CN110868494B - Alarm clock volume adjusting method, mobile terminal and device with storage function - Google Patents

Abstract

The invention discloses an alarm clock volume adjusting method, a mobile terminal and a device with a storage function, wherein the method is applied to the mobile terminal and comprises the steps of judging whether the mobile terminal is in an off-machine state before the ringing time of an alarm clock arrives, wherein the off-machine state is a state that the mobile terminal is not used by a user; if the mobile terminal is in an off-line state, increasing the ringing volume of the alarm clock; and if the mobile terminal is not in the off-line state, reducing the ringing volume of the alarm clock. By the method, the alarm clock can be prevented from being incapable of reminding the user or causing the user to feel uncomfortable due to overlarge volume.

Description

Alarm clock volume adjusting method, mobile terminal and device with storage function

Technical Field

The invention relates to the technical field of mobile terminal equipment, in particular to an alarm clock volume adjusting method, a mobile terminal and a device with a storage function.

Background

When a user uses the mobile terminal, the alarm clock application becomes an application program with high use frequency, and the alarm clock is used for reminding the user of getting up, meeting time or reminding other important things.

However, when the preset ring volume of the alarm clock is low, the user may not hear the ring of the alarm clock due to surrounding noise or the user is in a deep sleep state, so that the alarm clock cannot play a role in reminding the user; on the contrary, when the preset ringing volume of the alarm clock is higher, the alarm clock may be frightened by the ringing with too large volume which is suddenly sounded by the alarm clock, so that the user feels uncomfortable, for example, the alarm clock is used for reminding the user to get up, and the user who sleeps shallowly is awakened due to too large volume, so that the user is not experienced well.

Disclosure of Invention

The invention mainly solves the technical problem of providing an alarm clock volume adjusting method, a mobile terminal and a device with a storage function, which can prevent an alarm clock from failing to play a role in reminding a user or causing the user to feel uncomfortable due to overlarge volume.

In order to solve the technical problem, one technical scheme adopted by the invention is to provide a method for adjusting the volume of an alarm clock, wherein the method is applied to a mobile terminal and comprises the following steps: judging whether the mobile terminal is in an off-line state before the ringing time of the alarm clock arrives, wherein the off-line state is a state that the mobile terminal is not used by a user; if the mobile terminal is in an off-line state, increasing the ringing volume of the alarm clock; and if the mobile terminal is not in the off-line state, reducing the ringing volume of the alarm clock.

Wherein, the judging whether the mobile terminal is in an off-line state includes: obtaining shaking information of the mobile terminal in a first preset time period before the ringing time of the alarm clock reaches; judging whether the shaking information meets a preset condition or not; if yes, judging that the mobile terminal is in an off-machine state; if not, judging that the mobile terminal is not in the off-line state.

The shaking information comprises the shaking times of the mobile terminal in the first preset time period, and the preset condition is that the shaking times are smaller than a preset threshold value.

The shaking information comprises the shaking times of the mobile terminal in the first preset time period and the shaking amplitude of the mobile terminal in each shaking; the preset condition is that the frequency that the shaking amplitude of the mobile terminal is larger than the preset amplitude in the shaking frequency is smaller than a preset threshold value.

After obtaining shaking information of the mobile terminal in a first preset time period before the ringing time of the alarm clock arrives, the method further includes: acquiring a time difference between shaking occurrence time of the mobile terminal closest to the ringing time of the alarm clock and the ringing time of the alarm clock; obtaining the ringing volume adjusting amplitude of the alarm clock to be adjusted according to the corresponding relation between the time difference and the ringing volume adjusting amplitude of the alarm clock; the increasing the ringing volume of the alarm clock comprises: increasing the ringing volume of the alarm clock according to the amplitude of the ringing volume of the alarm clock needing to be adjusted; the reducing the ringing volume of the alarm clock comprises: and reducing the ringing volume of the alarm clock according to the ringing volume adjusting amplitude of the alarm clock needing to be adjusted.

Before the obtaining of the time difference between the shaking time of the mobile terminal closest to the ringing time of the alarm clock and the ringing time of the alarm clock, the method includes: and establishing a corresponding relation between the time difference and the ringing volume adjusting amplitude of the alarm clock, wherein the corresponding relation is a positive correlation.

Wherein, if the mobile terminal is not in the off-line state, the determining that the mobile terminal is not in the off-line state includes: if not, judging whether the ringing time of the alarm clock is the sleep alarm clock time or not; if so, judging that the mobile terminal is in an off-machine state; and if not, executing the judgment that the mobile terminal is not in the off-line state.

Wherein the method further comprises: judging whether the mobile terminal is in the off-line state within second preset time after the ringing time of the alarm clock arrives; and if the mobile terminal is in an off-line state, controlling the mobile terminal to perform alarm clock ringing again at a ringing volume greater than the previous alarm clock ringing volume when the alarm clock ringing time reaches a second preset time.

In order to solve the above technical problem, another technical solution adopted by the present invention is to provide a mobile terminal, including a memory and a processor coupled to each other; the memory is used for storing program data; the processor executes the program data for implementing the method as described above.

In order to solve the technical problem, another technical solution adopted by the present invention is to provide an apparatus having a storage function, wherein the apparatus stores program data, and the program data can be executed to implement the method.

The invention has the beneficial effects that: different from the prior art, whether the mobile terminal is in the off-line state or not is judged before the ringing time of the alarm clock reaches, wherein the off-line state is the state that the mobile terminal is not used by a user, and the ringing volume of the alarm clock is selectively increased or reduced according to whether the mobile terminal is in the off-line state or not, so that the alarm clock can be prevented from being incapable of reminding the user or causing the user to feel uncomfortable due to overlarge volume.

