CN105005479A

CN105005479A - Alarm clock closing system and intelligent watch

Info

Publication number: CN105005479A
Application number: CN201510452313.5A
Authority: CN
Inventors: 郭凌
Original assignee: Guangdong Oppo Mobile Telecommunications Corp Ltd
Current assignee: Guangdong Oppo Mobile Telecommunications Corp Ltd
Priority date: 2015-07-28
Filing date: 2015-07-28
Publication date: 2015-10-28
Anticipated expiration: 2035-07-28
Also published as: CN105005479B

Abstract

The embodiment of the invention discloses an alarm clock closing system and an intelligent watch. The method comprises the following steps of: presenting a preset problem on a display screen of the intelligent watch; acquiring an answer to the preset problem input through a watch crown of the intelligent watch by a user; and controlling to strop alarm of an alarm clock unit in a case that the answer is judged to be matched with a reference answer to the preset problem. The embodiment is favorable for improving the success rate of reminding the user by the alarm clock unit, and a user experience is enhanced.

Description

Alarm clock turning-off method and smart watch

Technical Field

The invention relates to the technical field of electronics, in particular to an alarm clock turning-off method and an intelligent watch.

Background

With the development of microelectronic technology, watches which can only be used for time in the past are also provided with built-in intelligent systems nowadays, and can be connected with the internet through a smart phone or a home network to display contents such as incoming call information, short messages, mails, news, weather information and the like.

The existing alarm clock closing method is usually simple, so that a user can easily close the alarm clock at the initial stage of being wakened by the alarm clock, for example, the user can not be wakened due to sleep inertia after closing the alarm clock by touching a display screen of the mobile terminal or pressing any physical key of the mobile terminal, and the user can continue to sleep under many conditions without realizing the purpose of wakening the user.

Disclosure of Invention

The embodiment of the invention provides an alarm clock closing method and an intelligent watch, aiming at improving the success rate of an alarm clock unit for waking a user and improving the user experience.

The first aspect of the embodiment of the invention discloses an alarm clock closing method, which comprises the following steps:

displaying a preset problem on a display screen of the smart watch;

obtaining answers of the preset questions input by a user through a crown of the smart watch;

and controlling an alarm clock unit to stop the alarm clock under the condition that the answer is judged to be matched with the reference answer of the preset question.

The second aspect of the embodiment of the present invention discloses an intelligent watch, including:

the display unit is used for displaying preset problems on a display screen of the intelligent watch;

the acquisition unit is used for acquiring answers of the preset questions input by a user through a crown of the intelligent watch;

and the control unit is used for controlling the alarm clock unit to stop the alarm clock under the condition that the answer is judged to be matched with the reference answer of the preset question.

In the embodiment of the invention, the smart watch firstly displays the preset question on the display screen, secondly obtains the answer of the preset question input by the user through the crown of the smart watch, and finally controls the alarm clock unit to stop the alarm clock under the condition that the answer is judged to be matched with the reference answer of the preset question. So, when the alarm clock unit began the alarm clock, the user must be through looking over the preset problem that shows on the display screen, reachs the answer of presetting the problem under comparatively clear-headed state to input the answer through the crown of intelligent wrist-watch, just can close the alarm clock unit under the condition that the reference answer of input answer and preset problem matches, consequently, be favorable to promoting the alarm clock unit and awaken the success rate of user, promote user experience.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic flow chart of an alarm clock turn-off method disclosed in an embodiment of the present invention;

FIG. 2 is a schematic flow chart of another alarm clock turning-off method disclosed in the embodiment of the present invention;

FIG. 3 is a schematic flow chart of another alarm clock turning-off method disclosed in the embodiment of the present invention;

FIG. 4 is a schematic flow chart of another alarm clock turning-off method disclosed in the embodiment of the present invention;

FIG. 5 is a schematic flow chart of another alarm clock turning-off method disclosed in the embodiment of the present invention;

fig. 6 is a schematic structural diagram of a smart watch disclosed in an embodiment of the present invention;

fig. 7 is a schematic structural diagram of another smart watch disclosed in the embodiment of the present invention.

Detailed Description

In order to make the technical solutions of the present invention better understood, 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 derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The terms "first," "second," "third," and "fourth," etc. in the description and claims of the invention and the above-described drawings are used for distinguishing between different objects and not for describing a particular order. Furthermore, the terms "include" and "have," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the invention. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

The smart watch described in the embodiments of the present invention refers to a wearable device having a crown, and the crown may include any one of the following structures: a joystick, a trackball and a side touch screen; the smart watch further optionally further comprises an alarm clock unit, and the alarm clock unit specifically comprises a loudspeaker, a vibration unit (such as a motor and the like), and a light-emitting unit (such as a breathing lamp and a flash lamp and the like). The system of the smart watch refers to the operating system of the device and may include, but is not limited to: android system, Windows system, IOS (mobile operating system developed by apple inc.) and the like. The mobile terminal described in the embodiments of the present invention may include, but is not limited to: the mobile terminal may include a network interface, a processor, a memory, an audio processing circuit, a speaker, a vibration unit (e.g., a motor, etc.), and a light emitting unit (e.g., a breathing lamp, a flash lamp, etc.). The above-mentioned mobile terminals are only examples, not exhaustive, and include but are not limited to the above-mentioned mobile terminals.

The embodiment of the invention provides an alarm clock closing method and an intelligent watch, aiming at improving the success rate of an alarm clock unit for waking a user and improving the user experience. The following are detailed below.

Referring to fig. 1, fig. 1 is a schematic flow chart illustrating an alarm clock turning-off method according to an embodiment of the present invention. As shown in fig. 1, the alarm clock turning-off method may include the following steps.

S101, displaying preset problems on a display screen of the intelligent watch.

In the embodiment of the present invention, the specific way for displaying the preset question on the display screen of the smart watch may be as follows: displaying a preset problem on a display screen of the intelligent watch under the condition that the alarm clock unit of the intelligent watch starts alarming; or, under the condition that an alarm clock unit of the mobile terminal in communication connection with the intelligent watch starts to alarm, displaying a preset problem on a display screen of the intelligent watch.

The preset problem may be, for example, numerical calculation, conditional judgment, or other various types of preset problems, and the specific type of the preset problem is not limited in the embodiment of the present invention.

And S102, obtaining the answer of the preset question input by the user through the crown of the intelligent watch.

In an embodiment, the crown of the smart watch includes a joystick, and the manner in which the smart watch obtains the answer to the preset question input by the user through the crown of the smart watch may be:

above-mentioned smart watch can acquire the user to the parameter of stirring of the undulant operation of the control rod of the crown of above-mentioned smart watch, confirms the answer of the above-mentioned preset problem of user's input according to above-mentioned parameter of stirring, and above-mentioned parameter of stirring includes at least one of following parameter of stirring: the number of dialing, the dialing direction, the dialing frequency and the dialing rhythm.

