogram signal of the user;

identifying whether the user is in a light sleep stage according to the second electroencephalogram signal; if yes, playing the wake-up video preselected by the user to wake up the user.

As an optional implementation manner, in the first aspect of the embodiment of the present application, after playing the wake-up video selected by the user in advance to wake up the user, the method further includes:

detecting the outdoor temperature of the environment where the intelligent electric bed is located;

judging whether the outdoor temperature is lower than or equal to a set designated temperature; if yes, detecting whether the intelligent shoes of the user are connected in a wireless mode; if yes, acquiring a temperature sensing value of the mattress currently configured;

and sending a temperature adjustment instruction comprising the somatosensory temperature value to the intelligent shoe, wherein the temperature adjustment instruction is used for instructing the intelligent shoe to adjust the instant temperature value of the inner skin-friendly layer of the intelligent shoe to be consistent with the somatosensory temperature value.

As another optional implementation manner, in the first aspect of the embodiment of the present application, after sending a temperature adjustment instruction including the somatosensory temperature value to the smart shoe, the method further includes:

Acquiring the intelligent shoe and sending a prompt message, wherein the prompt message is used for prompting the intelligent shoe to adjust the instant temperature value of the inner skin-friendly layer of the intelligent shoe to be consistent with the somatosensory temperature value;

and playing the prompt information so that the user leaves the bed and wears the intelligent shoes under the prompt of the prompt information.

As another optional implementation manner, in the first aspect of the embodiment of the present application, after playing the prompt information, the method further includes:

detecting whether a user terminal used by the user is connected wirelessly;

if yes, the sleep quality data of the user is sent to a user terminal used by the user.

As another optional implementation manner, in the first aspect of the embodiment of the present application, when the current time point reaches the specified time point, acquiring a first electroencephalogram signal of the user on the mattress of the intelligent electric bed includes:

when the current time point reaches a designated time point, acquiring a first electroencephalogram signal of a user through an intelligent eye cover worn by the user on a mattress of the intelligent electric bed;

the identifying whether the user is in a sleep stage according to the first electroencephalogram signal comprises:

Detecting whether the intensity of the first electroencephalogram signal has a mapping relation with a sleep stage; if so, judging that the user is in a sleep stage;

when the current time point reaches the alarm clock time point, acquiring a second electroencephalogram signal of the user, including:

when the current time point reaches the alarm clock time point, acquiring a second electroencephalogram signal of the user through an intelligent eye cover worn by the user on a mattress of the intelligent electric bed;

the identifying whether the user is in a light sleep stage according to the second electroencephalogram signal comprises:

detecting whether the intensity of the second electroencephalogram signal has a mapping relation with a light sleep stage or not; if so, determining that the user is in a light sleep stage.

A second aspect of the embodiments of the present application discloses an intelligent electric bed comprising:

the acquisition unit is used for acquiring a first electroencephalogram signal of a user on the mattress of the intelligent electric bed when the current time point reaches a specified time point; the appointed time point is earlier than an alarm clock time point at which the intelligent electric bed is set;

the identification unit is used for identifying whether the user is in a sleep stage or not according to the first electroencephalogram signal;

A control unit for controlling the mattress to vibrate the user from weak to strong to force the user to enter a light sleep stage from a deep sleep stage when the recognition unit recognizes that the user is in a deep sleep stage;

the acquisition unit is further used for acquiring a second electroencephalogram signal of the user when the current time point reaches the alarm clock time point;

the identification unit is further used for identifying whether the user is in a light sleep stage according to the second electroencephalogram signal;

and the wake-up unit is used for playing a wake-up video preselected by the user to wake up the user when the identification unit identifies that the user is in a light sleep stage.

As an alternative embodiment, in a second aspect of the embodiment of the present application, the intelligent electric bed further includes:

the first detection unit is used for detecting the outdoor temperature of the environment where the intelligent electric bed is located after the wake-up unit plays the wake-up video preselected by the user to wake up the user;

a judging unit for judging whether the outdoor temperature is lower than or equal to a set specified temperature;

the second detection unit is used for detecting whether the intelligent electric bed is connected with the intelligent shoes of the user in a wireless mode when the judgment unit judges that the outdoor temperature is lower than or equal to the set designated temperature;

The second detection unit is used for detecting that the intelligent electric bed is connected with the intelligent shoes of the user in a wireless mode, and acquiring a temperature sensing value of the mattress which is configured currently;

and the interaction unit is used for sending a temperature adjustment instruction comprising the somatosensory temperature value to the intelligent shoe, and the temperature adjustment instruction is used for instructing the intelligent shoe to adjust the instant temperature value of the inner skin-friendly layer of the intelligent shoe to be consistent with the somatosensory temperature value.

As another optional implementation manner, in a second aspect of the embodiment of the present application, the interaction unit is further configured to obtain, after sending a temperature adjustment instruction including the somatosensory temperature value to the intelligent shoe, the intelligent shoe to send a prompt message, where the prompt message is used to prompt the intelligent shoe to have adjusted the instant temperature value of the inner skin-friendly layer of the intelligent shoe to be consistent with the somatosensory temperature value;

the awakening unit is also used for playing the prompt information so that the user leaves the bed and wears the intelligent shoes under the prompt of the prompt information.

As another optional implementation manner, in a second aspect of the embodiment of the present application, the second detection unit is further configured to detect, after the wake-up unit plays the prompt information, whether the intelligent electric bed has been wirelessly connected to a user terminal used by the user;

The interaction unit is further configured to send current sleep quality data of the user to a user terminal used by the user when the second detection unit detects that the intelligent electric bed is wirelessly connected to the user terminal used by the user.