Drawings

Fig. 1 is a schematic flow chart of a method for adjusting the volume of an alarm clock according to a first embodiment of the present invention;

fig. 2 is a schematic flowchart of a method for determining whether a mobile terminal is in an off-hook state in an alarm clock volume adjusting method according to a first embodiment of the present invention;

FIG. 3 is a schematic flow chart of a method for adjusting the volume of an alarm clock according to a second embodiment of the present invention;

fig. 4 is a schematic flowchart of a second embodiment of a method for determining whether a mobile terminal is in an off-hook state in an alarm clock volume adjusting method according to the present invention;

fig. 5 is a schematic flowchart of a third embodiment of a method for determining whether a mobile terminal is in an off-hook state in an alarm clock volume adjusting method according to the present invention;

fig. 6 is a schematic flowchart of a fourth embodiment of a method for determining whether a mobile terminal is in an off-hook state in an alarm clock volume adjusting method according to the present invention;

FIG. 7 is a flowchart illustrating a method for adjusting the volume of an alarm clock according to a third embodiment of the present invention;

fig. 8 is a schematic structural diagram of an embodiment of a mobile terminal provided in the present invention;

fig. 9 is a schematic structural diagram of an embodiment of an apparatus with a storage function according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

Referring to fig. 1, fig. 1 is a schematic flow chart illustrating a method for adjusting the volume of an alarm clock according to a first embodiment of the present invention. The method for adjusting the volume of the alarm clock is applied to the mobile terminal, and the adjustment of the volume of the alarm clock in the embodiment comprises the following steps:

s101: judging whether the mobile terminal is in an off-line state before the ringing time of the alarm clock is reached, wherein the off-line state is a state that the mobile terminal is not used by a user.

It can be understood that the alarm clock ringing time can be stored in the mobile terminal, and the event for judging whether the mobile terminal is in the off-machine state in the present application can be automatically triggered by the mobile terminal, for example, the event for judging whether the mobile terminal is in the off-machine state can be triggered by the mobile terminal when a certain time before the alarm clock ringing time reaches, where the certain time can be 10 seconds, 1 minute or any self-defined time before the alarm clock ringing time reaches. The off-machine state in this application is a state in which the mobile terminal is not used by the user, that is, when the mobile terminal is not used by the user for a period of time before the alarm clock ringing time arrives, for example, the mobile terminal is not touched or operated by the user, or has moved, and the like, at this time, the mobile terminal is in the off-machine state. When the user uses the mobile terminal, the alarm clock is an application program with high frequency of use, for example, used for reminding the user to get up, meeting time or memorandum other important things; in a specific application scenario, a user sets a wake-up alarm clock for reminding the user to get up, and generally, the user cannot wake up before the wake-up alarm clock rings because the user sleeps, so that the user cannot use the mobile terminal before the wake-up alarm clock rings, and the mobile terminal is in an off-line state at the moment; in another specific application scenario, a user sets a conference alarm clock for reminding the user of the conference time, at this time, the user is in a working state, and since the user knows the conference time, the user is likely to remember the conference before the conference time reaches, and prepare for the conference in advance, for example, the user arrives at a conference room in advance, at this time, the user uses the mobile terminal before the conference alarm clock rings, and at this time, the mobile terminal is not in an off-line state.

S102: and if the mobile terminal is in an off-line state, increasing the ringing volume of the alarm clock.

It can be understood that when the mobile terminal is in the off-machine state, that is, the mobile terminal is not used by the user for a period of time, it can be stated that the user does not pay attention to the mobile terminal, nor to the things to be reminded by the alarm clock, or the user pays more attention to other things than the things to be reminded by the alarm clock; at this time, in order to remind the user and to make the user receive the alarm of the alarm clock to a greater extent, the ringing volume of the alarm clock may be selected to be increased. For example, when the user is sleeping, the ringing volume of the alarm can be increased in order to prevent the user from not hearing the alarm due to deep sleep; or the user is discussing something with others, because the environment where the user is located is noisy at this time, the ringing volume of the alarm clock can be increased in order to prevent the user from not hearing the ringing of the alarm clock; or, the user plays the ball in the basketball court, and under the general condition, the mobile terminal can be placed at a place far away from the basketball court, and at this moment, if the alarm clock rings, because the separation distance is too far away, the ring volume of the alarm clock can be increased in order to allow the user to hear the ring of the alarm clock.

S103: and if the mobile terminal is not in the off-line state, reducing the ringing volume of the alarm clock.

It can be understood that when the mobile terminal is not in the off-state, that is, the mobile terminal is used by the user within a period of time, it can be stated that the user has paid attention to the mobile terminal at present and also paid attention to the things to be reminded by the alarm clock; at this moment, because the user has paid attention to the mobile terminal in a period of time before the ringing time of the alarm clock arrives, the reminding function of the alarm clock is relatively weak, the user can wait for the alarm clock to ring at many times, and the user pays more attention to whether the alarm clock rings or not, so that the ringing volume of the alarm clock can be reduced. For example, the user sleeps and wakes up, but because the alarm clock does not sound, the user continues to lie on the bed after picking up the mobile terminal to see at a glance, and the user wants to lie on the bed for a while more, namely, to lean on the bed; it can be understood that although the user lies in bed, the user constantly pays attention to whether the alarm clock rings or not, so that the user can get up after the alarm clock rings, and at the moment, the ringing volume of the alarm clock can be reduced, and the situation that the user is frightened due to the fact that the ringing volume of the alarm clock is too large is prevented.