In specific implementation, the smart watch acquires a toggle parameter of a user for a fluctuating operation of a joystick of a crown of the smart watch, and a specific implementation manner of determining an answer to the preset question input by the user according to the toggle parameter may be:

when the dialing parameter includes the dialing number, the smart watch may obtain the dialing number of the dialing operation of the user on the joystick of the crown of the smart watch, calculate a verification value of the dialing operation according to the dialing number, and use the verification value as an answer to the preset question input by the user, for example, is a preset question 1 ═ 1? If the operation rod can be toggled twice, the smart watch calculates the verification value of the toggle operation to be 2 according to the fluctuation times, and the calculated 2 is used as the answer of the preset problem input by the user; or,

when the toggle parameter includes the toggle direction, the smart watch may obtain a toggle direction of a user for a toggle operation of a joystick of a crown of the smart watch, generate a verification direction of the toggle operation according to the toggle direction, and use the verification direction as an answer to the preset problem input by the user, for example, if the fluctuation direction is obtained to the right, determine that the verification direction is the right; or,

under the condition that the dialing parameters comprise the dialing frequency, the smart watch can acquire dialing time of M times of dialing operations of a control lever of a crown of the smart watch by a user, determine the dialing frequency of the dialing operations according to the dialing time of the M times of dialing operations, and use the dialing frequency as an answer to the preset problem input by the user, wherein M is a positive integer, for example, the dialing time of 10 times of dialing operations is acquired as 5 seconds, and the dialing frequency is determined as 2 Hz; or,

when the dial parameter includes the dial rhythm, the smart watch may obtain (M-1) dial interval durations of M dial operations of a joystick of a crown of the smart watch by a user, determine the dial rhythm of the dial operation according to (M-1) dial interval durations of the M dial operations, and use the dial rhythm as an answer to the preset question input by the user, where M is a positive integer, for example, obtain 11 dial interval durations of 12 dial operations, that is, Δ t1 is 0.2s, Δ t2 is 0.2s, Δ t3 is 1s, Δ t4 is 1.5s, Δ t5 is 1.5s, Δ t6 is 1s, Δ t7 is 0.2s, Δ t8 is 0.2s, Δ t9 is 1s, Δ t10 is 1.5s, Δ t11 is 1.32 is three times, and the dial operation may be switched to a short dial rhythm, and three times of dial operation are determined, the short-time dialing interval duration is 0.2s, and the long-time dialing interval duration is 1.5 s; or,

under the condition that the dialing parameters comprise dialing times and dialing directions, the smart watch can acquire the dialing times and the dialing directions of dialing operations of a control lever of a crown of the smart watch by a user, generate a direction sequence of the dialing operations according to the dialing times and the dialing directions, and take the direction sequence as answers of the preset problems input by the user, for example, if the dialing directions of 6 dialing operations are respectively left, right and right, the direction sequence of the dialing operations can be generated as (left, right and right); or,

the smart watch can also acquire the toggle directions of M times of toggle operations of a user aiming at an operating lever of a crown of the smart watch, the M times of toggle operations are divided into N groups of toggle operation combinations according to (N-1) times of switching actions of the toggle directions, and the toggle directions of the toggle operations in any one group of the N groups of toggle operation combinations are the same;

creating answers to the preset questions input by the user based on the N groups of toggle operation combinations, wherein the answers to the preset questions input by the user record N verification values and N verification directions of the N groups of toggle operation combinations, the ith verification value of the answers to the preset questions input by the user is obtained based on the total times of toggle operations in the ith group of toggle operation combinations in the N groups of toggle operation combinations, the ith verification direction of the answers to the preset questions input by the user is obtained based on the toggle direction of the toggle operations in the ith group of toggle operation combinations in the N groups of toggle operation combinations, the ith group of toggle operation combinations is any one of the N groups of toggle operation combinations, M and N are positive integers, and M is greater than or equal to N. Or,

under the condition that the dialing parameters comprise dialing directions and dialing frequencies, the intelligent watch can acquire dialing directions of M times of dialing operations of a control lever of a crown of the intelligent watch by a user, and acquire dialing durations of each group of dialing operation combinations in N groups of dialing operation combinations according to (N-1) times of switching actions of the dialing directions, wherein the dialing directions of the dialing operations in any one group of the N groups of dialing operation combinations are the same;

creating verification data based on the dial directions and the dial durations of the N groups of dial operation combinations, wherein the verification data records N verification frequencies and N verification directions of the N groups of dial operation combinations, the ith verification frequency of the verification data is obtained based on N times of dial operations in the ith group of dial operation combinations in the N groups of dial operation combinations and the dial duration of the ith group of dial operation combinations, the ith verification direction of the verification data is obtained based on the dial direction of the ith group of dial operation combinations in the N groups of dial operation combinations, the ith group of dial operation combinations is any one group of dial operation combinations in the N groups of dial operation combinations, M, N and N are positive integers, M is greater than or equal to N, and M is greater than or equal to N.

For example, the dial directions of 10 dial operations of the joystick of the crown of the smart watch obtained by the user are up, down, left, and right, and 3 switching actions of the dial directions are divided into four groups of dial operation combinations, which are respectively a first group of dial operation combinations (up, up), a second group of dial operation combinations (down ), a third group of dial operation combinations (left ), and a fourth group of dial operation combinations (right), wherein the dial duration of each group of the four groups of dial operation combinations is respectively a first group t1 ═ 1s, a second group t2 ═ 3s, a third group t3 ═ 6s, and a fourth group t4 ═ 1s, so that the first verification frequency in the verification data is 2Hz, and the verification direction is up; the second verification frequency is 1Hz, and the verification direction is downward; the third verification frequency is 2Hz, and the verification direction is leftward; the fourth validation frequency was 1Hz and the validation direction was to the right.

Or,

under the condition that the dialing parameters comprise the dialing direction and the dialing rhythm, the intelligent watch can obtain the (M-1) dialing interval duration and the dialing direction of M dialing operations of a control lever of a crown of the intelligent watch, the M dialing operations are divided into N groups of dialing operation combinations according to (N-1) switching actions of the dialing direction, the dialing directions of the dialing operations in any one group of the N groups of dialing operation combinations are the same, and the dialing directions of any two groups of the N groups of dialing operation combinations are different;

creating verification data based on said N sets of toggle operation combinations and said (M-1) toggle interval durations, the verification data records N rhythm data and N rhythm data direction attributes of N groups of toggle operation combinations, the ith rhythm data of the verification data is obtained based on N dialing operations in the ith group of dialing operation combinations in the N groups of dialing operation combinations and (N-1) dialing interval duration corresponding to the N dialing operations, the ith rhythm data direction attribute of the verification data is obtained based on the toggle direction of the toggle operation in the ith group of toggle operation combinations in the N groups of toggle operation combinations, the i-th group of toggle operation combinations is any one of the N groups of toggle operation combinations, m, N and N are positive integers, M is not less than N, and M is not less than N.

