CN107743289B - Intelligent sound box control method in intelligent household scene - Google Patents

Abstract

The invention relates to the technical field of sound box control, in particular to an intelligent sound box control method in an intelligent home scene, which comprises the steps of firstly judging whether the current time is the sleep time or not based on biological clock information of a user, actively judging whether the user is in the sleep state or not only in the sleep time, and passively judging whether the user is in the sleep state or not outside the sleep time, so that the judgment times are reduced, the voice prompt efficiency is improved, and the user experience is improved; in addition, the user is judged to be sleeping under the condition that the user does not feed back or correctly feeds back the voice prompt information, and the volume of the sound box is gradually reduced at the moment so as to continuously adjust and adapt to the requirement of the user on the environmental sound in the sleeping process, so that the user is helped to sleep, and the method is a humanized improvement. Finally, in order to avoid the inconvenience of repeatedly setting and adjusting the duration of the user caused by setting a fixed cycle detection duration, the invention sets a random duration within a specific time range, thereby improving the cycle detection efficiency and further improving the user experience.

Description

Intelligent sound box control method in intelligent household scene

Technical Field

The application relates to the technical field of sound box control, in particular to an intelligent sound box control method in an intelligent home scene.

Background

The wireless sound box is a novel intelligent household appliance, and can be connected with Application programs (APP) on mobile devices such as a mobile phone, a tablet computer and a notebook computer through a wireless network, and the mobile devices can control music played in the wireless sound box through the APP.

Currently, player software can be automatically turned off after a user sleeps, and the implementation method thereof is as follows: the user sets the countdown playing time by himself, and when the countdown playing time is reached, the player stops playing the current music. However, the method of stopping playing music by counting down is not particularly suitable for the sleeping scene of the user, on one hand, the user is difficult to accurately estimate the sleeping time of the user, if the set time is too short, the player may stop playing music before the user completely falls asleep, and at this time, the user needs to find the corresponding list item again for playing; on the other hand, if the setting time is long, the user may fall asleep, and the design is not humanized.

In the prior art, document CN106028223A proposes a control method of an intelligent sound box, which outputs a preset reminding sound through the intelligent sound box; the intelligent sound box judges whether a reply sound responding to the preset reminding sound is received within a preset first time; if the reply sound responding to the preset reminding sound is received within the preset first time, judging that the user is in a non-sleep state, and continuously playing the current music by the intelligent sound box; and if the reply sound responding to the preset reminding sound is not received within the preset first time, judging that the user is in a sleep state, and closing the intelligent sound box. The method can judge whether the user enters the sleep state or not so as to control the work of the intelligent sound box, and provide a more convenient and personalized sleep mode for the user.

However, the above method has many disadvantages, firstly, the way of controlling the sound box to turn off based on the voice command alone does not take into account the real life needs of the user, for example, the user does not turn off the sound box due to rest in the daytime or under the condition of good mental condition, and at this time, if the user is reminded repeatedly and is required to feed back the voice command without entering into the sleep state, the user experience will be seriously affected. The method for immediately closing the loudspeaker box under the condition that the feedback information is not received can cause the use environment of the user to be quiet immediately, so that the user is influenced to normally enter a sleep state, the use experience of the user is also influenced, and the method is not humanized.

By combining the above analysis, the prior art does not provide a method for actively detecting and identifying whether a user is in a sleep state to control a sound box.

Disclosure of Invention

A method for controlling an intelligent sound box in an intelligent home scene comprises the following steps:

s1, establishing a communication connection between the handheld terminal of the user and the intelligent sound box, and acquiring the biological clock information of the user; the biological clock information is used for recording the sleeping time and the sleeping duration of the user;

s2, judging whether the user is in the sleep time according to the biological clock information and the current time, if so, going to step S3, and if not, going to step S6;

s3, sending sleep prompting information to the user, monitoring whether the user feeds back the prompting information, if yes, going to step S4, if no, going to step S5;

s4, identifying the content of the feedback information, and if the content is sleep, closing the intelligent sound box; if the playback is to be continued, go to step S6; if the identification cannot be correctly performed, the process proceeds to step S5;

s5, the current volume is adjusted downwards by one gear based on the volume of the intelligent sound box set by the user, and if the volume value after the adjustment is not zero, the step S2 is returned after the delay of preset time; if the volume value after the down-regulation is zero volume, judging that the user is in a sleep state, and closing the intelligent sound box;

s6, judging that the user is in a non-sleep state, and maintaining the working state of the intelligent sound box; and returns to the step S2 after a delay of a predetermined length of time.