As another optional implementation manner, in the second aspect of the embodiment of the present application, the means for acquiring, when the current time point reaches the specified time point, the first electroencephalogram signal of the user on the mattress of the intelligent electric bed is:

the identification unit is used for identifying whether the user is in a sleep stage according to the first electroencephalogram signal in the following manner:

when the current time point reaches the alarm clock time point, the acquisition unit acquires the second electroencephalogram signal of the user in the following manner:

The identifying unit identifies whether the user is in a light sleep stage according to the second electroencephalogram signal in the following manner:

A third aspect of the embodiments of the present application discloses an intelligent electric bed, the intelligent electric bed includes:

a memory storing executable program code;

a processor coupled to the memory;

the processor invokes the executable program code stored in the memory to perform the steps of:

As an optional implementation manner, in a third aspect of the embodiment of the present application, after playing the wake-up video preselected by the user to wake up the user, the processor further performs the following steps:

As another alternative implementation manner, in a third aspect of the embodiment of the present application, after sending a temperature adjustment instruction including the somatosensory temperature value to the smart shoe, the processor further performs the following steps:

As another optional implementation manner, in the third aspect of the embodiment of the present application, after playing the prompt information, the processor further performs the following steps:

detecting whether a user terminal used by the user is connected wirelessly;

As another optional implementation manner, in a third aspect of the embodiment of the present application, when the current time point reaches the specified time point, a first electroencephalogram signal of the user on the mattress of the intelligent electric bed is acquired in a manner that:

the method for identifying whether the user is in a sleep stage according to the first electroencephalogram signal is as follows:

when the current time point reaches the alarm clock time point, the mode of collecting the second electroencephalogram signal of the user is as follows:

the method for identifying whether the user is in a light sleep stage according to the second electroencephalogram signal is as follows:

A fourth aspect of the application embodiment discloses a computer readable storage medium, on which a computer program is stored, which when executed by a processor implements the steps of the smart electric bed based user wake-up method disclosed in the first aspect of the application embodiment or any optional implementation of the first aspect of the application embodiment.

Compared with the prior art, the embodiment of the application has the following beneficial effects:

In the embodiment of the application, when the current time point reaches a certain appointed time point earlier than the alarm clock time point set by the intelligent electric bed, the intelligent electric bed can collect the first electroencephalogram signal of the user on the mattress, and when the user is identified to be in a sleep stage according to the first electroencephalogram signal, the mattress can be controlled to vibrate the user from weak to strong so as to force the user to enter a light sleep stage from a sleep stage; and when the current time point reaches the alarm clock time point, a second electroencephalogram signal of the user can be acquired, and when the user is identified to be in a light sleep stage according to the second electroencephalogram signal, a wake-up video preselected by the user can be played to wake up the user. Therefore, the embodiment of the application can reduce the occurrence of sudden awakening of the sleeping user by the alarm clock, so that the occurrence of neurasthenia and other symptoms of the user can be reduced, the user feels relaxed and the mood is smooth, and the physical health of the user is facilitated.

In addition, by implementing the embodiment of the application, the function of the intelligent electric bed can be expanded, and the intelligent degree of the intelligent electric bed is improved, so that the popularization and application of the intelligent electric bed are facilitated.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIGS. 1 to 3 are schematic flow diagrams of first to third embodiments of a user wake-up method based on an intelligent electric bed disclosed in the embodiments of the present application;

fig. 4 to 6 are schematic structural views of first to third embodiments of the intelligent electric bed disclosed in the embodiments of the present application.

Detailed Description

The following description of the technical solutions in the embodiments of the present application will be made clearly and completely with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are only some embodiments of the present application, 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 disclosure.

It should be noted that the terms "comprises" and "comprising," along with any variations thereof, in the embodiments of the present application are intended to cover non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed or inherent to such process, method, article, or apparatus, but may include other steps or elements not expressly listed.

The embodiment of the application discloses a user awakening method based on an intelligent electric bed and related products, which can reduce the occurrence of sudden awakening of a sleeping user by an alarm clock and are beneficial to the physical health of the user. The intelligent electric bed according to the embodiment of the application can include, but is not limited to, intelligent electric beds arranged in places such as families, schools, apartments, hotels, hospitals, nursing homes or geriatric homes. The following detailed description is made with reference to the accompanying drawings.

Referring to fig. 1, fig. 1 is a flowchart of a first embodiment of a user wake-up method based on an intelligent electric bed disclosed in an embodiment of the present application. As shown in fig. 1, the user wake-up method based on the intelligent electric bed may include the steps of:

101. when the current time point reaches a designated time point, the intelligent electric bed collects first electroencephalogram signals of a user on a mattress of the intelligent electric bed; wherein the specified time point is earlier than an alarm clock time point at which the intelligent electric bed is set.

In some embodiments, a user on the mattress of the intelligent electric bed may wear the intelligent eye mask, and the intelligent eye mask may be wirelessly connected to the intelligent electric bed (e.g., a smart chip wirelessly connected to the intelligent electric bed); on the basis, when the current time point is monitored to reach the appointed time point (for example, the intelligent chip of the intelligent electric bed monitors that the current time point reaches the appointed time point), the intelligent electric bed can acquire the first brain electrical signal of the user through the intelligent eyeshade worn by the user on the mattress of the intelligent electric bed. Specifically, an Electroencephalogram (EEG) electrode may be provided on the intelligent eye mask, when a user wearing the intelligent eye mask on a mattress of the intelligent electric bed sleeps, the EEG electrode of the intelligent eye mask contacts with the head of the user, and when the current time point reaches a specified time point, the intelligent electric bed may collect a first Electroencephalogram signal of the user through the EEG electrode of the intelligent eye mask.

In some embodiments, an interactive screen may be provided on the intelligent electric bed, through which a user on a mattress of the intelligent electric bed may input to the intelligent electric bed a user-set alarm clock time point (e.g., 08:00) and a specified time point (e.g., 07:55) earlier than the alarm clock time point (e.g., 08:00).

In other embodiments, the intelligent electric bed may be wirelessly connected to a user terminal used by a user on the mattress of the intelligent electric bed, and the user may send the user-set alarm clock time point (e.g., 08:00) and the designated time point (e.g., 07:55) earlier than the alarm clock time point (e.g., 08:00) to the intelligent electric bed through the user terminal used by the user.

In still other embodiments, the intelligent eye mask may be provided with a time setting button, and the user on the mattress of the intelligent electric bed may send the alarm clock time point (e.g. 08:00) set by the user and the designated time point (e.g. 07:55) earlier than the alarm clock time point (e.g. 08:00) to the intelligent electric bed by pressing the time setting button on the intelligent eye mask.