In another embodiment, the crown of the smart watch includes a trackball, and the manner of obtaining the answer to the preset question input by the user through the crown of the smart watch by the smart watch may be as follows:

the smart watch can acquire a rolling parameter of a rolling operation of a user on a trackball of a crown of the smart watch, and determine an answer to the preset question input by the user according to the rolling parameter, wherein the rolling parameter includes at least one of the following rolling parameters: scroll number, scroll direction, scroll angle, and scroll speed.

In a specific implementation, the smart watch obtains a rolling parameter of a rolling operation of a user on a trackball of a crown of the smart watch, and a specific implementation manner of determining an answer to the preset question input by the user according to the rolling parameter may be:

under the condition that the rolling parameters comprise the rolling times, the smart watch can acquire the rolling times of rolling operations of a user on a trackball of a crown of the smart watch, calculate a verification value of the rolling operations according to the rolling times, and take the verification value as an answer of the preset question input by the user; or,

under the condition that the toggle parameter comprises the rolling direction, the smart watch can acquire the rolling direction of the rolling operation of a user on a trackball of a crown of the smart watch, generate a verification direction of the rolling operation according to the rolling direction, and take the verification direction as an answer of the preset question input by the user; or,

under the condition that the toggle parameter comprises the rolling angle, the smart watch can acquire the rolling angle of the rolling operation of a user on a track ball of a crown of the smart watch, generate a verification angle of the rolling operation according to the rolling angle, and take the verification angle as an answer of the preset question input by the user; or,

under the condition that the toggle parameter comprises the rolling speed, the smart watch can acquire the rolling speed of the rolling operation of a user on a track ball of a crown of the smart watch, generate a verification speed of the rolling operation according to the rolling speed, and take the verification speed as an answer of the preset question input by the user; or,

and under the condition that the toggle parameters comprise the rolling times and the rolling direction, the smart watch can acquire the rolling times and the rolling operation of a user aiming at the rolling operation of a trackball of a crown of the smart watch, generate a direction sequence of the rolling operation according to the rolling times and the rolling direction, and take the direction sequence as an answer of the preset question input by the user. Or,

when the toggle parameter includes the scroll direction and the scroll angle, the smart watch may acquire a scroll direction and a scroll angle of N scroll operations of a crown of the smart watch by a user, create verification data based on the scroll direction and the scroll angle of the N scroll operations, where the verification data records N scroll angles and N scroll directions of the N scroll operations, an ith scroll angle of the verification data is obtained based on a scroll angle of the ith scroll operation, an ith scroll direction of the verification data is obtained based on a scroll direction of an ith scroll operation of the N scroll operations, and N is an integer; or,

when the toggle parameter includes the scroll direction and the scroll speed, the smart watch may acquire a scroll direction and a scroll speed of N scroll operations of a crown of the smart watch by a user, create verification data based on the scroll direction and the scroll speed of the N scroll operations, where the verification data records the N scroll directions and the N scroll speeds of the N scroll operations, an ith scroll direction of the verification data is obtained based on the scroll direction of the ith scroll operation, an ith scroll angle of the verification data is obtained based on the scroll angle of the ith scroll operation of the N scroll operations, and N is an integer.

In another embodiment, the crown of the smart watch includes a side touch screen, and the manner in which the smart watch obtains the answer to the preset question input by the user through the crown of the smart watch may be:

the smart watch can acquire touch parameters of touch operation of a user on a side touch screen of a crown of the smart watch, and determine answers of the preset questions input by the user according to the touch parameters, wherein the touch parameters include at least one of the following touch parameters: touch times, touch areas, touch force and touch frequency; or,

the smart watch can acquire sliding parameters of sliding operation of a user on a side touch screen of a crown of the smart watch, and the answer of the preset question input by the user is determined according to the sliding parameters, wherein the sliding parameters include at least one of the following sliding parameters: the number of sliding, the sliding direction, the sliding speed and the touch force.

In specific implementation, the smart watch acquires a touch parameter of a touch operation of a user on a side touch screen of a crown of the smart watch, and a specific implementation manner for determining an answer to the preset question input by the user according to the touch parameter may be:

under the condition that the touch parameter comprises the touch frequency, the smart watch can acquire the touch frequency of touch operation of a user on a side touch screen of a crown of the smart watch, calculate a verification value of the touch operation according to the touch frequency, and take the verification value as an answer of the preset question input by the user; or,

under the condition that the touch parameter comprises the touch area, the smart watch can acquire coordinate values of touch positions of touch operation of a user on a side touch screen of a crown of the smart watch, determine a verification area of the touch operation according to the coordinate values of the touch positions, and take the verification area as an answer of the preset question input by the user; or,

under the condition that the touch parameter comprises the touch strength, the smart watch can acquire the touch strength of a user for touch operation of a side touch screen of a crown of the smart watch, generate verification strength of the sliding operation according to the touch strength, and use the verification strength as an answer of the preset question input by the user; or,

under the condition that the touch parameter includes the touch frequency, the smart watch can acquire the touch frequency of the touch operation of the user on the side touch screen of the crown of the smart watch, generate the verification frequency of the touch operation according to the touch frequency, and use the verification frequency as the answer of the preset question input by the user. Or,

under the condition that the touch parameters comprise the touch times and the touch areas, the smart watch can acquire the touch times and the touch areas of touch operation of a user on a side touch screen of a crown of the smart watch, generate an area sequence of the sliding operation according to the touch times and the touch areas, and take the area sequence as verification data; or,

acquiring a touch area of a user for M touch operations of a side touch screen type of a crown of an intelligent watch, wherein the M touch operations are divided into N groups of touch operation combinations according to (N-1) switching actions of the touch area, and the touch areas of the touch operations in any one group of touch operation combinations in the N groups of touch operation combinations are the same;

creating verification data based on the N sets of touch operation combinations, where the verification data records N verification values and verification areas of the N sets of touch operation combinations, an ith verification value of the verification data is obtained based on the total number of touch operations in an ith set of touch operation combinations in the N sets of touch operation combinations, an ith verification area of the verification data is obtained based on touch areas of touch operations in an ith set of touch operation combinations in the N sets of touch operation combinations, the ith set of touch operation combinations is any one of the N sets of touch operation combinations, M and N are positive integers, and M is greater than or equal to N; or,