As a preferred embodiment, if the prompt message fed back by the user is received as a continuous play after one or more time delays of a predetermined time length, recording the time for feeding back the prompt message by the user, and updating the time into the biological clock message.

As a preferred embodiment, the step S6 specifically includes:

judging that the user is in a non-sleep state, monitoring whether the volume of the intelligent sound box is the volume set by the user, and if so, maintaining the working state of the intelligent sound box;

if not, setting the volume value of the intelligent sound box as the volume value set by the user, and maintaining the working state of the intelligent sound box.

As a preferred embodiment, the step S2 further includes:

monitoring whether the user sends a voice control instruction in real time, and if the voice control instruction is to close the intelligent sound box, closing the intelligent sound box; and if the voice control instruction is a sleep instruction, closing the intelligent sound box, and updating the time for sending the sleep instruction into the biological clock information.

In a preferred embodiment, the predetermined time period in step S5 is any value within a specific time length range, and the predetermined time period in each cycle is different.

According to the method, whether the current time is the sleep time is judged based on the biological clock information of the user, whether the user is in the sleep state is judged actively only in the sleep time, and whether the user is in the sleep state is judged passively outside the sleep time, so that the judgment times are reduced, the voice prompt efficiency is improved, and the user experience is improved; in addition, the user is judged to be sleeping under the condition that the user does not feed back or correctly feeds back the voice prompt information, and the volume of the sound box is gradually reduced at the moment so as to continuously adjust and adapt to the requirement of the user on the environmental sound in the sleeping process, so that the user is helped to sleep, and the method is a humanized improvement. Finally, in order to avoid the inconvenience of repeatedly setting and adjusting the duration of the user caused by setting a fixed cycle detection duration, the invention sets a random duration within a specific time range, thereby improving the cycle detection efficiency and further improving the user experience.

In addition, the invention provides an intelligent sound box, wherein the intelligent sound box is in communication connection with a handheld terminal of a user, and the intelligent sound box comprises the following modules:

the information acquisition module is used for acquiring the biological clock information of the user; the biological clock information is used for recording the sleeping time and the sleeping duration of the user;

the first judging module is used for judging whether the user is in the sleep time or not according to the biological clock information and the current time, if so, the second judging module is executed, and if not, the second executing module is executed;

the second judging module is used for sending sleep prompting information to the user and monitoring whether the user feeds back the prompting information or not, if so, the third judging module is executed, and if not, the first executing module is executed;

the third judgment module is used for identifying the content of the feedback information, and if the sleep is performed, the intelligent sound box is closed; if the playing is continued, executing a second execution module; if the identification cannot be correctly identified, executing a first execution module;

the first execution module is used for reducing the current volume by one gear based on the volume of the intelligent sound box set by the user, and if the volume value after the reduction is not zero, the first execution module returns to execute the first judgment module after the delay of preset time; if the volume value after the down-regulation is zero volume, judging that the user is in a sleep state, and closing the intelligent sound box;

the second execution module is used for judging that the user is in a non-sleep state and maintaining the working state of the intelligent sound box; and after the delay of a preset time length, the first judgment module is returned to be executed.

As a preferred embodiment, if the prompt message fed back by the user is received as a continuous play after one or more time delays of a predetermined time length, recording the time for feeding back the prompt message by the user, and updating the time into the biological clock message.

As a preferred embodiment, the second execution module specifically includes:

judging that the user is in a non-sleep state, monitoring whether the volume of the intelligent sound box is the volume set by the user, and if so, maintaining the working state of the intelligent sound box;

if not, setting the volume value of the intelligent sound box as the volume value set by the user, and maintaining the working state of the intelligent sound box.

As a preferred implementation, the first determining module further includes:

monitoring whether the user sends a voice control instruction in real time, and if the voice control instruction is to close the intelligent sound box, closing the intelligent sound box; and if the voice control instruction is a sleep instruction, closing the intelligent sound box, and updating the time for sending the sleep instruction into the biological clock information.

In a preferred embodiment, the predetermined duration in the first execution module is any value within a specific time length range, and the predetermined duration in each cycle is a different value.

