CN108848185B - Mobile terminal clock control method based on big data - Google Patents

Abstract

The invention provides a mobile terminal clock control method based on big data, which can calibrate the clock of a mobile terminal and synchronize alarm information at the server side, thereby realizing double calibration of the clock and the alarm of the mobile terminal, improving the calibration accuracy, ensuring that the alarm can remind a user on time and effectively solving the problem that the alarm cannot remind the user normally; in addition, aiming at the condition that the clock calibration cannot be carried out on the mobile terminal of the user, the alarm clock information can still be synchronized at the server side, so that the double reminding of the alarm clock is realized, and the problem of time delay caused by inaccurate clock information of the user is effectively avoided.

Description

Mobile terminal clock control method based on big data

Technical Field

The application relates to the technical field of big data and mobile terminal control, in particular to a mobile terminal clock control method based on big data.

Background

With the progress of scientific technology and the development of computer technology, the mobile terminal replaces the traditional clock to provide clock information for people, and the alarm clock is a very convenient time acquisition method, thereby greatly facilitating the life of people. In the prior art, although mobile terminals of an android system and an apple system realize real-time calibration of clock information based on the internet, alarm clocks are realized completely based on the control of the mobile terminals; however, in use, a majority of iphone users have situations that set alarms cannot normally remind the users, the phenomena that the alarms do not sound or are delayed without reason are essentially caused by the defects of the operating system, and the prior art has no method for effectively solving the problems, so that time management of the users is wrong, and the use experience of the users on the mobile terminal is greatly influenced.

Disclosure of Invention

The invention provides a mobile terminal clock control method based on big data, which comprises the following steps:

s1, the mobile terminal establishes communication connection with a big data server, and the big data server provides calibration clock information;

s2, acquiring clock information and alarm information of the mobile terminal after a user sets an alarm of the mobile terminal, and sending the clock information and the alarm information to the big data server;

s3, the big data server obtains the clock information and the alarm information, compares whether the clock information is consistent with the calibration clock information, and stores the alarm information if the clock information is consistent with the calibration clock information; if the clock information of the mobile terminal is inconsistent with the clock information of the mobile terminal, calibrating the clock information of the mobile terminal and storing the alarm information;

and S4, the big data server sends the trigger information of the alarm information to the mobile terminal after the time point of the alarm information is reached, and the mobile terminal triggers the alarm after receiving the trigger information.

As a preferred implementation, the calibrating the clock information of the mobile terminal specifically includes:

Sending prompt information of clock calibration to a user of the mobile terminal, and if the user accepts the clock calibration, calibrating the clock information of the mobile terminal by the big data server according to the calibrated clock information; and if the user does not accept the clock calibration, feeding back non-calibration information to the big data server.

As a preferred embodiment, if the user does not accept the clock calibration, feeding back non-calibration information to the big data server, further includes:

and after receiving the misalignment information, the big data server sends the trigger information of the alarm information to the mobile terminal according to the clock information and the alarm information of the mobile terminal after reaching the time point of the alarm information, and the mobile terminal triggers the alarm after receiving the trigger information.

As a preferred embodiment, the method further comprises:

calculating according to the calibration clock information and the alarm clock information to obtain the alarm clock calibration information;

if the alarm calibration information is earlier than the time point of the alarm information, sending trigger information of the alarm information to the mobile terminal after the time point of the alarm calibration information is reached, and triggering a second alarm after the mobile terminal receives the trigger information;

If the alarm calibration information is later than the time point of the alarm information, monitoring whether a user triggers the stop operation of the first alarm or not after the time point of the alarm information is reached, and if so, not triggering the alarm; if not, sending the trigger information of the alarm clock information to the mobile terminal after the time point of the alarm clock calibration information is reached, and triggering a third alarm clock after the mobile terminal receives the trigger information.

As a preferred embodiment, the method further comprises:

the first alarm is an alarm sound set by the user;

the second alarm and the third alarm are different from the first alarm.

As a preferred implementation manner, the triggering a second alarm after the mobile terminal receives the trigger information further includes:

monitoring whether a user triggers the stop operation of the second alarm, if so, not triggering the first alarm; if not, sending the trigger information of the alarm information to the mobile terminal after the time point of the alarm information is reached, and triggering the first alarm after the mobile terminal receives the trigger information.