under the condition that the touch parameters comprise the touch times and the touch strength, the smart watch can acquire the touch times and the touch strength of a user aiming at touch operation of a side touch screen of a crown of the smart watch, generate a strength sequence of the sliding operation according to the touch times and the touch strength, and take the strength sequence as verification data; or,

under the condition that the touch parameters comprise the touch area and the touch strength, the smart watch can acquire the touch area and the touch strength of a user aiming at the touch operation of a side touch screen of a crown of the smart watch, generate area strength data of the sliding operation according to the touch area and the touch strength, and take the area strength data as verification data;

in specific implementation, the smart watch acquires a sliding parameter of a sliding operation of a user on a side touch screen of a crown of the smart watch, and a specific implementation manner of determining an answer to the preset question input by the user according to the sliding parameter may be:

under the condition that the sliding parameters comprise the sliding times, the smart watch can acquire the sliding times of the sliding operation of a user on a side touch screen of a crown of the smart watch, calculate a verification value of the sliding operation according to the sliding times, and take the verification value as an answer of the preset question input by the user; or,

under the condition that the sliding parameters include the sliding direction, the smart watch can acquire the sliding direction of the sliding operation of a user on a side touch screen of a crown of the smart watch, generate a verification direction of the sliding operation according to the sliding direction, and take the verification direction as an answer of the preset question input by the user; or,

under the condition that the sliding parameters comprise the sliding speed, the smart watch can acquire the sliding speed of the sliding operation of a user on a side touch screen of a crown of the smart watch, generate a verification speed of the sliding operation according to the sliding speed, and take the verification speed as an answer of the preset question input by the user; or,

under the condition that the sliding parameters comprise the sliding force, the smart watch can acquire the sliding force of a user for the sliding operation of a side touch screen of a crown of the smart watch, generate the verification force of the sliding operation according to the sliding force, and take the verification force as an answer of the preset question input by the user; or,

under the condition that the sliding parameters comprise sliding times and sliding directions, the smart watch can acquire the sliding times and the sliding directions of sliding operations of a user on a side touch screen of a crown of the smart watch, generate a direction sequence of the sliding operations according to the sliding times and the sliding directions, and take the direction sequence as an answer of the preset question input by the user; or,

the smart watch can also acquire the sliding direction of M sliding operations of a user on a side touch screen of a crown of the smart watch, wherein the M sliding operations are divided into N groups of sliding operation combinations according to (N-1) switching actions of the sliding direction, and the sliding directions of the sliding operations in any one group of the N groups of sliding operation combinations are the same;

creating an answer to the preset question input by the user based on the N sets of sliding operation combinations, where the answer to the preset question input by the user records N verification values and N verification directions of the N sets of sliding operation combinations, an ith verification value of the answer to the preset question input by the user is obtained based on the total number of sliding operations in an ith set of sliding operation combinations in the N sets of sliding operation combinations, an ith verification direction of the answer to the preset question input by the user is obtained based on the sliding directions of the sliding operations in an ith set of sliding operation combinations in the N sets of sliding operation combinations, the ith set of sliding operation combinations is any one of the N sets of sliding operation combinations, M and N are positive integers, and M is greater than or equal to N. Or,

when the sliding parameters include the sliding times and the sliding speed, the smart watch may acquire the sliding times and the sliding speed of a sliding operation of a user on a side touch screen of a crown of the smart watch, generate a speed sequence of the sliding operation according to the sliding times and the sliding speed, and use the speed sequence as verification data; or,

under the condition that the sliding parameters comprise the sliding times and the sliding strength, the smart watch can acquire the sliding times and the sliding strength of the sliding operation of a user on a side touch screen of a crown of the smart watch, generate a strength sequence of the sliding operation according to the sliding times and the sliding strength, and take the strength sequence as verification data; or,

under the condition that the sliding parameters include the sliding direction and the sliding force, the smart watch may acquire the sliding direction and the sliding force of a user for N sliding operations on a side touch screen of a crown of the smart watch, create verification data based on the sliding direction and the sliding force of the N sliding operations, where the verification data records N sliding directions and N sliding forces of the N sliding operations, an ith sliding direction of the verification data is obtained based on the sliding direction of an ith sliding operation of the N sliding operations, and an ith sliding force of the verification data is obtained based on the sliding force of the ith sliding operation of the N sliding operations, where N is an integer.

And S103, controlling an alarm clock unit to stop the alarm clock under the condition that the answer is judged to be matched with the reference answer of the preset question.

In the embodiment of the present invention, an implementation manner of the smart watch controlling the alarm clock unit to stop the alarm clock may be:

controlling an alarm clock unit of the intelligent watch to stop an alarm clock; or controlling an alarm clock unit of the mobile terminal in communication connection with the intelligent watch to stop an alarm clock.

It can be seen that, in the embodiment of the present invention, the smart watch firstly displays the preset question on the display screen, secondly obtains the answer to the preset question input by the user through the crown of the smart watch, and finally controls the alarm clock unit to stop the alarm clock when it is determined that the answer matches the reference answer to the preset question. So, when the alarm clock unit began the alarm clock, the user must be through looking over the preset problem that shows on the display screen, reachs the answer of presetting the problem under comparatively clear-headed state to input the answer through the crown of intelligent wrist-watch, just can close the alarm clock unit under the condition that the reference answer of input answer and preset problem matches, consequently, be favorable to promoting the alarm clock unit and awaken the success rate of user, promote user experience.

Referring to fig. 2, fig. 2 is a schematic flow chart of an alarm clock turning-off method according to an embodiment of the present invention. As shown in fig. 2, the alarm clock turning-off method may include the following steps.

S201, displaying preset problems on a display screen of the intelligent watch.

In the embodiment of the present invention, the specific way for displaying the preset question on the display screen of the smart watch may be as follows:

displaying a preset problem on a display screen of the intelligent watch under the condition that the alarm clock unit of the intelligent watch starts alarming; or, under the condition that an alarm clock unit of the mobile terminal in communication connection with the intelligent watch starts to alarm, displaying a preset problem on a display screen of the intelligent watch.

S202, acquiring toggle parameters of a user for the fluctuation operation of the operating rod of the crown of the intelligent watch, wherein the toggle parameters comprise at least one of the following toggle parameters: the number of dialing, the dialing direction, the dialing frequency and the dialing rhythm.

S203, determining the answer of the preset question input by the user according to the dialing parameters.