According to the method, whether the current time is the sleep time is judged based on the biological clock information of the user, whether the user is in the sleep state is judged actively only in the sleep time, and whether the user is in the sleep state is judged passively outside the sleep time, so that the judgment times are reduced, the voice prompt efficiency is improved, and the user experience is improved; in addition, the user is judged to be sleeping under the condition that the user does not feed back or correctly feeds back the voice prompt information, and the volume of the sound box is gradually reduced at the moment so as to continuously adjust and adapt to the requirement of the user on the environmental sound in the sleeping process, so that the user is helped to sleep, and the method is a humanized improvement. Finally, in order to avoid the inconvenience of repeatedly setting and adjusting the duration of the user caused by setting a fixed cycle detection duration, the invention sets a random duration within a specific time range, thereby improving the cycle detection efficiency and further improving the user experience.

Drawings

Fig. 1 is a schematic flow chart of a method for controlling an intelligent sound box in an intelligent home scene according to the present invention.

Detailed Description

The embodiments of the present invention are further described below with reference to the drawings.

The first embodiment is as follows:

fig. 1 is a method for controlling an intelligent sound box in an intelligent home scene, the method including the steps of:

s1, establishing a communication connection between the handheld terminal of the user and the intelligent sound box, and acquiring the biological clock information of the user; the biological clock information is used for recording the sleeping time and the sleeping duration of the user; the user handheld terminal can be mobile electronic equipment such as a mobile phone and a tablet personal computer; and the intelligent sound box is used for receiving and playing the audio signal sent by the user handheld terminal. For example, the user A sleeps for 10 o 'clock at night and 8 hours to 6 o' clock in the morning; it should be noted that different biological clock information may be set for different users, and after the communication connection is established between the handheld terminal of the user and the smart speaker, the biological clock information corresponding to the user is obtained.

S2, judging whether the user is in the sleep time according to the biological clock information and the current time, if so, going to step S3, and if not, going to step S6;

s3, sending sleep prompting information to the user, monitoring whether the user feeds back the prompting information, if yes, going to step S4, if no, going to step S5; for example, the current time is 11 o ' clock in the evening, since the current time is in the sleeping time of the user a, i.e., 10 o ' clock in the evening to 6 o ' clock in the morning; sending sleep prompt information to the user A and monitoring whether the user feeds back the prompt information; preferably, the prompt message is a voice prompt message, for example, "the user has cheerful", "do you go to sleep", etc.; preferably, the prompt information fed back by the user can be voice information.

S4, identifying the content of the feedback information, and if the content is sleep, closing the intelligent sound box; if the playback is to be continued, go to step S6; if the identification cannot be correctly performed, the process proceeds to step S5; for example, if keywords such as sleep and rest exist in the voice information fed back by the user, it is determined that the user wants to sleep, and at this time, the smart sound box is turned off; if the speech information fed back by the user includes keywords such as continuation keyword and stop keyword, it is determined that the user does not want to rest, and the process proceeds to step S6.

S5, the current volume is adjusted downwards by one gear based on the volume of the intelligent sound box set by the user, and if the volume value after the adjustment is not zero, the step S2 is returned after the delay of preset time; if the volume value after the down-regulation is zero volume, judging that the user is in a sleep state, and closing the intelligent sound box; on one hand, the sound volume is turned down instead of directly turning off the sound box, so that misoperation, namely short behaviors of dozing off and the like of the user are avoided; on the other hand, the sleep state gradually adapts to the user, because the process that the human body gradually enters the sleep state usually needs several minutes or more than ten minutes, sudden silence during the process can disturb the human body to enter the real sleep state; therefore, the method of gradually reducing the volume is adopted to simultaneously take the two practical requirements into consideration.

S6, judging that the user is in a non-sleep state, and maintaining the working state of the intelligent sound box; and returns to the step S2 after a delay of a predetermined length of time. The cyclic detection can intermittently remind the user to take a rest as soon as possible, and can avoid the problem that the user experience is influenced due to single judgment error.

As a preferred embodiment, if the prompt message fed back by the user is received as a continuous play after one or more time delays of a predetermined time length, recording the time for feeding back the prompt message by the user, and updating the time into the biological clock message. At this time, the mental state of the user is better, and the biological clock information of the system is updated to improve the intelligent level of judgment.

As a preferred embodiment, the step S6 specifically includes:

judging that the user is in a non-sleep state, monitoring whether the volume of the intelligent sound box is the volume set by the user, and if so, maintaining the working state of the intelligent sound box; this determination is made to maintain the user experience of the volume setting of the smart speaker.