In this embodiment, whether the mobile terminal is in an off-line state is judged before the ringing time of the alarm clock arrives, wherein the off-line state is a state in which the mobile terminal is not used by a user, and the ringing volume of the alarm clock is selectively increased or decreased according to whether the mobile terminal is in the off-line state, so that the alarm clock can be prevented from failing to play an effect of reminding the user or causing the user to feel uncomfortable due to too large volume.

Referring to fig. 2, fig. 2 is a flowchart illustrating a method for determining whether a mobile terminal is in an off-hook state in an alarm clock volume adjusting method according to a first embodiment of the present invention. The method for judging whether the mobile terminal is in the off-line state in the embodiment comprises the following steps:

s201: and acquiring shaking information of the mobile terminal in a first preset time period before the ringing time of the alarm clock arrives.

The off-line state in the application is a state that the mobile terminal is not used by a user, namely, the mobile terminal is not used by the user in a period of time before the ringing time of the alarm clock arrives, and at the moment, the mobile terminal is in the off-line state. The user may set the period of time to a first preset time period, which may be arbitrarily set, for example, 1 hour, 4 hours, or 8 hours, and so on, that is, when the mobile terminal is not used by the user within 1 hour, 4 hours, or 8 hours before the alarm clock ringing time arrives, the mobile terminal is in an off-hook state. In the embodiment, whether the mobile terminal is in the off-machine state or not can be judged by acquiring the shaking information of the mobile terminal in the first preset time period before the ringing time of the alarm clock reaches.

S202: and judging whether the shaking information meets a preset condition or not.

The mobile terminal can preset a preset condition for judging whether the mobile terminal is in an off-line state, wherein the preset condition is related to shaking information of the mobile terminal in a first preset time period before the ringing time of the alarm clock arrives.

S203: and if so, judging that the mobile terminal is in an off-line state.

It can be understood that the obtained shaking information of the mobile terminal in the first preset time period before the ringing time of the alarm clock reaches is compared with the preset condition, and when the obtained shaking information meets the preset condition, it can be judged that the mobile terminal is in the off-machine state at the moment.

S204: if not, judging that the mobile terminal is not in the off-line state.

Similarly, the obtained shaking information of the mobile terminal in a first preset time period before the ringing time of the alarm clock reaches is compared with a preset condition, and when the obtained shaking information does not meet the preset condition, the mobile terminal is judged not to be in an off-machine state at the moment.

In this embodiment, whether the mobile terminal is in the off-machine state can be determined by obtaining the shaking information of the mobile terminal in the first preset time period before the ringing time of the alarm clock reaches and determining whether the shaking information meets the preset condition, so that the ringing volume of the alarm clock can be selectively increased or decreased according to whether the mobile terminal is in the off-machine state.

Further, the shaking information includes the shaking times of the mobile terminal in a first preset time period, and the preset condition is that the shaking times are smaller than a preset threshold value. In a specific implementation scenario, a user sets the first preset time period to be 1 hour, and the preset condition is that the shaking times are smaller than a preset threshold, and the preset threshold is set to be 2 times by the user; therefore, the shaking times of the mobile terminal within 1 hour before the ringing time of the alarm clock reaches can be obtained, whether the shaking times is less than 2 times or not is judged, if the shaking times is less than 2 times, the mobile terminal is judged to be in the off-machine state, and if the shaking times is not less than 2 times, the mobile terminal is judged not to be in the off-machine state. For example, the alarm clock set by the user is a wake-up alarm clock, and the user does not wake up within 1 hour before the ringing time of the alarm clock arrives, so that the user cannot use the mobile terminal within 1 hour before the ringing time of the alarm clock arrives, the shaking frequency of the mobile terminal is 0, and then the mobile terminal can be judged to be in an off-line state; to prevent the user from not hearing the alarm clock ringing due to sleeping too deeply, the alarm's ringing volume may be increased. For another example, the alarm clock set by the user is a getting-up alarm clock, and the user wakes up within 1 hour before the ringing time of the getting-up alarm clock reaches, but because the getting-up alarm clock does not ring, the user continues to lie on the bed after picking up the mobile terminal and seeing that the user keeps track of whether the getting-up alarm clock rings at all times, and the user can get up after the getting-up alarm clock rings; then, in the 40 th minute before the ringing time of the waking alarm clock reaches, the user picks up the mobile terminal again and sees the time at a glance, and continues to sleep if the time is not the waking time; then, in the 10 th minute before the ringing time of the alarm clock of getting up, the user picks up the mobile terminal for the third time and sees the time at a glance, finds that the time still does not reach the time of getting up, and then continues to lie on the bed; therefore, before the ringing time of the alarm clock arrives, the shaking times of the mobile terminal within 1 hour before the ringing time of the alarm clock arrives are acquired to be 3 times and more than 2 times of the preset threshold value, so that the mobile terminal can be judged not to be in an off-line state, and at the moment, as the user is in a waking state or a light sleep state, the ringing volume of the alarm clock can be reduced, and the user is prevented from being scared due to the fact that the ringing volume of the alarm clock is too large.