In an embodiment of the present invention, the smart watch obtains a toggle parameter of a user for a fluctuating operation of a joystick of a crown of the smart watch, and an implementation manner of determining an answer to the preset question input by the user according to the toggle parameter may be:

under the condition that the dialing parameters comprise dialing times and dialing directions, the intelligent watch can acquire the dialing times and the dialing directions of dialing operations of a user aiming at a control lever of a crown of the intelligent watch, a direction sequence of the dialing operations is generated according to the dialing times and the dialing directions, and the direction sequence is used as answers of the preset questions input by the user; or,

creating answers to the preset questions input by the user based on the N groups of toggle operation combinations, wherein the answers to the preset questions input by the user record N verification values and N verification directions of the N groups of toggle operation combinations, the ith verification value of the answers to the preset questions input by the user is obtained based on the total times of toggle operations in the ith group of toggle operation combinations in the N groups of toggle operation combinations, the ith verification direction of the answers to the preset questions input by the user is obtained based on the toggle direction of the toggle operations in the ith group of toggle operation combinations in the N groups of toggle operation combinations, the ith group of toggle operation combinations is any one of the N groups of toggle operation combinations, M and N are positive integers, and M is greater than or equal to N.

And S204, controlling an alarm clock unit to stop the alarm clock under the condition that the answer is judged to be matched with the reference answer of the preset question.

Referring to fig. 3, fig. 3 is a schematic flow chart of another alarm clock turning-off method according to an embodiment of the present invention. As shown in fig. 3, the alarm clock turning-off method may include the following steps.

S301, displaying preset problems on a display screen of the smart watch.

S302, obtaining a rolling parameter of a rolling operation of a user for a trackball of a crown of the smart watch, wherein the rolling parameter comprises at least one of the following rolling parameters: scroll number, scroll direction, scroll angle, and scroll speed.

And S303, determining the answer of the preset question input by the user according to the scrolling parameter.

In an embodiment of the present invention, an implementation manner of determining, by the user, an answer to the preset question input by the user according to the scroll parameter of the scroll operation of the trackball of the crown of the smart watch may be:

and under the condition that the toggle parameters comprise the rolling times and the rolling direction, the smart watch can acquire the rolling times and the rolling operation of a user aiming at the rolling operation of a trackball of a crown of the smart watch, generate a direction sequence of the rolling operation according to the rolling times and the rolling direction, and take the direction sequence as an answer of the preset question input by the user.

And S304, controlling an alarm clock unit to stop the alarm clock under the condition that the answer is matched with the reference answer of the preset question.

Referring to fig. 4, fig. 4 is a schematic flow chart illustrating another alarm clock turning-off method according to an embodiment of the present invention. As shown in fig. 4, the alarm clock turning-off method may include the following steps.

S401, displaying preset problems on a display screen of the smart watch.

S402, acquiring touch parameters of a user for touch operation of a side touch screen of a crown of the smart watch, wherein the touch parameters include at least one of the following touch parameters: touch frequency, touch area, touch strength and touch frequency.

And S403, determining an answer of the preset question input by the user according to the touch parameter.

In an embodiment of the present invention, the obtaining of the touch parameter of the touch operation of the user on the side touch screen of the crown of the smart watch may be implemented by:

under the condition that the touch parameters comprise the touch strength, the intelligent watch can acquire the touch strength of the touch operation of the user on the side touch screen of the crown of the intelligent watch, the verification strength of the sliding operation is generated according to the touch strength, and the verification strength is used as the answer of the preset problem input by the user.

And S404, controlling an alarm clock unit to stop the alarm clock under the condition that the answer is matched with the reference answer of the preset question.

Referring to fig. 5, fig. 5 is a schematic flow chart illustrating another alarm clock turning-off method according to an embodiment of the present invention. As shown in fig. 5, the alarm clock turning-off method may include the following steps.

S501, displaying preset problems on a display screen of the smart watch.

S502, obtaining sliding parameters of sliding operation of a user on a side touch screen of a crown of the smart watch, wherein the sliding parameters comprise at least one of the following sliding parameters: the number of sliding, the sliding direction, the sliding speed and the touch force.

In an embodiment of the present invention, the sliding parameter may further include a sliding distance.

S503, determining the answer of the preset question input by the user according to the sliding parameters.

In an embodiment of the present invention, in a case that the sliding parameter may further include a sliding distance, the obtaining of the sliding parameter of the sliding operation of the user on the side touch screen of the crown of the smart watch may be implemented by: the method comprises the steps of obtaining the sliding distance of a user for the sliding operation of a side touch screen of a crown of the smart watch, calculating the verification distance of the sliding operation according to the sliding distance, and using the verification distance as the answer of the preset problem input by the user.

And S504, controlling an alarm clock unit to stop the alarm clock under the condition that the answer is judged to be matched with the reference answer of the preset question.

Referring to fig. 6, fig. 6 is a schematic structural diagram of an intelligent watch according to an embodiment of the present invention. As shown in fig. 6, the smart watch includes a display unit 601, an obtaining unit 602, and a control unit 603, where:

the display unit 601 is configured to display a preset question on a display screen of the smart watch;

the obtaining unit 602 is configured to obtain an answer to the preset question input by the user through the crown of the smart watch;

in an embodiment of the present invention, when the crown includes a joystick, the obtaining unit 602 is specifically configured to: acquiring a dialing parameter of a fluctuation operation of a control lever of a crown of the smart watch, and determining an answer to the preset problem input by the user according to the dialing parameter, wherein the dialing parameter comprises at least one of the following dialing parameters: the number of dialing, the dialing direction, the dialing frequency and the dialing rhythm.

When the crown includes a trackball, the obtaining unit 602 is specifically configured to: obtaining a rolling parameter of a rolling operation of a user on a trackball of a crown of the smart watch, and determining an answer to the preset question input by the user according to the rolling parameter, wherein the rolling parameter comprises at least one of the following rolling parameters: scroll number, scroll direction, scroll angle, and scroll speed.

When the crown includes a side touch screen, the obtaining unit 602 is specifically configured to: acquiring touch parameters of touch operation of a user on a side touch screen of a crown of the smart watch, and determining answers of the preset questions input by the user according to the touch parameters, wherein the touch parameters include at least one of the following touch parameters: touch times, touch areas, touch force and touch frequency; or,

the method comprises the steps of obtaining sliding parameters of sliding operation of a user on a side touch screen of a crown of the smart watch, and determining answers of preset questions input by the user according to the sliding parameters, wherein the sliding parameters comprise at least one of the following sliding parameters: the number of sliding, the sliding direction, the sliding speed, the sliding distance and the touch force.

The control unit 603 is configured to control the alarm clock unit to stop the alarm clock when it is determined that the answer matches the reference answer of the preset question.

In an embodiment of the present invention, the control unit 603 is specifically configured to: controlling an alarm clock unit of the intelligent watch to stop an alarm clock; or controlling an alarm clock unit of the mobile terminal in communication connection with the intelligent watch to stop an alarm clock.