If not, setting the volume value of the intelligent sound box as the volume value set by the user, and maintaining the working state of the intelligent sound box. If the user is determined to be in the non-sleep state, the volume of the smart sound box may have been reduced after the time and the cycle have passed, which may affect the user experience of the user on the normal volume of the smart sound box, and thus, the volume set by the user needs to be restored at this time.

As a preferred embodiment, the step S2 further includes:

monitoring whether the user sends a voice control instruction in real time, and if the voice control instruction is to close the intelligent sound box, closing the intelligent sound box; and if the voice control instruction is a sleep instruction, closing the intelligent sound box, and updating the time for sending the sleep instruction into the biological clock information. In addition to the passive receiving of the feedback instruction of the intelligent sound box by the user, the user can also adopt the active control of the sound box, and the active control instruction also reflects the biological clock information of the user, especially in the use scene at night; at this time, updating the biological clock information corresponding to the user can also improve the intelligence level of the judgment.

In a preferred embodiment, the predetermined time period in step S5 is any value within a specific time length range, and the predetermined time period in each cycle is different. For example, the specific time length is 10 minutes, and 1 minute is taken as a minimum unit, the predetermined time length of the first cycle may be 3 minutes, the predetermined time length of the second cycle may be any value of 1-2, 4-10 except 3 minutes, and so on, which is not described herein again. The time length setting mode can avoid inconvenience of repeatedly setting and adjusting the time length of a user caused by setting the fixed cycle detection time length, improves the cycle detection efficiency and further improves the user experience.

According to the method, whether the current time is the sleep time is judged based on the biological clock information of the user, whether the user is in the sleep state is judged actively only in the sleep time, and whether the user is in the sleep state is judged passively outside the sleep time, so that the judgment times are reduced, the voice prompt efficiency is improved, and the user experience is improved; in addition, the user is judged to be sleeping under the condition that the user does not feed back or correctly feeds back the voice prompt information, and the volume of the sound box is gradually reduced at the moment so as to continuously adjust and adapt to the requirement of the user on the environmental sound in the sleeping process, so that the user is helped to sleep, and the method is a humanized improvement. Finally, in order to avoid the inconvenience of repeatedly setting and adjusting the duration of the user caused by setting a fixed cycle detection duration, the invention sets a random duration within a specific time range, thereby improving the cycle detection efficiency and further improving the user experience.

Example two:

in addition, the invention provides an intelligent sound box, wherein the intelligent sound box is in communication connection with a handheld terminal of a user, and the intelligent sound box comprises the following modules:

the information acquisition module is used for acquiring the biological clock information of the user; the biological clock information is used for recording the sleeping time and the sleeping duration of the user; the user handheld terminal can be mobile electronic equipment such as a mobile phone and a tablet personal computer; and the intelligent sound box is used for receiving and playing the audio signal sent by the user handheld terminal. For example, the user A sleeps for 10 o 'clock at night and 8 hours to 6 o' clock in the morning; it should be noted that different biological clock information may be set for different users, and after the communication connection is established between the handheld terminal of the user and the smart speaker, the biological clock information corresponding to the user is obtained.

The first judging module is used for judging whether the user is in the sleep time or not according to the biological clock information and the current time, if so, the second judging module is executed, and if not, the second executing module is executed;

the second judging module is used for sending sleep prompting information to the user and monitoring whether the user feeds back the prompting information or not, if so, the third judging module is executed, and if not, the first executing module is executed; for example, the current time is 11 o ' clock in the evening, since the current time is in the sleeping time of the user a, i.e., 10 o ' clock in the evening to 6 o ' clock in the morning; sending sleep prompt information to the user A and monitoring whether the user feeds back the prompt information; preferably, the prompt message is a voice prompt message, for example, "the user has cheerful", "do you go to sleep", etc.; preferably, the prompt information fed back by the user can be voice information.

The third judgment module is used for identifying the content of the feedback information, and if the sleep is performed, the intelligent sound box is closed; if the playing is continued, executing a second execution module; if the identification cannot be correctly identified, executing a first execution module; for example, if keywords such as sleep and rest exist in the voice information fed back by the user, it is determined that the user wants to sleep, and at this time, the smart sound box is turned off; and if the voice information fed back by the user contains keywords such as continuation keywords, stop keywords and the like, judging that the user does not want to have a rest.