102. The intelligent electric bed identifies whether the user is in a sleep stage according to the first electroencephalogram signal; if yes, go to step 103-step 105; if not, go to step 104 to step 105.

When the human body is in different sleep stages, the activity degree of the brain electrical signals of the human body is different. Generally, the intensity of the brain electrical signal in the light sleep stage will be greater than the intensity of the brain electrical signal in the deep sleep stage. Optionally, the intelligent electric bed (such as an intelligent chip of the intelligent electric bed) may record in advance the mapping relationship between the intensity of the electroencephalogram signal and the corresponding sleep stage of the user in different sleep stages. If the intensity of the A-intensity electroencephalogram signal corresponds to the light sleep stage and the intensity of the B-intensity electroencephalogram signal corresponds to the sound sleep stage, the current intensity of the B-intensity electroencephalogram signal of the user indicates that the user is in the sound sleep stage.

Therefore, in the above step 102, the manner in which the intelligent electric bed identifies whether the user is in the sleep stage according to the first electroencephalogram signal may be: detecting whether the intensity of the first electroencephalogram signal has a mapping relation with the sleep stage; if yes, judging that the user is in a sleep stage, and executing the steps 103 to 105; if not, the steps 104 to 105 are executed.

103. The intelligent electric bed controls its mattress to vibrate the user from weak to strong to force the user from a deep sleep stage to a shallow sleep stage.

In some embodiments, the intelligent electric bed can detect the stressed area of the mattress through a sensor (such as a pressure sensor), and the stressed area is the sleeping area of a user on the mattress; accordingly, the intelligent electric bed may control the massage heads under the stressed area of the mattress to vibrate the user from weak to strong to force the user from a deep sleep stage to a shallow sleep stage.

104. And when the current time point reaches the alarm clock time point, the intelligent electric bed collects a second electroencephalogram signal of the user.

In some embodiments, the intelligent electric couch may collect the second electroencephalogram signal of the user through the intelligent eye mask (i.e., the EEG electrodes of the intelligent eye mask) worn by the user on the mattress of the intelligent electric couch when the current time point reaches the alarm time point.

105. The intelligent electric bed identifies whether the user is in a light sleep stage according to the second electroencephalogram signal; if not, executing the steps 106 to 107; if yes, go to step 107.

In some embodiments, the intelligent electric bed may identify whether the user is in the light sleep stage according to the second electroencephalogram signal by: detecting whether the intensity of the second electroencephalogram signal has a mapping relation with the light sleep stage; if not, judging that the user is likely to be still in a sleep stage, and executing the steps 106-107; if so, it is determined that the user is in a light sleep stage, step 107 is performed.

106. The intelligent electric bed electrically stimulates the user to wake up the user.

In some embodiments, the intelligent electric bed may control EEG electrodes of a smart eye mask worn by a user on its mattress to release micro-currents to electrically stimulate the brain of the user to wake up the user; and/or the intelligent electric bed can control the electrodes arranged below the mattress stress area corresponding to the head of the user on the mattress to release micro-current to electrically stimulate the brain of the user so as to wake up the user.

107. The intelligent electric bed plays a wake-up video selected by a user in advance to wake up the user.

In some embodiments, the intelligent electric bed may control its set interactive screen or control an external playback device (e.g., a display screen or a television) to play a wake-up video preselected by the user to wake up the user.

For example, a user may send a wake-up video preselected by the user to the intelligent electric bed through a user terminal that the user uses; the wake-up video may be a wake-up video sent by a kissing of a person (such as a star) intended by the user.

Therefore, the user awakening method shown in fig. 1 can reduce the occurrence of sudden awakening of the sleeping user by the alarm clock, so that the symptoms of neurasthenia and the like generated by the user can be reduced, the user feels relaxed and the mood is smooth, and the physical health of the user is facilitated.

In addition, the user awakening method shown in fig. 1 can expand the functions of the intelligent electric bed and improve the intelligent degree of the intelligent electric bed, so that the popularization and application of the intelligent electric bed are facilitated.

Referring to fig. 2, fig. 2 is a flow chart of a second embodiment of a user wake-up method based on an intelligent electric bed disclosed in the embodiments of the present application. As shown in fig. 2, the user wake-up method based on the intelligent electric bed may include the steps of:

201. when the current time point reaches a designated time point, the intelligent electric bed collects first electroencephalogram signals of a user on a mattress of the intelligent electric bed; wherein the specified time point is earlier than an alarm clock time point at which the intelligent electric bed is set.

The implementation of step 201 may refer to the implementation of step 101 in the previous embodiment, which is not described herein.

202. The intelligent electric bed identifies whether the user is in a sleep stage according to the first electroencephalogram signal; if yes, go to step 203 to step 205; if not, go to step 204 to step 205.

The implementation of step 202 may refer to the implementation of step 102 in the previous embodiment, which is not described herein.

203. The intelligent electric bed controls its mattress to vibrate the user from weak to strong to force the user from a deep sleep stage to a shallow sleep stage.

The implementation of step 203 may refer to the implementation of step 103 in the previous embodiment, which is not described herein.

204. And when the current time point reaches the alarm clock time point, the intelligent electric bed collects a second electroencephalogram signal of the user.

The implementation of step 204 may refer to the implementation of step 104 in the previous embodiment, which is not described herein.

205. The intelligent electric bed identifies whether the user is in a light sleep stage according to the second electroencephalogram signal; if not, go to step 206-step 209; if yes, go to step 207 to step 209.

206. The intelligent electric bed electrically stimulates the user to wake up the user.

207. The intelligent electric bed plays a wake-up video selected by a user in advance to wake up the user.

208. The intelligent electric bed detects the outdoor temperature of the environment in which the intelligent electric bed is located.

In some embodiments, the intelligent electric bed may be wirelessly connected to an outdoor intelligent thermometer of an environment in which the intelligent electric bed is located, and an outdoor temperature of the environment in which the intelligent electric bed is located is detected by the outdoor intelligent thermometer.

In other embodiments, the intelligent electric bed may obtain the indoor temperature of the environment in which the intelligent electric bed is located from the network side. For example, the intelligent electric bed may acquire, from the network side, an outdoor temperature including a certain administrative region (e.g., a municipal administrative region) of the environment in which the intelligent electric bed is located as the outdoor temperature of the environment in which the intelligent electric bed is located.