It can be understood that the functions of the functional modules of the smart watch according to the embodiment of the present invention can be specifically implemented according to the method in the foregoing method embodiment, and the specific implementation process may refer to the related description of the foregoing method embodiment, which is not described herein again.

Referring to fig. 7, fig. 7 is a schematic structural diagram of another smart watch disclosed in the embodiment of the present invention. As shown in the figure, the smart watch in the embodiment of the present invention includes: at least one processor 701, e.g., a CPU, at least one receiver 703, at least one memory 704, at least one transmitter 705, at least one communication bus 702. Wherein a communication bus 702 is used to enable connective communication between these components. The receiver 703 and the transmitter 705 of the apparatus in the embodiment of the present invention may be wired transmission ports, or may also be wireless devices, for example, including an antenna apparatus, for performing signaling or data communication with other node devices. The memory 704 may be a high-speed RAM memory or a non-volatile memory (e.g., at least one disk memory). The memory 704 may alternatively be at least one memory device located remotely from the processor 701. A set of program code is stored in the memory 704 and the processor 701 is used to call the program code stored in the memory for performing the following operations:

displaying a preset problem on a display screen of the smart watch;

acquiring answers of the preset questions input by a user through a crown of the smart watch;

and controlling the alarm clock unit to stop the alarm clock under the condition that the answer is judged to be matched with the reference answer of the preset question.

Optionally, in an embodiment of the present invention, the crown includes a joystick, and a specific implementation manner of the processor 701 obtaining the answer to the preset question input by the user through the crown of the smart watch may be: the processor 701 may obtain a dialing parameter of a fluctuation operation of the joystick of the crown of the smart watch by the user, and determine an answer to the preset question input by the user according to the dialing parameter, where the dialing parameter includes at least one of the following dialing parameters: the number of dialing, the dialing direction, the dialing frequency and the dialing rhythm.

In a specific implementation, the processor 701 obtains a toggle parameter of a user for a fluctuating operation of a joystick of a crown of the smart watch, and a specific implementation manner of determining an answer to the preset question input by the user according to the toggle parameter may be:

under the condition that the dialing parameters include the dialing times, the processor 701 may obtain the dialing times of the dialing operation of the user for the operating lever of the crown of the smart watch, calculate a verification value of the dialing operation according to the dialing times, and use the verification value as an answer to the preset question input by the user; or,

under the condition that the toggle parameter comprises the toggle direction, the processor 701 may obtain the toggle direction of the user for the toggle operation of the operating lever of the crown of the smart watch, generate the verification direction of the toggle operation according to the toggle direction, and use the verification direction as the answer of the preset question input by the user; or,

under the condition that the toggle parameter comprises the toggle frequency, the processor 701 may obtain a toggle duration of M times of toggle operations of a user for an operating lever of a crown of the smart watch, determine the toggle frequency of the toggle operations according to the toggle duration of the M times of toggle operations, and use the toggle frequency as an answer to the preset problem input by the user, where M is a positive integer; or,

under the condition that the dialing parameters include the dialing rhythm, the processor 701 may obtain (M-1) dialing interval duration of M dialing operations of a joystick of a crown of the smart watch by the user, determine the dialing rhythm of the dialing operation according to the (M-1) dialing interval duration of the M dialing operations, and use the dialing rhythm as an answer to the preset problem input by the user, where M is a positive integer.

Optionally, in an embodiment of the present invention, the crown includes a trackball, and a specific implementation manner of the processor 701 obtaining the answer to the preset question input by the user through the crown of the smart watch may be: the processor 701 may obtain a scroll parameter of a scroll operation of a user with respect to a trackball of a crown of the smart watch, and determine an answer to the preset question input by the user according to the scroll parameter, where the scroll parameter includes at least one of the following scroll parameters: scroll number, scroll direction, scroll angle, and scroll speed.

In a specific implementation, the processor 701 obtains a scroll parameter of a scroll operation of a user on a trackball of a crown of the smart watch, and a specific implementation manner of determining an answer to the preset question input by the user according to the scroll parameter may be:

under the condition that the scroll parameter includes the scroll frequency, the processor 701 may obtain the scroll frequency of a scroll operation of a user on a trackball of a crown of the smart watch, calculate a verification value of the scroll operation according to the scroll frequency, and use the verification value as an answer to the preset question input by the user; or,

under the condition that the toggle parameter includes the scroll direction, the processor 701 may obtain the scroll direction of a scroll operation of a user for a trackball of a crown of the smart watch, generate a verification direction of the scroll operation according to the scroll direction, and use the verification direction as an answer to the preset question input by the user; or,

under the condition that the toggle parameter includes the scroll angle, the processor 701 may obtain a scroll angle of a scroll operation of a user for a trackball of a crown of the smart watch, generate a verification angle of the scroll operation according to the scroll angle, and use the verification angle as an answer to the preset question input by the user; or,

under the condition that the toggle parameter includes the scroll speed, the processor 701 may obtain the scroll speed of a scroll operation of a user for a trackball of a crown of the smart watch, generate a verification speed of the scroll operation according to the scroll speed, and use the verification speed as an answer to the preset question input by the user.

Optionally, in an embodiment of the present invention, the crown includes a side touch screen, and a specific implementation manner of the processor 701 obtaining the answer to the preset question input by the user through the crown of the smart watch may be: the processor 701 may obtain a touch parameter of a touch operation performed by a user with respect to a side touch screen of a crown of the smart watch, and determine an answer to the preset question input by the user according to the touch parameter, where the touch parameter includes at least one of the following touch parameters: touch times, touch areas, touch force and touch frequency; or,

the processor 701 may obtain a sliding parameter of a sliding operation of a user on a side touch screen of a crown of a smart watch, and determine an answer to the preset question input by the user according to the sliding parameter, where the sliding parameter includes at least one of the following sliding parameters: the number of sliding, the sliding direction, the sliding speed, the sliding distance and the touch force.

In a specific implementation, the processor 701 obtains a touch parameter of a touch operation performed by a user on a side touch screen of a crown of the smart watch, and a specific implementation manner of determining an answer to the preset question input by the user according to the touch parameter may be:

under the condition that the touch parameter includes the touch frequency, the processor 701 may obtain the touch frequency of a touch operation of a user on a side touch screen of a crown of the smart watch, calculate a verification value of the touch operation according to the touch frequency, and use the verification value as an answer to the preset question input by the user; or,

under the condition that the touch parameter includes the touch area, the processor 701 may obtain a coordinate value of a touch position of a touch operation of a user on a side touch screen of a crown of the smart watch, determine a verification area of the touch operation according to the coordinate value of the touch position, and use the verification area as an answer to the preset question input by the user; or,

under the condition that the touch parameter includes the touch strength, the processor 701 may obtain the touch strength of the touch operation of the user on the side touch screen of the crown of the smart watch, generate the verification strength of the sliding operation according to the touch strength, and use the verification strength as the answer to the preset question input by the user; or,

under the condition that the touch parameter includes the touch frequency, the processor 701 may obtain the touch frequency of the touch operation of the user on the side touch screen of the crown of the smart watch, generate the verification frequency of the touch operation according to the touch frequency, and use the verification frequency as the answer to the preset question input by the user.