As a preferred embodiment, the method further comprises:

The big data server stores calibration time information of each time zone;

and acquiring the position of the mobile terminal, if the mobile terminal changes the time zone or the area of the time zone, sending a prompt message of clock calibration to the user of the mobile terminal, and calibrating the current time of the mobile terminal according to the calibration time message.

As a preferred embodiment, the method further comprises:

setting a secondary calibration time point of the mobile terminal, wherein the secondary calibration time point is a preset time point before the time point of the alarm information;

and after the secondary calibration time point is reached, the big data server acquires the clock information of the mobile terminal, compares whether the clock information is consistent with the calibration clock information corresponding to the secondary calibration time point, and recalibrates the clock information of the mobile terminal if the clock information is inconsistent with the calibration clock information corresponding to the secondary calibration time point.

The invention provides a mobile terminal clock control method based on big data, which can calibrate the clock of a mobile terminal and synchronize alarm information at the server side, thereby realizing double calibration of the clock and the alarm of the mobile terminal, improving the calibration accuracy, ensuring that the alarm can remind a user on time and effectively solving the problem that the alarm cannot remind the user normally; in addition, aiming at the condition that the clock calibration cannot be carried out on the mobile terminal of the user, the alarm clock information can still be synchronized at the server side, so that the double reminding of the alarm clock is realized, and the problem of time delay caused by inaccurate clock information of the user is effectively avoided.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the following briefly introduces the embodiments and the drawings used in the description of the prior art, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and those skilled in the art can also obtain other drawings according to the drawings without creative efforts.

Fig. 1 is an exemplary schematic diagram of a big data-based mobile terminal clock control method according to the present invention.

Detailed Description

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

The first embodiment is as follows:

as shown in fig. 1, the present invention provides a mobile terminal clock control method based on big data, which includes the following steps:

s1, the mobile terminal establishes communication connection with a big data server, and the big data server provides calibration clock information; it should be noted that, the big data server stores calibrated clock information, and the clock information includes calibrated clock information for each time zone in each continent; in addition, the big data server also stores different users and alarm information thereof, so as to calibrate the alarm time of the users.

S2, acquiring clock information and alarm information of the mobile terminal after a user sets an alarm of the mobile terminal, and sending the clock information and the alarm information to the big data server; it should be noted that, the alarm information obtained from the mobile terminal is obtained by the way that a user who passes through the mobile terminal in advance passes through authentication and authorization, so as to ensure data security of the user; preferably, the big data server may further obtain location information of the mobile terminal, so as to accurately calibrate clock information of the mobile terminal.

S3, the big data server obtains the clock information and the alarm information, compares whether the clock information is consistent with the calibration clock information, and stores the alarm information if the clock information is consistent with the calibration clock information; if the clock information of the mobile terminal is inconsistent with the clock information of the mobile terminal, calibrating the clock information of the mobile terminal and storing the alarm information; it should be noted that the calibration clock information is accurate clock information that the big data server has been calibrated externally, so as to ensure the accuracy of the calibration clock information. In addition, the alarm information is stored in a special alarm information database in the big data server, and the alarm information database stores all authorized users and identifications thereof and one or more alarm information, so that the alarm information is managed in a unified and centralized manner.

And S4, the big data server sends the trigger information of the alarm information to the mobile terminal after the time point of the alarm information is reached, and the mobile terminal triggers the alarm after receiving the trigger information. It should be noted that, for example, if the time point of the alarm information is 10:00, the big data server sends the trigger information of the alarm information to the mobile terminal at the time point of 10:00, and the mobile terminal triggers an alarm after receiving the trigger information. Furthermore, the above method of the present invention may be implemented based on dedicated application software, such as a clock APP or an alarm APP; at the moment, the application software establishes communication connection with the big data server through a wireless network; in addition, the method of the present invention can be implemented based on the mobile terminal itself without depending on application software to save the data storage space of the mobile terminal of the user, and at this time, only the mobile terminal needs to open the API interfaces of the clock and the alarm, and the method can be implemented by the mobile terminal developer performing the maintenance and upgrade operations of the API interfaces, or by the third party developer performing the upgrade operations of the API interfaces, without limitation.