Further, the shaking information comprises the shaking times of the mobile terminal in a first preset time period and the shaking amplitude of each shaking of the mobile terminal; at this time, the preset condition is that the number of times that the shaking amplitude of the mobile terminal is greater than the preset amplitude in the shaking times is less than the preset threshold. In a specific implementation scenario, the first preset time period is set to be 30 minutes by a user, the preset condition is that the number of times that the shaking amplitude of the mobile terminal is larger than the preset amplitude in the shaking times is smaller than a preset threshold, the shaking amplitude is the shaking degree of the mobile terminal, the preset amplitude is set to be 5 degrees, and the preset threshold is set to be 2 times by the user; therefore, the shaking times of the mobile terminal within 30 minutes before the ringing time of the alarm clock is reached can be obtained, the shaking amplitude of the mobile terminal during each shaking is obtained, whether the shaking amplitude of the mobile terminal during each shaking is larger than 5 degrees is judged, the times that the shaking amplitude of the mobile terminal is larger than 5 degrees is obtained and recorded as effective shaking times, whether the effective shaking times is smaller than 2 times is judged, if the effective shaking times is smaller than 2 times, the mobile terminal is judged to be in an off-machine state, and if the effective shaking times is not smaller than 2 times, the mobile terminal is judged not to be in the off-machine state. For example, the alarm clock set by the user is a conference alarm clock, the user works in an office within 30 minutes before the ringing time of the conference alarm clock arrives, the mobile terminal is placed on an office table, the user does not contact the mobile terminal within 30 minutes before the ringing time of the alarm clock arrives, but a colleague nearby midway kicks the office table once, the shaking frequency of the mobile terminal is 1 and the shaking amplitude is 3 degrees because the shaking amplitude of the mobile terminal is less than 5 degrees after only 1 shaking, and therefore the effective shaking frequency of the mobile terminal is 0 and less than 2 times of a preset threshold value, and the mobile terminal can be judged to be in an off-line state; in order to prevent the working environment of the office from being noisy so that the user does not hear the alarm of the alarm clock, the ringing volume of the conference alarm can be increased when the alarm is sounded. For another example, the alarm clock set by the user is a conference alarm clock, because the conference is very important, the user picks up the mobile terminal for many times within 30 minutes before the ringing time of the conference alarm clock arrives to see the time, but because the conference alarm clock does not ring, the user puts down the mobile terminal after picking up the mobile terminal to see the time at a glance, and after 5 times of picking up and viewing the time, the ringing time of the conference alarm clock arrives; it can be known that the shaking times of the mobile terminal are 5 times in 30 minutes before the ringing time of the conference alarm clock arrives, and since the user picks up the mobile terminal to check the time each time, the shaking amplitude is greater than 5 degrees, the effective shaking times of the mobile terminal is 5 times and greater than 2 times of a preset threshold value, and the mobile terminal can be judged not to be in an off-line state; at the moment, the user pays attention to whether the conference alarm clock rings or not at all time so as to participate in the conference after the alarm clock rings, and the ringing volume of the conference alarm clock can be reduced at the moment, so that the user is prevented from being frightened due to the fact that the ringing volume of the conference alarm clock is too large.

In other embodiments, the shaking amplitude may also be a distance moved by the mobile terminal, and the preset amplitude is a preset distance moved by the mobile terminal, so that the effective shaking times are times that the moving distance of the mobile terminal is greater than the preset distance among the shaking times of the mobile terminal in the first preset time period.

Please refer to fig. 3 and fig. 4, wherein fig. 3 is a flowchart illustrating a second embodiment of a method for adjusting the volume of an alarm clock according to the present invention, and fig. 4 is a flowchart illustrating a second embodiment of a method for determining whether a mobile terminal is in an off-hook state in the method for adjusting the volume of an alarm clock according to the present invention. As shown in fig. 4, the method for determining whether a mobile terminal is in an off-line state in this embodiment includes:

s401: and acquiring shaking information of the mobile terminal in a first preset time period before the ringing time of the alarm clock arrives.

In this implementation scenario, step S401 provided in this embodiment is substantially similar to step S201 in the first embodiment of the method for determining whether the mobile terminal is in the off-hook state in the method for adjusting the volume of the alarm clock provided in this application, and details thereof are not repeated here.

S402: and acquiring the time difference between the shaking occurrence time of the mobile terminal closest to the ringing time of the alarm clock and the ringing time of the alarm clock.

It can be understood that, since the shaking information includes the shaking times of the mobile terminal in the first preset time period, there is necessarily a time difference between the shaking time of a certain shaking and the ringing time of the alarm clock, for example, the time difference between the last time the user looked at the time before the ringing of the alarm clock when getting up and the ringing time of the alarm clock when the user looked at the time before the ringing of the alarm clock, or the time difference between the last time the user looked at the time before the ringing of the conference alarm clock and the ringing time of the conference alarm clock.

S403: and obtaining the ringing volume adjusting amplitude of the alarm clock to be adjusted according to the corresponding relation between the time difference and the ringing volume adjusting amplitude of the alarm clock.

It will be appreciated that, in general, the longer the time interval, the less attention one has to a certain event, in other words, the longer the time the alarm clock reaches, the longer the mobile terminal is operated or moved by the user, and the longer the time the user operates or moves the mobile terminal is from the alarm clock ringing time, the more difficult the user can remember the alarm clock reminder before the alarm clock ringing time reaches. Therefore, the time difference between the shaking time of the shaking time closest to the ringing time of the alarm clock and the ringing time of the alarm clock is related to the degree to which the user actively focuses on the alarm clock when the alarm clock rings; and because the ringing volume adjusting amplitude of the alarm clock to be adjusted can be selected according to the degree that the user actively pays attention to the alarm clock when the alarm clock rings, the time difference between the shaking time of the shaking time closest to the ringing time of the alarm clock and the ringing volume adjusting amplitude of the alarm clock have a corresponding relation, and then the ringing volume adjusting amplitude of the alarm clock to be adjusted can be obtained according to the corresponding relation. In a specific implementation scene, the time difference between the shaking time of a shake closest to the ringing time of the alarm clock and the ringing time of the alarm clock is in a direct proportion relation with the ringing volume adjusting amplitude of the alarm clock; when the time difference between the shaking time of the shaking time which is closest to the ringing time of the alarm clock and the ringing time of the alarm clock is 10 minutes, the corresponding ringing volume adjusting amplitude of the alarm clock to be adjusted is 2 (db); and when the time difference between the shaking time of the shaking time closest to the ringing time of the alarm clock and the ringing time of the alarm clock is 1 hour, the corresponding ringing volume adjusting amplitude of the alarm clock needing to be adjusted is 12 (db).