209. The intelligent electric bed judges whether the outdoor temperature is lower than or equal to the set designated temperature; if yes, go to step 210; if not, the process is ended.

By way of example, the specified temperature may be set to 0 ℃ or 5 ℃, and the embodiments of the present application are not limited.

210. The intelligent electric bed detects whether the intelligent shoes of the user are connected wirelessly; if yes, go to step 211-step 212; if not, the process is ended.

In some embodiments, the user's smart shoes may include left and right intelligent shoes; the inner side of the left intelligent shoe is opposite to the inner side of the right intelligent shoe, and a miniature projection assembly and an induction camera assembly are arranged on the inner side of the left intelligent shoe; correspondingly, the intelligent shoes of the user and the intelligent electric bed can be connected in a wireless way, namely:

after entering the coverage area of the hot spot of the intelligent electric bed, the user can trigger the left intelligent shoe worn by the left foot to scan the unique identification of the hot spot around; optionally, after entering the coverage area of the hot spot of the intelligent electric bed, the user may move the left-foot intelligent shoe worn by the left foot to draw a first set track (such as a triangle track), where the first set track is used to trigger the unique identifier of the hot spot around the left-foot intelligent shoe scanning; correspondingly, when the intelligent left foot shoe detects a first set track drawn by the intelligent left foot shoe, detecting the unique identification of hot spots around scanning; the miniature projection assembly arranged on the inner side of the miniature projection assembly can be controlled to project a hot spot selection interface, and the hot spot selection interface comprises a unique identifier of the scanned surrounding hot spot and a 'confirmation' option; on the basis, when the left intelligent shoe detects that the toe of the right intelligent shoe sequentially touches the unique identifier and the 'confirmation' option of the hot spot of the intelligent electric bed in the unique identifiers of surrounding hot spots included in the hot spot selection interface through the induction camera shooting assembly arranged on the inner side of the left intelligent shoe, the left intelligent shoe can identify the hot spot of the intelligent electric bed selected by the user; controlling the miniature projection assembly to project an access key input interface, wherein the access key input interface comprises a plurality of characters to be selected and an access key display frame; on the basis, when the left intelligent shoe detects that the toe cap of the right intelligent shoe touches part or all of a plurality of characters to be selected included in the access key input interface through the induction camera assembly, sequencing and splicing the touched part or all of the characters to be selected according to the touched sequence of the characters to be selected to form an access key, and displaying the access key in an access key display frame; after the contacted part or all of the to-be-selected characters are sequenced and spliced into an access key and displayed in an access key display frame, when the left intelligent shoe detects that the toe of the right intelligent shoe touches a 'confirmation' option included in a hot spot selection interface through an induction camera component, broadcasting a unique identifier of a hot spot containing an intelligent electric bed and a hot spot access request of the access key; correspondingly, when the intelligent electric bed receives the hotspot access request and recognizes the unique identifier of the hotspot of the intelligent electric bed, judging whether the access key is consistent with a legal key corresponding to the hotspot of the intelligent electric bed, and if so, allowing the left-foot intelligent shoe to access the hotspot of the intelligent electric bed, thereby establishing wireless connection between the intelligent shoe of the user and the intelligent electric bed.

In this embodiment of the application, wireless connection can be established in advance between the intelligent shoes of left foot and the intelligent shoes of right foot. For example, when a left intelligent shoe detects that the left intelligent shoe is worn by the left foot of the user and a right intelligent shoe detects that the right intelligent shoe is worn by the right foot of the user, the left intelligent shoe and the right intelligent shoe may spontaneously establish a wireless connection (e.g., a bluetooth wireless connection).

The mode is implemented, so that a user can establish wireless connection between the intelligent shoes (namely the left intelligent shoe and the right intelligent shoe) and the intelligent electric bed under the condition that the user does not need to send out a voice instruction and does not need to operate by hand. In particular, when the user is a user with difficulty in speaking and/or in handling, the above-described manner further improves the user's experience in establishing a wireless connection between his intelligent shoe and the intelligent electric bed.

211. The intelligent electric bed obtains a temperature value of the temperature of the body of the mattress currently configured.

In some embodiments, the temperature sensing value at which the mattress is currently configured may be configured by the user's smart shoe.

212. The intelligent electric bed sends a temperature adjustment instruction comprising a somatosensory temperature value to the intelligent shoe, the temperature adjustment instruction being for instructing the intelligent shoe to adjust the instant temperature value of the internal skin-friendly layer of the intelligent shoe to be consistent with the somatosensory temperature value.

In some embodiments, after the left intelligent shoe receives a temperature adjustment instruction including a somatosensory temperature value sent by the intelligent electric bed, the instant temperature value of the inner skin-friendly layer of the left intelligent shoe can be adjusted to be consistent with the somatosensory temperature value; and sending the temperature adjustment instruction to the right-foot intelligent shoe, so that the right-foot intelligent shoe can adjust the instant temperature value of the inner skin-friendly layer of the right-foot intelligent shoe to be consistent with the somatosensory temperature value.

When the outdoor temperature of the environment where the intelligent electric bed is located is lower than or equal to the set specified temperature, the steps 208 to 212 are implemented, so that the instant temperature value of the inner skin-friendly layer of the intelligent shoes (namely the left-foot intelligent shoes and the right-foot intelligent shoes) of the user is adjusted to be consistent with the temperature value of the body temperature of the mattress of the intelligent electric bed, which is configured at present, so that uncomfortable feeling caused by inconsistent temperature values of the body temperature of the mattress and the instant temperature value of the inner skin-friendly layer of the intelligent shoes when the user leaves the mattress of the intelligent electric bed and wears the intelligent shoes can be avoided. In particular, implementing the above steps 208 to 212 can obtain a better comfort when the user leaves the mattress of the intelligent electric bed and wears the intelligent shoes in cold winter.