The invention provides a mobile terminal clock control method based on big data, which can calibrate the clock of a mobile terminal and synchronize alarm information at the server side, thereby realizing double calibration of the clock and the alarm of the mobile terminal, improving the calibration accuracy, ensuring that the alarm can remind a user on time and effectively solving the problem that the alarm cannot remind the user normally; in addition, aiming at the condition that the clock calibration cannot be carried out on the mobile terminal of the user, the alarm clock information can still be synchronized at the server side, so that the double reminding of the alarm clock is realized, and the problem of time delay caused by inaccurate clock information of the user is effectively avoided.

As a preferred implementation, the calibrating the clock information of the mobile terminal specifically includes:

sending prompt information of clock calibration to a user of the mobile terminal, and if the user accepts the clock calibration, calibrating the clock information of the mobile terminal by the big data server according to the calibrated clock information; and if the user does not accept the clock calibration, feeding back non-calibration information to the big data server. It should be noted that, for example, the prompt message of clock calibration sent to the user of the mobile terminal is "your clock is delayed/advanced, whether clock calibration is agreed" or not ", and tabs of" agreement "and" disagreement "are provided for the user to select.

As a preferred embodiment, if the user does not accept the clock calibration, feeding back non-calibration information to the big data server, further includes:

and after receiving the misalignment information, the big data server sends the trigger information of the alarm information to the mobile terminal according to the clock information and the alarm information of the mobile terminal after reaching the time point of the alarm information, and the mobile terminal triggers the alarm after receiving the trigger information. It should be noted that, if the user does not calibrate the clock of the mobile terminal, at this time, the alarm information is still triggered according to the clock information of the mobile terminal, that is, the alarm information also refers to the clock information of the mobile terminal, and that is, the clock information refers to the clock information of the mobile terminal. For example, the current clock of the mobile terminal is 7:50, the standard clock is 8:00, and the alarm time is 10:00, where 10:00 is relative to the current clock of the mobile terminal, which is 7: 50.

As a preferred embodiment, the method further comprises:

calculating according to the calibration clock information and the alarm clock information to obtain the alarm clock calibration information; it should be noted that, when the user does not calibrate the clock of the mobile terminal, the clock information of the mobile terminal is inaccurate, and the alarm information is also inaccurate because the alarm information is relative to the clock information; therefore, the alarm information acquired by the user can have an error with a standard alarm time period, and the user cannot acquire accurate alarm time point information. At this time, in order to ensure that the user can obtain accurate alarm information, the alarm information needs to be calibrated.

If the alarm calibration information is earlier than the time point of the alarm information, sending trigger information of the alarm information to the mobile terminal after the time point of the alarm calibration information is reached, and triggering a second alarm after the mobile terminal receives the trigger information; for example, the current clock of the mobile terminal is 7:50, the alarm information is 10:00, that is, the alarm time desired by the user is 10: 00; when the current standard clock is 8:00, the alarm time of the user is actually 10:10, so that the time delay of the user is caused; at this time, the alarm calibration information is set to be standard time 10:00, the alarm calibration information 10:00 is earlier than the time point 10:10 of the alarm information, the trigger information of the alarm information is sent to the mobile terminal after the time point 10:00 of the alarm calibration information is reached, the mobile terminal triggers a second alarm after receiving the trigger information, and then the user can obtain the accurate alarm time point, so that the time delay of the user is effectively avoided.

If the alarm calibration information is later than the time point of the alarm information, monitoring whether a user triggers the stop operation of the first alarm or not after the time point of the alarm information is reached, and if so, not triggering the alarm; if not, sending the trigger information of the alarm clock information to the mobile terminal after the time point of the alarm clock calibration information is reached, and triggering a third alarm clock after the mobile terminal receives the trigger information. For example, the current clock of the mobile terminal is 8:10, the alarm information is 10:00, that is, the alarm time desired by the user is 10: 00; when the current standard clock is 8:00, the alarm time of the user is 9:50 actually, so that the alarm time of the user is advanced; at this time, setting the alarm calibration information as standard time 10:00, if the alarm calibration information 10:00 is later than the time point 9:50 of the alarm information, monitoring whether a user triggers the stop operation of a first alarm after the time point 9:50 of the alarm information is reached, detecting whether the user has obtained the alarm time point, if the user does not obtain the alarm time point due to reasons such as rest and the like, performing secondary reminding through the standard alarm information, namely sending the trigger information of the alarm information to the mobile terminal after the time point 10:00 of the alarm calibration information is reached, and triggering a third alarm after the mobile terminal receives the trigger information; therefore, the embodiment of the invention can set the secondary reminding function under the condition that the alarm is advanced, thereby effectively avoiding the time delay of the user.