S404: and judging whether the shaking information meets a preset condition or not.

S405: and if so, judging that the mobile terminal is in an off-line state.

S406: if not, judging that the mobile terminal is not in the off-line state.

In this implementation scenario, steps S404 to S406 provided in this embodiment are substantially similar to steps S202 to S204 in the first embodiment of the method for determining whether the mobile terminal is in the off-hook state in the method for adjusting the volume of the alarm clock provided in this application, and are not described here again.

As shown in fig. 3, a method for adjusting the volume of an alarm clock in this embodiment includes:

s301: judging whether the mobile terminal is in an off-line state before the ringing time of the alarm clock is reached, wherein the off-line state is a state that the mobile terminal is not used by a user.

In this implementation scenario, step S301 provided in this embodiment is substantially similar to step S101 in the first embodiment of the method for adjusting the volume of an alarm clock provided in this application, and details are not repeated here.

S302: and if the mobile terminal is in an off-line state, increasing the ringing volume of the alarm clock according to the ringing volume adjusting amplitude of the alarm clock needing to be adjusted.

It can be understood that when the mobile terminal is in the off-machine state, that is, the mobile terminal is not used by the user for a period of time, it can be stated that the user does not pay attention to the mobile terminal, nor to the things to be reminded by the alarm clock, or the user pays more attention to other things than the things to be reminded by the alarm clock; at this time, in order to enable the alarm clock to play a role of reminding the user and enable the user to receive the reminding of the alarm clock to a greater extent, the ringing volume of the alarm clock can be selectively increased. At this time, the ringing volume of the alarm clock can be increased according to the obtained ringing volume adjustment amplitude of the alarm clock which needs to be adjusted. For example, the obtained ring volume of the alarm clock needing to be adjusted is adjusted to be 5(db), and the ring volume of the alarm clock is set to be 50(db) by the user, so that when the alarm of the alarm clock actually rings, the ring volume of the alarm clock can be adjusted to be 55 (db).

S303: and if the mobile terminal is not in an off-line state, reducing the ringing volume of the alarm clock according to the ringing volume adjusting amplitude of the alarm clock which needs to be adjusted.

Similarly, when the mobile terminal is not in the off-line state, that is, the mobile terminal is used by the user within a period of time, it can be shown that the user has paid attention to the mobile terminal and also paid attention to the things to be reminded by the alarm clock; at this moment, because the user has paid attention to the mobile terminal in a period of time before the ringing time of the alarm clock arrives, the reminding function of the alarm clock is relatively weak, the user can wait for the alarm clock to ring at many times, and the user pays more attention to whether the alarm clock rings or not, so that the ringing volume of the alarm clock can be reduced. At this time, the ringing volume of the alarm clock can be reduced according to the obtained ringing volume adjustment amplitude of the alarm clock which needs to be adjusted. For example, the obtained ring volume of the alarm clock needing to be adjusted is adjusted to be 10(db), and the ring volume of the alarm clock is set to be 60(db) by the user, so that when the alarm of the alarm clock actually rings, the ring volume of the alarm clock can be adjusted to be 50 (db).

In this embodiment, a corresponding relationship exists between the shaking time which is closest to the ringing time of the alarm clock and the ringing time of the alarm clock according to the time difference between the shaking time and the ringing time of the alarm clock, so that the ringing volume adjusting amplitude of the alarm clock which needs to be adjusted is obtained, and the ringing volume of the alarm clock is selectively increased or decreased according to the obtained ringing volume adjusting amplitude of the alarm clock which needs to be adjusted, so that the ringing volume of the alarm clock is more suitable for the state of a user.

Referring to fig. 5, fig. 5 is a flowchart illustrating a method for determining whether a mobile terminal is in an off-hook state in an alarm clock volume adjusting method according to a third embodiment of the present invention. The method for judging whether the mobile terminal is in the off-line state in the embodiment comprises the following steps:

s501: and acquiring shaking information of the mobile terminal in a first preset time period before the ringing time of the alarm clock arrives.

In this implementation scenario, step S501 provided in this embodiment is substantially similar to step S201 in the first embodiment of the method for determining whether the mobile terminal is in the off-hook state in the method for adjusting the volume of the alarm clock provided in this application, and details are not repeated here.

S502: and establishing a corresponding relation between the time difference and the ringing volume adjusting amplitude of the alarm clock, wherein the corresponding relation is a positive correlation.