In some embodiments, the temperature sensing values currently configured for a mattress may be configured as follows:

the user can move the left intelligent shoe worn by the user to draw a second set track (such as a circular track) which is used for triggering the left intelligent shoe to output a mattress temperature setting interface; correspondingly, when the left intelligent shoe detects a first set track drawn by the left intelligent shoe, a request message is sent to the intelligent electric bed through wireless connection, and the request message is used for acquiring a mattress temperature setting interface; after the intelligent left foot shoes acquire the mattress temperature setting interface sent by the intelligent electric bed through wireless connection, the miniature projection assembly can be controlled to project out of the mattress temperature setting interface; wherein, the mattress temperature setting interface at least comprises a 'confirmation' option, a temperature sensing range bar and a temperature sensing display frame; on the basis, when the intelligent left foot shoes detect that the toe caps of the intelligent right foot shoes sequentially touch a certain body temperature value in a body temperature range bar included in a mattress temperature setting interface through the induction camera assembly, the body temperature value is displayed in the temperature display frame; further, after the body temperature value is displayed in the temperature display frame, when the left intelligent shoe detects that the toe of the right intelligent shoe touches the 'confirm' option through the induction camera component, the left intelligent shoe can send a temperature setting instruction comprising the body temperature value to the intelligent electric bed; after the intelligent electric bed receives the temperature setting instruction, the body temperature value can be input into an intelligent AIr chip (such as a multifunctional AIr-Circle intelligent AIr chip) arranged in the mattress, so that the intelligent AIr chip drives cold and hot AIr circulation operation through an AIr application technology, the temperature value of the mattress is accurately regulated to be the body temperature value, and the body temperature value is configured to be the body temperature value of the mattress which is currently configured.

The implementation mode that the temperature value of the accurate regulation mattress is this body temperature sensing value is the same with the implementation mode that this intelligent air chip drives cold and hot air circulation operation through air application technique, accurate regulation mattress temperature among the prior art, and this application embodiment is not repeated.

Wherein, the mode is implemented, the intelligent electric bed mattress can be provided with a body sensing temperature value for the mattress of the intelligent electric bed by utilizing the intelligent shoes under the condition that a user does not need to send out a voice instruction and does not need to operate by hands. In particular, when the user is a user with difficulty in speaking and/or a user with difficulty in handling, the above manner can further improve the experience of the user when the user configures the body temperature value for the mattress of the intelligent electric bed.

In addition, the user awakening method shown in fig. 2 can reduce the occurrence of sudden awakening of a sleeping user by an alarm clock, so that the occurrence of symptoms such as neurasthenia and the like of the user can be reduced, the user feels relaxed and the mood is smooth, and the physical health of the user is facilitated.

In addition, the user awakening method shown in fig. 2 can expand the functions of the intelligent electric bed and improve the intelligent degree of the intelligent electric bed, so that the popularization and application of the intelligent electric bed are facilitated.

Referring to fig. 3, fig. 3 is a flow chart of a third embodiment of a user wake-up method based on an intelligent electric bed disclosed in an embodiment of the present application. As shown in fig. 3, the user wake-up method based on the intelligent electric bed may include the steps of:

steps 301 to 312 are the same as steps 201 to 212 in the previous embodiment, and will not be repeated here.

313. The intelligent electric bed acquires the intelligent shoes and sends prompt messages which are used for prompting the intelligent shoes to keep the instant temperature value adjustment of the inner skin-friendly layer of the intelligent shoes consistent with the somatosensory temperature value.

In some embodiments, when the intelligent shoe comprises a left-foot intelligent shoe and a right-foot intelligent shoe, the prompting message may prompt both the left-foot intelligent shoe and the right-foot intelligent shoe to have adjusted the instant temperature value of the inner skin-friendly layer to be consistent with the somatosensory temperature value.

314. The intelligent electric bed plays the prompt information so that a user leaves the bed and wears intelligent shoes under the prompt of the prompt information.

The steps 313 to 314 are implemented, so that the user can be prompted to leave the bed and wear the intelligent shoes when the instant temperature value adjustment of the inner skin-friendly layer of the intelligent shoes (i.e., the left-foot intelligent shoes and the right-foot intelligent shoes) of the user is consistent with the currently configured body temperature value of the mattress of the intelligent electric bed, thereby avoiding the user from leaving the mattress of the intelligent electric bed and wearing the intelligent shoes in advance when the instant temperature value of the inner skin-friendly layer of the intelligent shoes is inconsistent with the currently configured body temperature value of the mattress of the intelligent electric bed, and further avoiding uncomfortable feeling caused by the inconsistent body temperature value of the mattress and the instant temperature value of the inner skin-friendly layer of the intelligent shoes.

315. The intelligent electric bed detects whether a user terminal used by a user is connected wirelessly; if yes, go to step 316; if not, go to step 317.

316. And the intelligent electric bed sends the sleep quality data of the user to the user terminal used by the user, and the process is finished.

317. The intelligent electric bed sends the current sleep quality data of the user to the intelligent shoes so that the intelligent shoes project the current sleep quality data of the user through the miniature projection assembly.

In some embodiments, the intelligent electric bed may send the current sleep quality data of the user to the left intelligent shoe, and correspondingly, the left intelligent shoe may control the mini-projection assembly to project the current sleep quality data of the user, so that the user may directly watch the current sleep quality data of the user.

In some embodiments, the left intelligent shoe may detect a third set track (such as a circular track) sent by the right intelligent shoe and drawn by the user moving the right intelligent shoe, where the third set track is used to instruct the left intelligent shoe to temporarily output current sleep quality data of the user; correspondingly, the left-foot intelligent shoe can suspend outputting the current sleep quality data of the user according to the third set track, so that the current sleep quality data of the user can be prevented from being peeped by surrounding people, and the safety of the current sleep quality data of the user is improved.

In addition, the user awakening method shown in fig. 3 can reduce the occurrence of sudden awakening of a sleeping user by an alarm clock, so that the occurrence of symptoms such as neurasthenia and the like of the user can be reduced, the user feels relaxed and the mood is comfortable, and the physical health of the user is facilitated.

In addition, the user awakening method shown in fig. 3 is implemented, so that the functions of the intelligent electric bed can be expanded, the intelligent degree of the intelligent electric bed is improved, and the popularization and application of the intelligent electric bed are facilitated.