The first execution module is used for reducing the current volume by one gear based on the volume of the intelligent sound box set by the user, and if the volume value after the reduction is not zero, the first execution module returns to execute the first judgment module after the delay of preset time; if the volume value after the down-regulation is zero volume, judging that the user is in a sleep state, and closing the intelligent sound box; on one hand, the sound volume is turned down instead of directly turning off the sound box, so that misoperation, namely short behaviors of dozing off and the like of the user are avoided; on the other hand, the sleep state gradually adapts to the user, because the process that the human body gradually enters the sleep state usually needs several minutes or more than ten minutes, sudden silence during the process can disturb the human body to enter the real sleep state; therefore, the method of gradually reducing the volume is adopted to simultaneously take the two practical requirements into consideration.

The second execution module is used for judging that the user is in a non-sleep state and maintaining the working state of the intelligent sound box; and after the delay of a preset time length, the first judgment module is returned to be executed. The cyclic detection can intermittently remind the user to take a rest as soon as possible, and can avoid the problem that the user experience is influenced due to single judgment error.

As a preferred embodiment, if the prompt message fed back by the user is received as a continuous play after one or more time delays of a predetermined time length, recording the time for feeding back the prompt message by the user, and updating the time into the biological clock message. At this time, the mental state of the user is better, and the biological clock information of the system is updated to improve the intelligent level of judgment.

As a preferred embodiment, the second execution module specifically includes:

judging that the user is in a non-sleep state, monitoring whether the volume of the intelligent sound box is the volume set by the user, and if so, maintaining the working state of the intelligent sound box;

if not, setting the volume value of the intelligent sound box as the volume value set by the user, and maintaining the working state of the intelligent sound box. If the user is determined to be in the non-sleep state, the volume of the smart sound box may have been reduced after the time and the cycle have passed, which may affect the user experience of the user on the normal volume of the smart sound box, and thus, the volume set by the user needs to be restored at this time.

As a preferred implementation, the first determining module further includes:

monitoring whether the user sends a voice control instruction in real time, and if the voice control instruction is to close the intelligent sound box, closing the intelligent sound box; and if the voice control instruction is a sleep instruction, closing the intelligent sound box, and updating the time for sending the sleep instruction into the biological clock information. In addition to the passive receiving of the feedback instruction of the intelligent sound box by the user, the user can also adopt the active control of the sound box, and the active control instruction also reflects the biological clock information of the user, especially in the use scene at night; at this time, updating the biological clock information corresponding to the user can also improve the intelligence level of the judgment.

In a preferred embodiment, the predetermined duration in the first execution module is any value within a specific time length range, and the predetermined duration in each cycle is a different value. For example, the specific time length is 10 minutes, and 1 minute is taken as a minimum unit, the predetermined time length of the first cycle may be 3 minutes, the predetermined time length of the second cycle may be any value of 1-2, 4-10 except 3 minutes, and so on, which is not described herein again. The time length setting mode can avoid inconvenience of repeatedly setting and adjusting the time length of a user caused by setting the fixed cycle detection time length, improves the cycle detection efficiency and further improves the user experience.

According to the method, whether the current time is the sleep time is judged based on the biological clock information of the user, whether the user is in the sleep state is judged actively only in the sleep time, and whether the user is in the sleep state is judged passively outside the sleep time, so that the judgment times are reduced, the voice prompt efficiency is improved, and the user experience is improved; in addition, the user is judged to be sleeping under the condition that the user does not feed back or correctly feeds back the voice prompt information, and the volume of the sound box is gradually reduced at the moment so as to continuously adjust and adapt to the requirement of the user on the environmental sound in the sleeping process, so that the user is helped to sleep, and the method is a humanized improvement. Finally, in order to avoid the inconvenience of repeatedly setting and adjusting the duration of the user caused by setting a fixed cycle detection duration, the invention sets a random duration within a specific time range, thereby improving the cycle detection efficiency and further improving the user experience.

It will be understood by those within the art that each block of the block diagrams and/or flowchart illustrations, and combinations of blocks in the block diagrams and/or flowchart illustrations, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the methods specified in the block or blocks of the block diagrams and/or flowchart block or blocks.