It can be understood that, the user or the designer can set up the corresponding relationship between the time difference and the ringing volume adjustment amplitude of the alarm clock in advance, and store the corresponding relationship in the mobile terminal, after the mobile terminal obtains the time difference between the shaking time of the closest shaking to the ringing time of the alarm clock and the ringing time of the alarm clock, automatically call the corresponding relationship, and obtain the ringing volume adjustment amplitude of the alarm clock to be adjusted according to the corresponding relationship. The corresponding relation in the application is a positive correlation; for example, the time difference between the shaking time of the shaking closest to the ringing time of the alarm clock and the ringing time of the alarm clock at the moment is in direct proportion to the ringing volume adjustment amplitude of the alarm clock to be adjusted; the alarm clock can also be in an exponential positive correlation relationship, and the larger the time difference between the shaking time of shaking which is closest to the ringing time of the alarm clock and the ringing time of the alarm clock is, the more the ringing volume adjusting amplitude of the corresponding alarm clock to be adjusted is exponentially increased; the alarm clock can also be in a monotone increasing relationship, because the sound of 0 decibel can be just heard by human ears, and the noise of more than 90 decibels can damage the hearing of people, the ringing volume adjusting amplitude of the alarm clock is not too large, and the larger the time difference between the shaking time of the shaking closest to the ringing time of the alarm clock and the ringing time of the alarm clock is, the larger the corresponding ringing volume adjusting amplitude of the alarm clock needing to be adjusted is. Of course, what kind of positive correlation is specifically set by the user or the designer according to the actual situation, and is not limited herein.

S503: and acquiring the time difference between the shaking occurrence time of the mobile terminal closest to the ringing time of the alarm clock and the ringing time of the alarm clock.

S504: and obtaining the ringing volume adjusting amplitude of the alarm clock to be adjusted according to the corresponding relation between the time difference and the ringing volume adjusting amplitude of the alarm clock.

S505: and judging whether the shaking information meets a preset condition or not.

S506: and if so, judging that the mobile terminal is in an off-line state.

S507: if not, judging that the mobile terminal is not in the off-line state.

In this implementation scenario, steps S503 to S507 provided in this embodiment are substantially similar to steps S402 to S406 in the second embodiment of the method for determining whether the mobile terminal is in the off-hook state in the method for adjusting the volume of the alarm clock provided in this application, and are not described here again.

In this embodiment, through establishing the time difference between the shaking time that rocks and the ringing time of alarm clock that the ringing time of distance alarm clock is nearest, and the corresponding relation between the ringing volume control range of alarm clock, can be according to actual time difference, obtain the ringing volume control range of the alarm clock that actual need was adjusted to can select to increase or reduce the ringing volume of alarm clock according to the ringing volume control range of the alarm clock that obtains needs to be adjusted, make the ringing volume of alarm clock more fit for user's state.

Referring to fig. 6, fig. 6 is a schematic flowchart of a fourth embodiment of a method for determining whether a mobile terminal is in an off-hook state in an alarm clock volume adjusting method according to the present invention. The method for judging whether the mobile terminal is in the off-line state in the embodiment comprises the following steps:

s601: and acquiring shaking information of the mobile terminal in a first preset time period before the ringing time of the alarm clock arrives.

S602: and judging whether the shaking information meets a preset condition or not.

S603: and if so, judging that the mobile terminal is in an off-line state.

In this implementation scenario, steps S601 to S603 provided in this embodiment are substantially similar to steps S201 to S203 in the first embodiment of the method for determining whether the mobile terminal is in the off-hook state in the method for adjusting the volume of the alarm clock provided in this application, and are not described here again.

S604: if not, judging whether the ringing time of the alarm clock is the sleep alarm clock time.

Similarly, the obtained shaking information of the mobile terminal in a first preset time period before the ringing time of the alarm clock reaches is compared with a preset condition, and when the obtained shaking information does not meet the preset condition, whether the ringing time of the alarm clock is the sleep alarm clock time needs to be further judged. Because, the ringing time of the alarm clock is set according to the needs of the user; for example, setting the ringing time of the alarm clock to be 7:20 in the morning, wherein the ringing ringtone is the favorite ringtone of the user, the ringing volume is the acceptable volume of the user, the mobile terminal can acquire the ringing time of the alarm clock, and the mobile terminal can judge that the alarm clock is a sleep alarm clock when the alarm clock belongs to the sleep time of the user in the morning at 7: 20; for another example, the ringing time of the alarm clock is set to 11:30 am, the mobile terminal obtains the ringing time of the alarm clock, and finds that 11:30 am belongs to the working time of the user and does not belong to the sleep time of the user, so that it can be determined that the alarm clock is not a sleep alarm clock.

S605: and if not, executing the judgment that the mobile terminal is not in the off-line state.

It can be understood that when the ringing time of the alarm clock is judged not to be the sleep alarm clock time, and the alarm clock is not the sleep alarm clock, the user can be considered not to be sleeping at the moment, the consciousness of the user is clear, and the user has better clear consciousness to receive the reminding of the alarm clock, so that the terminal equipment can be judged not to be in the off-hook state at the moment.

On the contrary, when the ringing time of the alarm clock is judged to be the sleep alarm clock time, and the alarm clock is the sleep alarm clock, the user can be considered to be sleeping at the moment, the consciousness of the user is not clear, the user does not receive the reminding of the alarm clock according to the clear consciousness at the moment, the mobile terminal is not used according to the clear consciousness, so that the reminding of the alarm clock can be missed possibly, and the terminal equipment can be judged to be in the off-line state at the moment. It is understood that when the ring time of the alarm clock is judged to be the sleep alarm clock time, step 603 is executed.

In this embodiment, after the mobile terminal is judged not to be in the off-machine state through the shaking information of the mobile terminal, whether the ringing time of the alarm clock is the sleep alarm clock time is judged again, so that the situation that the ringing volume of the sleep alarm clock is reduced due to the fact that the mobile terminal in the sleep alarm clock time is judged not to be in the off-machine state is avoided, and a user may fall asleep because the alarm clock cannot be received.