Referring to fig. 4, fig. 4 is a schematic structural diagram of a first embodiment of the intelligent electric bed disclosed in the embodiments of the present application. As shown in fig. 4, the intelligent electric bed may include:

an acquisition unit 401, configured to acquire a first electroencephalogram signal of a user on a mattress of an intelligent electric bed when a current time point reaches a specified time point; the appointed time point is earlier than the alarm clock time point at which the intelligent electric bed is set;

an identifying unit 402, configured to identify whether the user is in a sleep stage according to the first electroencephalogram signal;

a control unit 403 for controlling the mattress to vibrate the user from weak to strong to force the user to enter the light sleep stage from the deep sleep stage when the recognition unit 402 recognizes that the user is in the deep sleep stage;

The acquisition unit 401 is further configured to acquire a second electroencephalogram signal of the user when the current time point reaches the alarm clock time point;

the identifying unit 402 is further configured to identify whether the user is in a light sleep stage according to the second electroencephalogram signal;

a wake-up unit 404, configured to play a wake-up video selected by the user in advance to wake up the user when the recognition unit 402 recognizes that the user is in the light sleep stage.

In some embodiments, a user on the mattress of the intelligent electric bed may wear an intelligent eye shield, and the intelligent eye shield may be wirelessly connected to the intelligent electric bed (e.g., a smart chip wirelessly connected to the intelligent electric bed); on this basis, the acquisition unit 401 may acquire the first brain electrical signal of the user through an intelligent eye mask worn by the user on the mattress of the intelligent electric bed when it is monitored that the current time point reaches the designated time point. Specifically, the intelligent eye mask worn by the user on the mattress of the intelligent electric bed may be equipped with an EEG electrode, and when the user on the mattress of the intelligent electric bed sleeps while wearing the intelligent eye mask, the EEG electrode of the intelligent eye mask contacts with the head of the user, and when the current time point reaches the designated time point, the acquisition unit 401 may acquire the first electroencephalogram signal of the user through the EEG electrode of the intelligent eye mask.

In some embodiments, the above-mentioned intelligent eye mask may be provided with a time setting button, and the user on the mattress of the intelligent electric bed may send the alarm clock time point (e.g. 08:00) set by the user and the designated time point (e.g. 07:55) earlier than the alarm clock time point (e.g. 08:00) to the intelligent electric bed by operating the time setting button on the intelligent eye mask.

In some embodiments, the identifying unit 402 identifies whether the user is in a sleep stage according to the first electroencephalogram signal by:

detecting whether the intensity of the first electroencephalogram signal has a mapping relation with the sleep stage; if so, judging that the user is in a sleep stage; if not, the user is determined not to be in a sleep stage.

In some embodiments, when the current time point reaches the alarm clock time point, the acquisition unit 401 acquires the second electroencephalogram signal of the user in a manner that:

when the current time point reaches the alarm clock time point, acquiring a second electroencephalogram signal of the user through an intelligent eyeshade worn by the user on a mattress of the intelligent electric bed;

accordingly, the identifying unit 402 may identify whether the user is in the light sleep stage according to the second electroencephalogram signal:

detecting whether the intensity of the second electroencephalogram signal has a mapping relation with the light sleep stage; if yes, judging that the user is in a light sleep stage; if not, it is determined that the user is not in the light sleep stage.

In some embodiments, when the recognition unit 402 recognizes that the user is not in the light sleep stage according to the second electroencephalogram signal, the wake-up unit 404 is further configured to electrically stimulate the user to wake up the user, and play a wake-up video preselected by the user to wake up the user.

In some embodiments, the manner in which the wake-up unit 404 electrically stimulates the user to wake up the user may be: the wake-up unit 404 may control EEG electrodes of a smart eye mask worn by a user on a mattress to release micro-currents to electrically stimulate the brain of the user to wake up the user; and/or the wake-up unit 404 may control the electrodes disposed under the stress area of the mattress corresponding to the head of the user on the mattress to release micro-currents to electrically stimulate the brain of the user to wake up the user.

In some embodiments, the manner in which the wake-up unit 404 plays the wake-up video preselected by the user to wake up the user may be: the interactive screen of the intelligent electric bed setting is controlled or an external playing device (such as a display screen or a television) is controlled to play the wake-up video selected by the user in advance so as to wake up the user.

For example, the user may send a wake-up video selected by the user in advance to the intelligent electric bed through the user terminal used by the user, where the wake-up video may be a wake-up video sent by using the kiss of a person (such as a star) in the user.

Therefore, the intelligent electric bed shown in fig. 4 can be implemented to reduce the occurrence of sudden awakening of a sleeping user by the alarm clock, so that the occurrence of neurasthenia and other symptoms of the user can be reduced, the user feels relaxed and the mood is pleasant, and the health of the user is facilitated.

In addition, the intelligent electric bed shown in fig. 4 is implemented, so that the functions of the intelligent electric bed can be expanded, the intelligent degree of the intelligent electric bed is improved, and the popularization and the application of the intelligent electric bed are facilitated.

Referring to fig. 5, fig. 5 is a schematic structural diagram of a second embodiment of the intelligent electric bed disclosed in the embodiments of the present application. Wherein the intelligent electric bed shown in fig. 5 is optimized from the intelligent electric bed shown in fig. 4. Compared to the intelligent electric bed shown in fig. 4, the intelligent electric bed shown in fig. 5 may further include:

a first detecting unit 405, configured to detect an outdoor temperature of an environment where the intelligent electric bed is located after the wake-up unit 404 plays a wake-up video selected by a user in advance to wake up the user; for example, the first detection unit 405 may be wirelessly connected to an outdoor intelligent thermometer of an environment in which the intelligent electric bed is located, and detect an outdoor temperature of the environment in which the intelligent electric bed is located through the outdoor intelligent thermometer; alternatively, the first detection unit 405 may acquire, from the network side, an indoor temperature of an environment in which the intelligent electric bed is located; for example, the first detection unit 405 may acquire, from the network side, an outdoor temperature including a certain administrative area (such as a municipal administrative area) of the environment in which the intelligent electric bed is located as the outdoor temperature of the environment in which the intelligent electric bed is located;

A judging unit 406 for judging whether the outdoor temperature is lower than or equal to a set specified temperature;

a second detecting unit 407, configured to detect whether the intelligent electric bed is wirelessly connected to the intelligent shoe of the user when the judging unit 406 judges that the outdoor temperature is lower than or equal to the set specified temperature;

an obtaining unit 408, configured to obtain a temperature sensing value of a mattress currently configured when the second detecting unit 407 detects that the intelligent electric bed is wirelessly connected to the intelligent shoe of the user;

the interaction unit 409 is configured to send a temperature adjustment instruction including a somatosensory temperature value to the intelligent shoe, where the temperature adjustment instruction is configured to instruct the intelligent shoe to adjust an instant temperature value of an inner skin-friendly layer of the intelligent shoe to be consistent with the somatosensory temperature value.