As a preferred embodiment, the method further comprises:

the first alarm is an alarm sound set by the user;

the second alarm and the third alarm are different from the first alarm.

It should be noted that, because the first alarm corresponds to the alarm time point set by the user, the alarm sound is set by default by the user, so that the user can conveniently identify the alarm time. Since the second alarm and the third alarm are calibrated with the system, it is necessary to set them differently from the first alarm for the user to distinguish. Preferably, because the time point of the second alarm is earlier than that of the first alarm, the volume or the prompt intensity of the second alarm can be set to be smaller than that of the first alarm; since the time point of the second alarm is later than that of the first alarm, the volume or the prompting intensity of the third alarm can be set to be larger than that of the first alarm; the alarm sound can be changed from small to big, and the user is prevented from being frightened.

As a preferred implementation manner, the triggering a second alarm after the mobile terminal receives the trigger information further includes:

Monitoring whether a user triggers the stop operation of the second alarm, if so, not triggering the first alarm; if not, sending the trigger information of the alarm information to the mobile terminal after the time point of the alarm information is reached, and triggering the first alarm after the mobile terminal receives the trigger information. For example, the current clock of the mobile terminal is 8:10, the alarm information is 10:00, that is, the alarm time desired by the user is 10: 00; when the current standard clock is 8:00, the alarm time of the user is 9:50 actually, so that the alarm time of the user is advanced; at this time, setting the alarm calibration information as standard time 10:00, if the alarm calibration information 10:00 is later than the time point 9:50 of the alarm information, monitoring whether a user triggers the stop operation of a first alarm after the time point 9:50 of the alarm information is reached, detecting whether the user has obtained the alarm time point, if the user does not obtain the alarm time point due to reasons such as rest and the like, performing secondary reminding through the standard alarm information, namely sending the trigger information of the alarm information to the mobile terminal after the time point 10:00 of the alarm calibration information is reached, and triggering a third alarm after the mobile terminal receives the trigger information; therefore, the embodiment of the invention can set the secondary reminding function under the condition that the alarm is advanced, thereby effectively avoiding the time delay of the user.

As a preferred embodiment, the method further comprises:

the big data server stores calibration time information of each time zone; it should be noted that, the big data server stores calibrated clock information, and the clock information includes calibrated clock information for each time zone in each continent.

And acquiring the position of the mobile terminal, if the mobile terminal changes the time zone or the area of the time zone, sending a prompt message of clock calibration to the user of the mobile terminal, and calibrating the current time of the mobile terminal according to the calibration time message. It should be noted that the time zone area is an area using the same time zone, for example, the eight east zone time zones are used in china, and at this time, the time zone area does not need to be adjusted according to the time zone change; when the time zone changes caused by crossing different countries or regions, prompt information needs to be sent to the user to calibrate the clock time, and then the alarm time is calibrated, so that the accuracy of the clock time and the alarm time of the user is ensured.

As a preferred embodiment, the method further comprises:

setting a secondary calibration time point of the mobile terminal, wherein the secondary calibration time point is a preset time point before the time point of the alarm information; it should be noted that, for example, the time point of the alarm information is 10:00, at this time, the secondary calibration time point is set to 20 minutes, that is, 9:40, before the time point 10:00, so as to avoid that the clock time of the mobile terminal is already inaccurate due to an excessively large time difference between the clock time and the alarm time, which causes inaccuracy of the alarm time.

And after the secondary calibration time point is reached, the big data server acquires the clock information of the mobile terminal, compares whether the clock information is consistent with the calibration clock information corresponding to the secondary calibration time point, and recalibrates the clock information of the mobile terminal if the clock information is inconsistent with the calibration clock information corresponding to the secondary calibration time point. It should be noted that, for example, after the time point 9:40 of the secondary calibration is reached, the big data server obtains the clock information of the mobile terminal, compares whether the clock information is consistent with the calibration clock information corresponding to the time point of the secondary calibration, and if not, recalibrates the clock information of the mobile terminal. Therefore, the accuracy of the clock information is ensured through secondary clock calibration.