Referring to fig. 7, fig. 7 is a flowchart illustrating a method for adjusting the volume of an alarm clock according to a third embodiment of the present invention. The adjustment of the volume of the alarm clock in the embodiment includes:

s701: judging whether the mobile terminal is in an off-line state before the ringing time of the alarm clock is reached, wherein the off-line state is a state that the mobile terminal is not used by a user.

S702: and if the mobile terminal is in an off-line state, increasing the ringing volume of the alarm clock.

S703: and if the mobile terminal is not in the off-line state, reducing the ringing volume of the alarm clock.

In this implementation scenario, steps S701 to S703 provided in this embodiment are substantially similar to steps S101 to S103 in the first embodiment of the method for adjusting the volume of an alarm clock provided in this application, and are not described herein again.

S704: and judging whether the mobile terminal is in the off-line state within second preset time after the ringing time of the alarm clock arrives.

It can be understood that after the ringing time of the alarm clock arrives, the user may receive the reminder of the alarm clock, and at this time, the user may operate the alarm clock to turn off the alarm clock; it is also possible that the user does not receive the alarm, for example, the user does not hear the alarm due to deep sleep, or the user is discussing something with others, and is in a noisy environment without hearing the alarm. Therefore, within a second preset time after the ringing time of the alarm clock arrives, whether the mobile terminal is still in the off-line state needs to be judged again. In this embodiment, the user may set the second preset time period at will, for example, 10 minutes, 20 minutes, and so on, that is, when the alarm clock rings for 10 minutes or 20 minutes after the alarm clock rings, it is determined again whether the mobile terminal is in the off-hook state. As for a specific method for determining whether the mobile terminal is in the off-hook state, reference may be made to the contents of the embodiments of the method for determining whether the mobile terminal is in the off-hook state described above.

S705: and if the mobile terminal is in an off-line state, controlling the mobile terminal to perform alarm clock ringing again at a ringing volume greater than the previous alarm clock ringing volume when the alarm clock ringing time reaches a second preset time.

In a specific implementation scenario, the alarm clock set by the user is a wake-up alarm clock, the second preset time is 10 minutes, and when the mobile terminal is judged to be in an off-state within 10 minutes after the ring time of the wake-up alarm clock arrives, the wake-up alarm clock is judged not to wake up the user, and possibly, the sound is too small due to the fact that the alarm sound is too small or the user is in a deep sleep state or the sound cannot be transmitted when the mobile terminal is pressed under a pillow, and the like; then, when the alarm time of the wake-up alarm clock reaches 10 minutes later, the mobile terminal is controlled to perform alarm clock ringing again at a ringing volume greater than that of the previous wake-up alarm clock, so as to wake up the user with a greater alarm volume of the alarm clock.

In this embodiment, whether the mobile terminal is in the off-line state is continuously judged within the second preset time after the alarm clock ringing time reaches, when the mobile terminal is judged to be still in the off-line state, the mobile terminal is controlled to conduct alarm clock ringing again with the ringing volume of the alarm clock that is greater than the previous waking up, so that the user is reminded with the alarm clock volume of a larger alarm clock, and therefore the effect of reminding the user cannot be played for the first time by the alarm clock can be prevented.

Referring to fig. 8, fig. 8 is a schematic structural diagram of a mobile terminal according to an embodiment of the present invention. The mobile terminal 80 in the present application comprises a memory 800 and a processor 802 coupled to each other, the memory 800 is used for storing program data, and the processor 802 executes the program data, so as to realize the following methods:

before the ringing time of the alarm clock reaches, the processor 802 judges whether the mobile terminal 80 is in an off-hook state, wherein the off-hook state is a state in which the mobile terminal 80 is not used by the user; if the mobile terminal 80 is determined to be in the off-hook state, the processor 802 increases the ring volume of the alarm clock; if the mobile terminal 80 is not in the off-hook state, the processor 802 decreases the ring volume of the alarm clock.

Further, the processor 802 executes the above method for determining whether the mobile terminal 80 is in the off-line state, which specifically includes:

the processor 802 acquires shaking information of the mobile terminal 80 within a first preset time period before the ringing time of the alarm clock arrives; the processor 802 determines whether the shaking information satisfies a preset condition; if yes, judging that the mobile terminal 80 is in an off-line state; if not, the mobile terminal 80 is not in the off-line state.

As an implementation manner, the shaking information includes a shaking number of the mobile terminal 80 within a first preset time period, and the preset condition is that the shaking number is smaller than a preset threshold.

Further, after the processor 802 performs the above-mentioned obtaining of the shaking information of the mobile terminal 80 within the first preset time period before the ring time of the alarm clock arrives, the method further includes:

the processor 802 acquires a time difference between a shake occurrence time of the mobile terminal 80 closest to a ringing time of the alarm clock and the ringing time of the alarm clock;

the processor 802 obtains the ringing volume adjustment amplitude of the alarm clock to be adjusted according to the corresponding relationship between the time difference and the ringing volume adjustment amplitude of the alarm clock.

At this time, the processor 802 performs the above-mentioned increasing of the ringing volume of the alarm clock, including:

the processor 802 increases the ring volume of the alarm clock by adjusting the amplitude according to the ring volume of the alarm clock to be adjusted.

The processor 802 performs the above-mentioned reducing of the ring volume of the alarm clock, including:

the processor 802 reduces the alarm volume of the alarm clock by adjusting the amplitude according to the alarm volume of the alarm clock to be adjusted.

Further, before the processor 802 performs the above-mentioned obtaining of the time difference between the shaking time of the mobile terminal 80 closest to the ringing time of the alarm clock and the ringing time of the alarm clock, the method includes:

and establishing a corresponding relation between the time difference and the ring volume adjusting amplitude of the alarm clock, wherein the corresponding relation is a positive correlation.