In a specific implementation, the processor 701 obtains a sliding parameter of a sliding operation of a user on a side touch screen of a crown of the smart watch, and a specific implementation manner of determining an answer to the preset question input by the user according to the sliding parameter may be:

under the condition that the sliding parameter includes the sliding frequency, the processor 701 may obtain the sliding frequency of the sliding operation of the user on the side touch screen of the crown of the smart watch, calculate a verification value of the sliding operation according to the sliding frequency, and use the verification value as an answer to the preset question input by the user; or,

under the condition that the sliding parameter includes the sliding direction, the processor 701 may obtain a sliding direction of a sliding operation of a user on a side touch screen of a crown of the smart watch, generate a verification direction of the sliding operation according to the sliding direction, and use the verification direction as an answer to the preset question input by the user; or,

under the condition that the sliding parameter includes the sliding speed, the processor 701 may obtain a sliding speed of a sliding operation of a user on a side touch screen of a crown of the smart watch, generate a verification speed of the sliding operation according to the sliding speed, and use the verification speed as an answer to the preset question input by the user; or,

under the condition that the sliding parameters include the sliding force, the processor 701 may obtain the sliding force of the user for the sliding operation of the side touch screen of the crown of the smart watch, generate the verification force of the sliding operation according to the sliding force, and use the verification force as the answer to the preset question input by the user.

Optionally, a specific implementation manner of the processor 701 controlling the alarm clock unit to stop the alarm clock may be: controlling an alarm clock unit of the intelligent watch to stop an alarm clock; or controlling an alarm clock unit of the mobile terminal in communication connection with the intelligent watch to stop an alarm clock.

It should be noted that, for simplicity of description, the above-mentioned embodiments of the method are described as a series of acts or combinations, but those skilled in the art will recognize that the present invention is not limited by the order of acts, as some steps may occur in other orders or concurrently in accordance with the invention. Further, those skilled in the art should also appreciate that the embodiments described in the specification are preferred embodiments and that the acts and modules referred to are not necessarily required by the invention.

In the above embodiments, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to related descriptions of other embodiments.

Those skilled in the art will appreciate that all or part of the steps in the methods of the above embodiments may be implemented by associated hardware instructed by a program, which may be stored in a computer-readable storage medium, and the storage medium may include: flash Memory disks, Read-Only memories (ROMs), Random Access Memories (RAMs), magnetic or optical disks, and the like.

The above embodiments of the present invention are described in detail, and the principle and the implementation of the present invention are explained by applying specific embodiments, and the above description of the embodiments is only used to help understanding the method of the present invention and the core idea thereof; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims

1. An alarm clock turn-off method is characterized by comprising the following steps:

displaying a preset problem on a display screen of the smart watch;

2. The method of claim 1, wherein the crown comprises a joystick, and wherein the obtaining an answer to the preset question entered by the user through the crown of the smart watch comprises:

acquiring dialing parameters of fluctuation operation of a control lever of a crown of the smart watch by a user, and determining answers of the preset questions input by the user according to the dialing parameters, wherein the dialing parameters comprise at least one of the following dialing parameters: the number of dialing, the dialing direction, the dialing frequency and the dialing rhythm.

3. The method of claim 2, wherein the obtaining of a dialing parameter of a fluctuating operation of a joystick of a crown of the smart watch by a user, the determining of the answer to the preset question input by the user from the dialing parameter, comprises:

under the condition that the dialing parameters comprise the dialing times, acquiring the dialing times of dialing operation of a user aiming at an operating lever of a crown of the smart watch, calculating a verification value of the dialing operation according to the dialing times, and taking the verification value as an answer of the preset problem input by the user;

or,

under the condition that the dialing parameters comprise the dialing direction, acquiring the dialing direction of the dialing operation of a user aiming at an operating lever of a crown of the smart watch, generating a verification direction of the dialing operation according to the dialing direction, and taking the verification direction as an answer of the preset problem input by the user;

or,

under the condition that the dialing parameters comprise the dialing frequency, acquiring dialing time of M times of dialing operation of a control lever of a crown of the smart watch by a user, determining the dialing frequency of the dialing operation according to the dialing time of the M times of dialing operation, and taking the dialing frequency as an answer of the preset problem input by the user, wherein M is a positive integer;

or,

under the condition that the dialing parameters comprise the dialing rhythm, acquiring (M-1) dialing interval duration of M dialing operations of a control lever of a crown of the smart watch, determining the dialing rhythm of the dialing operation according to the (M-1) dialing interval duration of the M dialing operations, and taking the dialing rhythm as an answer of the preset problem input by the user, wherein M is a positive integer;

or,

under the condition that the dialing parameters comprise dialing times and dialing directions, acquiring dialing times and dialing directions of dialing operations of a user aiming at an operating lever of a crown of the smart watch, generating a direction sequence of the dialing operations according to the dialing times and the dialing directions, and taking the direction sequence as answers of the preset questions input by the user; or,

acquiring the toggle directions of M times of toggle operations of an operating lever of a crown of an intelligent watch by a user, wherein the M times of toggle operations are divided into N groups of toggle operation combinations according to (N-1) times of switching actions of the toggle directions, and the toggle directions of the toggle operations in any one group of the N groups of toggle operation combinations are the same;

creating answers of the preset questions input by the user based on the N groups of toggle operation combinations, wherein the answers of the preset questions input by the user record N verification numerical values and N verification directions of the N groups of toggle operation combinations, the ith verification numerical value of the answers of the preset questions input by the user is obtained based on the total times of toggle operation in the ith group of toggle operation combinations in the N groups of toggle operation combinations, the ith verification direction of the answers of the preset questions input by the user is obtained based on the toggle direction of the toggle operation in the ith group of toggle operation combinations in the N groups of toggle operation combinations, the ith group of toggle operation combinations is any one group of toggle operation combinations in the N groups of toggle operation combinations, M and N are positive integers, and M is larger than or equal to N.

4. The method of claim 1, wherein the crown comprises a trackball, and the obtaining an answer to the preset question entered by the user through the crown of the smart watch comprises:

obtaining a rolling parameter of a rolling operation of a user for a trackball of a crown of the smart watch, and determining an answer to the preset question input by the user according to the rolling parameter, wherein the rolling parameter comprises at least one of the following rolling parameters: scroll number, scroll direction, scroll angle, and scroll speed.