The invention provides a mobile terminal clock control method based on big data, which can calibrate the clock of a mobile terminal and synchronize alarm information at the server side, thereby realizing double calibration of the clock and the alarm of the mobile terminal, improving the calibration accuracy, ensuring that the alarm can remind a user on time and effectively solving the problem that the alarm cannot remind the user normally; in addition, aiming at the condition that the clock calibration cannot be carried out on the mobile terminal of the user, the alarm clock information can still be synchronized at the server side, so that the double reminding of the alarm clock is realized, and the problem of time delay caused by inaccurate clock information of the user is effectively avoided.

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

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

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

Claims (6)

1. A clock control method of a mobile terminal based on big data is characterized by comprising the following steps:

s1, the mobile terminal establishes communication connection with a big data server, and the big data server provides calibration clock information;

s2, acquiring clock information and alarm information of the mobile terminal after a user sets an alarm of the mobile terminal, and sending the clock information and the alarm information to the big data server;

s3, the big data server obtains the clock information and the alarm information, compares whether the clock information is consistent with the calibration clock information, and stores the alarm information if the clock information is consistent with the calibration clock information; if the clock information of the mobile terminal is inconsistent with the clock information of the mobile terminal, calibrating the clock information of the mobile terminal and storing the alarm information;

s4, the big data server sends the trigger information of the alarm information to the mobile terminal after the time point of the alarm information is reached, and the mobile terminal triggers the alarm after receiving the trigger information;

Further comprising: if the user does not accept clock calibration, calculating alarm calibration information according to the calibrated clock information and the alarm information;

if the alarm calibration information is later than the time point of the alarm information, monitoring whether a user triggers the stop operation of the first alarm or not after the time point of the alarm information is reached, and if so, not triggering the alarm; if not, sending the trigger information of the alarm clock information to the mobile terminal after the time point of the alarm clock calibration information is reached, and triggering a third alarm clock after the mobile terminal receives the trigger information;

the first alarm is alarm sound set by a user, and the first alarm corresponds to the alarm time point set by the user.

2. The method according to claim 1, wherein the calibrating the clock information of the mobile terminal specifically comprises:

sending prompt information of clock calibration to a user of the mobile terminal, and if the user accepts the clock calibration, calibrating the clock information of the mobile terminal by the big data server according to the calibrated clock information; and if the user does not accept the clock calibration, feeding back non-calibration information to the big data server.

3. The method of claim 2, wherein if the user does not accept the clock calibration, feeding back non-calibration information to the big data server, further comprising:

and after receiving the misalignment information, the big data server sends the trigger information of the alarm information to the mobile terminal according to the clock information and the alarm information of the mobile terminal after reaching the time point of the alarm information, and the mobile terminal triggers the alarm after receiving the trigger information.

4. The method of claim 1, wherein if the alarm calibration information is earlier than a time point of the alarm information, sending trigger information of the alarm information to the mobile terminal after the time point of the alarm calibration information is reached, and the mobile terminal triggers a second alarm after receiving the trigger information, further comprising:

monitoring whether a user triggers the stop operation of the second alarm, if so, not triggering the first alarm; if not, sending the trigger information of the alarm information to the mobile terminal after the time point of the alarm information is reached, and triggering the first alarm after the mobile terminal receives the trigger information.

5. The method of claim 1, further comprising:

the big data server stores calibration time information of each time zone;

and acquiring the position of the mobile terminal, if the mobile terminal changes the time zone or the area of the time zone, sending a prompt message of clock calibration to the user of the mobile terminal, and calibrating the current time of the mobile terminal according to the calibration time message.

6. The method of claim 1, further comprising:

setting a secondary calibration time point of the mobile terminal, wherein the secondary calibration time point is a preset time point before the time point of the alarm information;

and after the secondary calibration time point is reached, the big data server acquires the clock information of the mobile terminal, compares whether the clock information is consistent with the calibration clock information corresponding to the secondary calibration time point, and recalibrates the clock information of the mobile terminal if the clock information is inconsistent with the calibration clock information corresponding to the secondary calibration time point.

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