As an implementation manner, the shaking information includes the shaking times of the mobile terminal 80 in the first preset time period and the shaking amplitude of each shaking of the mobile terminal 80; the preset condition is that the number of times that the shaking amplitude of the mobile terminal 80 is greater than the preset amplitude among the shaking times is less than the preset threshold.

As an implementation manner, the processor 802 determines that the mobile terminal 80 is not in the off-hook state if the above-mentioned condition is not satisfied, including:

if not, the processor 802 determines whether the ringing time of the alarm clock is the sleep alarm clock time;

if so, the processor 802 determines that the mobile terminal 80 is in an off-hook state;

if not, the processor 802 performs a determination that the mobile terminal 80 is not in the off-hook state.

As an implementable embodiment, the processor 802 executes the program data for implementing the method further comprising:

the processor 802 determines whether the mobile terminal 80 is in an off-line state within a second preset time after the alarm clock ringing time arrives;

if the mobile terminal 80 is in the off-hook state, the processor 802 controls the mobile terminal 80 to perform alarm clock ringing again at a ringing volume greater than that of the previous alarm clock when the ringing time of the alarm clock reaches a second preset time.

The mobile terminal 80 in the present application may be an intelligent device such as an intelligent alarm clock, an intelligent watch, a smart phone, etc.

For the specific process of the processor 802 in the embodiment of the mobile terminal 80 to implement the above functions, reference may be made to the above method embodiment.

Referring to fig. 9, fig. 9 is a diagram illustrating an apparatus with a storage function according to the present invention. The device 90 having the storage function stores therein program data 900, and the program data 900 can be executed to implement the method of adjusting the volume of the alarm clock as described above.

The device 90 with a storage function may be a storage chip in a terminal, a readable and writable tool such as an SD card, and may also be a server.

In the several embodiments provided in the present application, it should be understood that the disclosed method, apparatus, and device may be implemented in other ways. For example, the above-described device architecture implementations are merely illustrative, and for example, a division of a module or a unit is merely a logical division, and an actual implementation may have another division, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

Units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the embodiment.

In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

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 (8)

1. A method for adjusting the volume of an alarm clock is applied to a mobile terminal, and comprises the following steps:

judging whether the mobile terminal is in an off-line state before the ringing time of the alarm clock arrives, wherein the off-line state is a state that the mobile terminal is not used by a user;

if the mobile terminal is in an off-line state, increasing the ringing volume of the alarm clock;

if the mobile terminal is not in an off-line state, reducing the ringing volume of the alarm clock;

the judging whether the mobile terminal is in an off-line state includes:

obtaining shaking information of the mobile terminal in a first preset time period before the ringing time of the alarm clock reaches;

judging whether the shaking information meets a preset condition or not;

if yes, judging that the mobile terminal is in an off-machine state;

if not, judging that the mobile terminal is not in an off-line state;

after the shaking information of the mobile terminal in a first preset time period before the ringing time of the alarm clock arrives is obtained, the method further comprises the following steps:

acquiring a time difference between shaking occurrence time of the mobile terminal closest to the ringing time of the alarm clock and the ringing time of the alarm clock;

obtaining the ringing volume adjusting amplitude of the alarm clock to be adjusted according to the corresponding relation between the time difference and the ringing volume adjusting amplitude of the alarm clock;

the increasing the ringing volume of the alarm clock comprises:

increasing the ringing volume of the alarm clock according to the amplitude of the ringing volume of the alarm clock needing to be adjusted;

the reducing the ringing volume of the alarm clock comprises:

and reducing the ringing volume of the alarm clock according to the ringing volume adjusting amplitude of the alarm clock needing to be adjusted.

2. The adjusting method according to claim 1, wherein the shaking information includes a shaking number of times of the mobile terminal within the first preset time period, and the preset condition is that the shaking number of times is smaller than a preset threshold.

3. The adjusting method according to claim 1, wherein the shaking information includes a shaking number of the mobile terminal in the first preset time period and a shaking amplitude of the mobile terminal per shaking;

the preset condition is that the frequency that the shaking amplitude of the mobile terminal is larger than the preset amplitude in the shaking frequency is smaller than a preset threshold value.

4. The adjusting method according to claim 1, wherein before the obtaining of the time difference between the shaking time at which the mobile terminal is closest to the alarm time of the alarm clock and the alarm time of the alarm clock, comprises:

and establishing a corresponding relation between the time difference and the ringing volume adjusting amplitude of the alarm clock, wherein the corresponding relation is a positive correlation.

5. The adjusting method of claim 1, wherein if not, the determining that the mobile terminal is not in an off-hook state comprises:

if not, judging whether the ringing time of the alarm clock is the sleep alarm clock time or not;

if so, judging that the mobile terminal is in an off-machine state;

and if not, executing the judgment that the mobile terminal is not in the off-line state.

6. The method of adjusting of claim 1, further comprising:

judging whether the mobile terminal is in the off-line state within second preset time after the ringing time of the alarm clock arrives;

and if the mobile terminal is in an off-line state, controlling the mobile terminal to perform alarm clock ringing again at a ringing volume greater than the previous alarm clock ringing volume when the alarm clock ringing time reaches a second preset time.

7. A mobile terminal comprising a memory and a processor coupled to each other;

the memory is used for storing program data;

the processor executes the program data for implementing the method according to any one of claims 1-6.

8. An apparatus having a storage function, characterized in that program data are stored, which program data can be executed to implement the method according to any one of claims 1-6.

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