In some embodiments, the intelligent shoes of the user may include a left-foot intelligent shoe and a right-foot intelligent shoe, and after the left-foot intelligent shoe receives a temperature adjustment instruction of a somatosensory temperature value sent by the intelligent electric bed, the instant temperature value of the inner skin-friendly layer of the left-foot intelligent shoe may be adjusted to be consistent with the somatosensory temperature value; and sending the temperature adjustment instruction to the right-foot intelligent shoe, so that the right-foot intelligent shoe can adjust the instant temperature value of the inner skin-friendly layer of the right-foot intelligent shoe to be consistent with the somatosensory temperature value.

The intelligent electric bed shown in fig. 5 is implemented, so that when the outdoor temperature of the environment where the intelligent electric bed is located is lower than or equal to the set designated temperature, the instant temperature value of the inner skin-friendly layer of the intelligent shoes (namely the left-foot intelligent shoes and the right-foot intelligent shoes) of the user is adjusted to be consistent with the currently configured body temperature value of the mattress of the intelligent electric bed, thereby avoiding uncomfortable feeling caused by inconsistent body temperature value of the mattress and the instant temperature value of the inner skin-friendly layer of the intelligent shoes when the user leaves the mattress of the intelligent electric bed and wears the intelligent shoes. In particular, implementing the intelligent electric bed shown in fig. 5 can achieve better comfort when the user leaves the mattress of the intelligent electric bed and wears the intelligent shoes in cold winter.

The manner in which the intelligent shoes of the user are wirelessly connected with the intelligent electric bed may refer to the foregoing embodiments, and will not be described herein.

In some embodiments, the temperature sensing value of the mattress currently configured may be specifically configured by the user's smart shoe. The configuration manner of the temperature sensing value of the mattress currently configured may refer to the foregoing embodiments, and will not be described herein.

In some embodiments, in the intelligent electric bed shown in fig. 5, the interaction unit 409 is further configured to, after sending a temperature adjustment instruction including a somatosensory temperature value to the intelligent shoe, obtain the intelligent shoe to send a prompt message, where the prompt message is used to prompt the intelligent shoe to have adjusted the instant temperature value of the inner skin-friendly layer of the intelligent shoe to be consistent with the somatosensory temperature value; when the intelligent shoes comprise a left-foot intelligent shoe and a right-foot intelligent shoe, the prompt message can prompt that the left-foot intelligent shoe and the right-foot intelligent shoe both regulate the instant temperature value of the inner skin-friendly layer to be consistent with the somatosensory temperature value;

correspondingly, the wake-up unit 404 is further configured to play the prompt information, so that the user leaves the bed and wears the intelligent shoe under the prompt of the prompt information.

The intelligent electric bed shown in fig. 5 can be used for prompting a user to leave the bed and wear the intelligent shoes when the instant temperature value of the inner skin-friendly layer of the intelligent shoes (namely, the left-foot intelligent shoes and the right-foot intelligent shoes) of the user is adjusted to be consistent with the currently configured body temperature value of the mattress of the intelligent electric bed, so that the user can be prevented from leaving the mattress of the intelligent electric bed in advance and wearing the intelligent shoes when the instant temperature value of the inner skin-friendly layer of the intelligent shoes is inconsistent with the currently configured body temperature value of the mattress of the intelligent electric bed, and discomfort caused by the inconsistent body temperature value of the mattress and the instant temperature value of the inner skin-friendly layer of the intelligent shoes can be avoided.

In some embodiments, in the intelligent electric bed shown in fig. 5, the second detecting unit 407 is further configured to detect, after the wake-up unit 404 plays the prompt information, whether the intelligent electric bed has been wirelessly connected to a user terminal used by a user;

correspondingly, the interaction unit 409 is further configured to send the current sleep quality data of the user to the user terminal used by the user when the second detection unit 407 detects that the intelligent electric bed is already wirelessly connected to the user terminal used by the user.

In some embodiments, the interaction unit 409 is further configured to send the current sleep quality data of the user to the intelligent shoe when the second detection unit 407 detects that the intelligent electric bed is not wirelessly connected to the user terminal used by the user, so that the intelligent shoe projects the current sleep quality data of the user through the micro projector.

In some embodiments, the interaction unit 409 may send the current sleep quality data of the user to the left-foot intelligent shoe, and accordingly, the left-foot intelligent shoe may control the micro-projection assembly to project the current sleep quality data of the user, so that the user may directly watch the current sleep quality data of the user.

In addition, the intelligent electric bed shown in fig. 5 can reduce the occurrence of sudden awakening of a sleeping user by an alarm clock, so that the occurrence of symptoms such as neurasthenia and the like of the user can be reduced, the user feels relaxed and the mood is smooth, and the health of the user is facilitated.

In addition, the intelligent electric bed shown in fig. 5 is implemented, so that the functions of the intelligent electric bed can be expanded, the intelligent degree of the intelligent electric bed is improved, and the popularization and the application of the intelligent electric bed are facilitated.