5. The method according to claim 4, wherein the obtaining of the scroll parameter of the scroll operation of the user with respect to the trackball of the crown of the smart watch, the determining of the answer to the preset question input by the user according to the scroll parameter, comprises:

under the condition that the rolling parameters comprise the rolling times, obtaining the rolling times of rolling operation of a user on a trackball of a crown of the smart watch, calculating a verification value of the rolling operation according to the rolling times, and taking the verification value as an answer of the preset question input by the user;

or,

under the condition that the toggle parameters comprise the rolling direction, the rolling direction of the rolling operation of a user for a track ball of a crown of the smart watch is obtained, the verification direction of the rolling operation is generated according to the rolling direction, and the verification direction is used as an answer of the preset question input by the user;

or,

under the condition that the toggle parameter comprises the rolling angle, obtaining the rolling angle of the rolling operation of a user for a track ball of a crown of the smart watch, generating a verification angle of the rolling operation according to the rolling angle, and taking the verification angle as an answer of the preset question input by the user;

or,

under the condition that the toggle parameter comprises the rolling speed, obtaining the rolling speed of the rolling operation of a user for a track ball of a crown of the smart watch, generating a verification speed of the rolling operation according to the rolling speed, and taking the verification speed as an answer of the preset question input by the user;

or,

and under the condition that the toggle parameters comprise the rolling times and the rolling direction, obtaining the rolling times and the rolling operation of a user aiming at the rolling operation of a track ball of a crown of the intelligent watch, generating a direction sequence of the rolling operation according to the rolling times and the rolling direction, and taking the direction sequence as an answer of the preset question input by the user.

6. The method according to claim 1, wherein the crown comprises a side touch screen, and the obtaining of the answer to the preset question input by the user through the crown of the smart watch comprises:

acquiring touch parameters of touch operation of a user on a side touch screen of a crown of the smart watch, and determining answers of the preset questions input by the user according to the touch parameters, wherein the touch parameters comprise at least one of the following touch parameters: touch times, touch areas, touch force and touch frequency;

or,

the method comprises the steps of obtaining sliding parameters of sliding operation of a user on a side touch screen of a crown of the smart watch, and determining answers of preset questions input by the user according to the sliding parameters, wherein the sliding parameters comprise at least one of the following sliding parameters: the number of sliding, the sliding direction, the sliding speed and the touch force.

7. The method of claim 6,

under the condition that the touch parameters comprise the touch times, acquiring the touch times of a user for touch operation of a side touch screen of a crown of the smart watch, calculating a verification value of the touch operation according to the touch times, and taking the verification value as an answer of the preset question input by the user;

or,

under the condition that the touch parameter comprises the touch area, obtaining coordinate values of touch positions of touch operation of a user on a side touch screen of a crown of the smart watch, determining a verification area of the touch operation according to the coordinate values of the touch positions, and taking the verification area as an answer of the preset question input by the user;

or,

under the condition that the touch control parameters comprise the touch control strength, acquiring the touch control strength of a user for touch control operation of a side touch screen of a crown of the smart watch, generating verification strength of the sliding operation according to the touch control strength, and taking the verification strength as an answer of the preset problem input by the user;

or,

under the condition that the touch parameters comprise the touch frequency, acquiring the touch frequency of a user for touch operation of a side touch screen of a crown of the smart watch, generating verification frequency of the touch operation according to the touch frequency, and taking the verification frequency as an answer of the preset question input by the user.

8. The method of claim 6,

under the condition that the sliding parameters comprise the sliding times, obtaining the sliding times of the sliding operation of a user on a side touch screen of a crown of the smart watch, calculating a verification value of the sliding operation according to the sliding times, and taking the verification value as an answer of the preset problem input by the user;

or,

under the condition that the sliding parameters comprise the sliding direction, acquiring the sliding direction of the sliding operation of a user on a side touch screen of a crown of the smart watch, generating a verification direction of the sliding operation according to the sliding direction, and taking the verification direction as an answer of the preset question input by the user;

or,

under the condition that the sliding parameters comprise the sliding speed, acquiring the sliding speed of the sliding operation of a user on a side touch screen of a crown of the smart watch, generating a verification speed of the sliding operation according to the sliding speed, and taking the verification speed as an answer of the preset question input by the user;

or,

under the condition that the sliding parameters comprise the sliding force, obtaining the sliding force of a user for the sliding operation of a side touch screen of a crown of the smart watch, generating verification force of the sliding operation according to the sliding force, and taking the verification force as an answer of the preset problem input by the user;

or,

under the condition that the sliding parameters comprise sliding times and sliding directions, obtaining the sliding times and the sliding directions of sliding operation of a user on a side touch screen of a crown of the smart watch, generating a direction sequence of the sliding operation according to the sliding times and the sliding directions, and taking the direction sequence as an answer of the preset question input by the user; or,

acquiring sliding directions of M sliding operations of a user for a side touch screen type of a crown of the smart watch, wherein the M sliding operations are divided into N groups of sliding operation combinations according to (N-1) switching actions of the sliding directions, and the sliding directions of the sliding operations in any one group of the N groups of sliding operation combinations are the same;

creating an answer to the preset question input by the user based on the N groups of sliding operation combinations, where the answer to the preset question input by the user records N verification values and N verification directions of the N groups of sliding operation combinations, an ith verification value of the answer to the preset question input by the user is obtained based on the total number of sliding operations in an ith group of sliding operation combinations in the N groups of sliding operation combinations, an ith verification direction of the answer to the preset question input by the user is obtained based on the sliding directions of the sliding operations in an ith group of sliding operation combinations in the N groups of sliding operation combinations, the ith group of sliding operation combinations is any one of the N groups of sliding operation combinations, M and N are positive integers, and M is greater than or equal to N.

9. The method according to any of claims 1-8, wherein said controlling the alarm clock unit to stop the alarm clock comprises:

controlling an alarm clock unit of the intelligent watch to stop an alarm clock;

or,

and controlling an alarm clock unit of the mobile terminal in communication connection with the intelligent watch to stop an alarm clock.

10. A smart watch, comprising:

11. The smartwatch according to claim 10, wherein the crown comprises a joystick, the acquisition unit being in particular configured to:

12. The smartwatch according to claim 10, wherein the crown comprises a trackball, the obtaining unit being configured to:

13. The smartwatch according to claim 10, wherein the crown includes a side touch screen, and the obtaining unit is specifically configured to:

or,

14. The smartwatch according to any one of claims 10 to 13, wherein said control unit is specifically configured to:

or,