Those of skill in the art will appreciate that various operations, methods, steps in the processes, acts, or solutions discussed in the present application may be alternated, modified, combined, or deleted. Further, various operations, methods, steps in the flows, which have been discussed in the present application, may be interchanged, modified, rearranged, decomposed, combined, or eliminated. Further, steps, measures, schemes in the various operations, methods, procedures disclosed in the prior art and the present invention can also be alternated, changed, rearranged, decomposed, combined, or deleted.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (6)

1. A method for controlling an intelligent sound box in an intelligent home scene is characterized by comprising the following steps:

s1, establishing a communication connection between the handheld terminal of the user and the intelligent sound box, and acquiring the biological clock information of the user; the biological clock information is used for recording the sleeping time and the sleeping duration of the user;

s2, judging whether the user is in the sleep time according to the biological clock information and the current time, if so, going to step S3, and if not, going to step S6;

s3, sending sleep prompting information to the user, monitoring whether the user feeds back the prompting information, if yes, going to step S4, if no, going to step S5;

s4, identifying the content of the feedback information, and if the sleep state is detected, closing the intelligent sound box; if the playback is to be continued, go to step S6; if the identification cannot be correctly performed, the process proceeds to step S5;

s5, the current volume is adjusted downwards by one gear based on the volume of the intelligent sound box set by the user, and if the volume value after the adjustment is not zero, the step S2 is returned after the delay of preset time; if the volume value after the down-regulation is zero volume, judging that the user is in a sleep state, and closing the intelligent sound box; the preset time length is any value in a specific time length range, and the preset time length of each cycle is different;

s6, judging that the user is in a non-sleep state, monitoring whether the volume of the intelligent sound box is the volume set by the user, and if so, maintaining the working state of the intelligent sound box;

if not, setting the volume value of the intelligent sound box as the volume value set by the user, and maintaining the working state of the intelligent sound box; and returns to the step S2 after a delay of a predetermined length of time.

2. The method of claim 1, wherein:

and if the prompt information fed back by the user is received as continuous playing after one or more time delays of preset time length, recording the time for feeding back the prompt information by the user, and updating the time into the biological clock information.

3. The method according to claim 1, wherein the step S2 further comprises:

monitoring whether the user sends a voice control instruction in real time, and if the voice control instruction is to close the intelligent sound box, closing the intelligent sound box; and if the voice control instruction is a sleep instruction, closing the intelligent sound box, and updating the time for sending the sleep instruction into the biological clock information.

4. The utility model provides an intelligent sound box, its characterized in that, intelligent sound box establishes communication connection with user hand-held terminal, intelligent sound box includes following module:

the information acquisition module is used for acquiring the biological clock information of the user; the biological clock information is used for recording the sleeping time and the sleeping duration of the user;

the first judging module is used for judging whether the user is in the sleep time or not according to the biological clock information and the current time, if so, the second judging module is executed, and if not, the second executing module is executed;

the second judging module is used for sending sleep prompting information to the user and monitoring whether the user feeds back the prompting information or not, if so, the third judging module is executed, and if not, the first executing module is executed;

the third judgment module is used for identifying the content of the feedback information, and if the sleep is performed, the intelligent sound box is closed; if the playing is continued, executing a second execution module; if the identification cannot be correctly identified, executing a first execution module;

the first execution module is used for reducing the current volume by one gear based on the volume of the intelligent sound box set by the user, and if the volume value after the reduction is not zero, the first execution module returns to execute the first judgment module after the delay of preset time; if the volume value after the down-regulation is zero volume, judging that the user is in a sleep state, and closing the intelligent sound box; the preset time length is any value in a specific time length range, and the preset time length of each cycle is different;

the second execution module is used for judging that the user is in a non-sleep state, monitoring whether the volume of the intelligent sound box is the volume set by the user or not, and if so, maintaining the working state of the intelligent sound box; if not, the volume value of the intelligent sound box is set as the volume value set by the user, the working state of the intelligent sound box is maintained, and the first judgment module is returned to be executed after the delay of preset time.

5. The smart sound box of claim 4, wherein:

and if the prompt information fed back by the user is received as continuous playing after one or more time delays of preset time length, recording the time for feeding back the prompt information by the user, and updating the time into the biological clock information.

6. The smart sound box of claim 4, wherein the first determining module further comprises:

monitoring whether the user sends a voice control instruction in real time, and if the voice control instruction is to close the intelligent sound box, closing the intelligent sound box; and if the voice control instruction is a sleep instruction, closing the intelligent sound box, and updating the time for sending the sleep instruction into the biological clock information.

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