Referring to fig. 6, fig. 6 is a schematic structural diagram of a third embodiment of the intelligent electric bed disclosed in the embodiments of the present application. As shown in fig. 6, the intelligent electric bed may include:

a memory 601 in which executable program codes are stored;

a processor 602 coupled to the memory 601;

wherein the processor 602 invokes executable program code stored in the memory 601, performing the steps of:

when the current time point reaches a designated time point, acquiring a first electroencephalogram signal of a user on a mattress of the intelligent electric bed; the appointed time point is earlier than the alarm clock time point at which the intelligent electric bed is set;

identifying whether the user is in a sleep stage according to the first electroencephalogram signal; if so, controlling the mattress to vibrate the user from weak to strong so as to enable the user to enter a light sleep stage from a sound sleep stage;

identifying whether the user is in a light sleep stage according to the second electroencephalogram signal; if yes, playing the wake-up video selected by the user in advance to wake up the user.

In some implementations, after playing the user pre-selected wake-up video to wake up the user, the processor 602 further performs the steps of:

judging whether the outdoor temperature is lower than or equal to the set designated temperature; if yes, detecting whether the intelligent shoes of the user are connected wirelessly; if so, acquiring a temperature sensing value of the mattress currently configured;

and sending a temperature adjustment instruction comprising a somatosensory temperature value to the intelligent shoe, wherein the temperature adjustment instruction is used for instructing the intelligent shoe to adjust the instant temperature value of the inner skin-friendly layer of the intelligent shoe to be consistent with the somatosensory temperature value.

In some embodiments, after sending the temperature adjustment instructions including the somatosensory temperature value to the smart shoe, the processor 602 further performs the steps of:

acquiring an intelligent shoe, and sending a prompt message, wherein the prompt message is used for prompting the intelligent shoe to adjust the instant temperature value of the inner skin-friendly layer of the intelligent shoe to be consistent with the somatosensory temperature value;

The prompt information is played so that the user leaves the bed and wears intelligent shoes under the prompt of the prompt information.

In some embodiments, after playing the hint information, the processor 602 further performs the steps of:

detecting whether a user terminal used by a user is connected wirelessly;

if yes, sending the sleep quality data of the user to a user terminal used by the user;

if not, the current sleep quality data of the user is sent to the intelligent shoes, so that the intelligent shoes project the current sleep quality data of the user through the micro projector.

In some embodiments, when the current time point reaches the specified time point, the first electroencephalogram signal of the user on the mattress of the intelligent electric bed is acquired by:

when the current time point reaches a designated time point, acquiring a first electroencephalogram signal of a user through an intelligent eyeshade worn by the user on a mattress of the intelligent electric bed;

detecting whether the intensity of the first electroencephalogram signal has a mapping relation with the sleep stage; if so, judging that the user is in a sleep stage;

the method for identifying whether the user is in the light sleep stage according to the second electroencephalogram signal is as follows:

detecting whether the intensity of the second electroencephalogram signal has a mapping relation with the light sleep stage; if so, it is determined that the user is in a light sleep stage.

The intelligent electric bed shown in fig. 6 can reduce occurrence of sudden awakening of a sleeping user by an alarm clock, so that symptoms such as neurasthenia and the like of the user can be reduced, and the user feels relaxed and has a pleasant mood, thereby being beneficial to physical health of the user.

In addition, the intelligent electric bed shown in fig. 6 is implemented, so that the functions of the intelligent electric bed can be expanded, the intelligent degree of the intelligent electric bed is improved, and the popularization and the application of the intelligent electric bed are facilitated.

The embodiment of the application further discloses a computer readable storage medium, on which a computer program is stored, which is characterized in that the computer program, when being executed by a processor, implements steps of the control method of the smart home device described in the previous embodiment.

The foregoing has described in detail a user wake-up method based on an intelligent electric bed and related products disclosed in the embodiments of the present application, and specific examples have been applied herein to illustrate the principles and embodiments of the present application, where the foregoing examples are only for aiding in understanding the method of the present application and its core ideas; to those of ordinary skill in the art, with the benefit of the teachings of this application, many modifications may be made to the specific embodiments and applications thereof, and the disclosure should not be taken as limiting the application.

Claims

1. A user wake-up method based on an intelligent electric bed, comprising:

Identifying whether the user is in a light sleep stage according to the second electroencephalogram signal; if yes, playing a wake-up video preselected by the user to wake up the user;

after playing the user pre-selected wake-up video to wake up the user, the method further comprises:

2. The user wake-up method of claim 1, wherein after sending a temperature adjustment instruction to the smart shoe that includes the somatosensory temperature value, the method further comprises:

acquiring a prompt message sent by the intelligent shoe, wherein the prompt message is used for prompting the intelligent shoe to adjust the instant temperature value of the inner skin-friendly layer of the intelligent shoe to be consistent with the somatosensory temperature value;

And playing the prompt message so that the user leaves the bed and wears the intelligent shoes under the prompt of the prompt message.

3. The user wake-up method of claim 2, wherein after playing the hint message, the method further comprises:

detecting whether a user terminal used by the user is connected wirelessly;

4. A method of waking up a user according to any one of claims 1 to 3, wherein when a current time point reaches a specified time point, acquiring a first electroencephalogram signal of the user on a mattress of the intelligent electric bed, comprises:

5. An intelligent electric bed, comprising:

the wake-up unit is used for playing a wake-up video preselected by the user to wake up the user when the recognition unit recognizes that the user is in a light sleep stage;

the intelligent electric bed further comprises:

6. The intelligent electric bed of claim 5, wherein:

the interaction unit is further configured to obtain, after sending a temperature adjustment instruction including the somatosensory temperature value to the intelligent shoe, the intelligent shoe to send a prompt message, where the prompt message is used to prompt the intelligent shoe to adjust an instant temperature value of an internal skin-friendly layer of the intelligent shoe to be consistent with the somatosensory temperature value;

the awakening unit is also used for playing the prompt message so that the user leaves the bed and wears the intelligent shoes under the prompt of the prompt message.

7. An intelligent electric bed, characterized in that the intelligent electric bed comprises:

a memory storing executable program code; a processor coupled to the memory; the processor invokes the executable program code stored in the memory to perform the steps of:

after playing the user pre-selected wake-up video to wake up the user, the processor further performs the steps of:

8. The intelligent electric bed according to claim 7, wherein after sending a temperature adjustment command to the intelligent shoe that includes the somatosensory temperature value, the processor further performs the steps of:

9. 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 smart electric bed based user wake-up method as claimed in any one of claims 1 to 4.