CN110233630B - Mobile terminal data processing method, mobile terminal and storage medium - Google Patents

Abstract

The application discloses a mobile terminal data processing method, a mobile terminal and a storage medium, wherein the method comprises the following steps: the mobile terminal acquires the periodic values of the data transmitted and received by each wireless working module from the antenna; and when detecting that the antenna receives the message to be sent, sequentially sending the message to be sent to each wireless working module according to the period value of each wireless working module. Therefore, invalid processing flows of each wireless working module to data are reduced, and the data processing efficiency of the mobile terminal is improved, so that the user experience is improved.

Description

Mobile terminal data processing method, mobile terminal and storage medium

Technical Field

The present invention relates to the field of applications of mobile terminals, and in particular, to a data processing method for a mobile terminal, and a storage medium.

Background

Transceiving data through an antenna is one of the most basic functions of a mobile terminal, and an antenna apparatus of the mobile terminal couples radio signals in an environment through the antenna and then detects the signals. Radio signals in the environment are various, an antenna of the mobile terminal only focuses on receiving and transmitting signals, but does not focus on the content of the signals, so that after the antenna receives data, the data need to be sent to each wireless module in the mobile terminal, such as an NFC module, a bluetooth module, a WiFi module, a GSM module, and the like, but the operating states and operating modes of the modules are different, in the prior art, when the antenna receives the data, the data is sent to all started wireless operating modules, and actually some modules cannot receive the data at the time point, so that the modules perform redundant data processing on the data sent by the antenna, and the efficiency of data processing is reduced.

Therefore, the prior art has yet to be improved.

Disclosure of Invention

The invention mainly provides a mobile terminal data processing method, a mobile terminal and a storage medium, which are used for reducing invalid processing flows of each wireless working module to data and improving the data processing efficiency of the mobile terminal, thereby improving the user experience.

In order to solve the technical problems, the invention adopts a technical scheme that:

a data processing method of a mobile terminal is provided, which comprises the following steps:

the mobile terminal acquires the periodic values of the data transmitted and received by each wireless working module from the antenna;

and when detecting that the antenna receives the message to be sent, sequentially sending the message to be sent to each wireless working module according to the period value of each wireless working module.

In order to solve the technical problem, the invention adopts another technical scheme that: there is provided a mobile terminal including: an antenna and a driving circuit connected to each other, wherein,

the antenna receives a program instruction for implementing the data processing method of the mobile terminal;

the driving circuit is used for executing the program instructions received by the antenna.

In order to solve the technical problem, the invention adopts another technical scheme that: there is provided a storage medium including:

a program file is stored, which can be executed to implement the data processing method of the mobile terminal described in any one of the above.

The invention has the beneficial effects that: different from the prior art, the mobile terminal acquires the period value of data transmitted and received by each wireless working module from the antenna; and when detecting that the antenna receives the message to be sent, sequentially sending the message to be sent to each corresponding wireless working module according to the period value of each wireless working module. Therefore, invalid processing flows of each wireless working module to data are reduced, and the data processing efficiency of the mobile terminal is improved, so that the user experience is improved.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of a data processing method of a mobile terminal according to the present invention;

fig. 2 is a schematic structural diagram of a second embodiment of a data processing method of a mobile terminal according to the present invention;

fig. 3 is a schematic structural diagram of a data processing method of a mobile terminal according to a third embodiment of the present invention;

fig. 4 is a schematic structural diagram of a data processing method of a mobile terminal according to a fourth embodiment of the present invention;

fig. 5 is a schematic structural diagram of a mobile terminal data processing method according to a fifth embodiment of the present invention;

fig. 6 is a schematic structural diagram of a mobile terminal of the present invention;

FIG. 7 is a schematic diagram of the structure of the storage medium of the present invention.

Detailed Description

In order to make the objects, technical solutions and effects of the present invention clearer and clearer, the present invention is further described in detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Fig. 1 is a schematic structural diagram of a mobile terminal data processing method according to a first embodiment of the present invention. The method specifically comprises the following steps:

step S101: the mobile terminal obtains the period value of data receiving and sending from the antenna by each wireless working module.

In the present invention, it is necessary to store, in the mobile terminal, a period value of each wireless working module corresponding to receiving antenna data from the antenna in advance, for example, the period value of the NFC module, the bluetooth module, the WiFi module, and the GSM module receiving and transmitting data from the antenna is 10 milliseconds, 20 milliseconds, 30 milliseconds, and 40 milliseconds.

Step S102: and when detecting that the antenna receives the message to be sent, sequentially sending the message to be sent to each wireless working module according to the period value of each wireless working module.

Specifically, when receiving a message to be sent, the antenna of the mobile terminal sends the message to be sent to each wireless working module according to a pre-stored period value, for example, when the message to be sent received by the antenna needs to be used by an NFC module, a bluetooth module, and a WiFi module, the message to be sent is sent to the NFC module when the time reaches 10 milliseconds, the message to be sent is sent to the bluetooth module when the time reaches 20 milliseconds, and the message to be sent is sent to the WiFi module when the time reaches 30 milliseconds.

According to the method, the message to be sent is sent to each wireless working module according to the periodic value of the data sent and received by each wireless working module from the antenna, so that the message to be sent is prevented from being sent to a plurality of wireless working modules at the same time, the invalid processing process of the mobile terminal is reduced, and the user experience is improved.

Specifically, please refer to fig. 2, which is a schematic structural diagram of a mobile terminal data processing method according to a second embodiment of the present invention. Compared with the first embodiment, the difference is that step S102 specifically further includes:

step S201: and if the number of the wireless working modules which are required to be used currently is 1, directly sending the message to be sent to the wireless working modules.

And if the number of the wireless working modules required by the mobile terminal is 1, directly sending the message to be sent received by the antenna to the wireless working modules required to be used. In another embodiment, the message to be sent received by the antenna may be sent to the wireless operating module when the time reaches the period value of the wireless operating module that needs to be used.

Step S202: if a plurality of wireless working modules are needed currently, a first greatest common divisor of period values of data transmitted and received by the plurality of wireless working modules from the antenna is obtained.

If it is detected that the wireless working modules that need to be used are multiple, the period values of the multiple wireless working modules are acquired, for example, if it is detected that the wireless working modules that need to be used are NFC modules, bluetooth modules, and WIFI modules, the period values are acquired, for example, 10 milliseconds, 20 milliseconds, and 30 milliseconds, and the greatest common divisor of the period values is calculated, for example, 10 milliseconds, 20 milliseconds, and 30 milliseconds are 10.

Step S203: and sequentially sending the messages to be sent to a plurality of wireless working modules needing to be used based on the first greatest common divisor.

The present embodiment further distributes the pending message to each wireless working module according to the greatest common divisor of the period values of the data transmitted and received from the antenna by all the wireless working modules that need to be used.

Referring to fig. 3, a schematic structural diagram of a third embodiment of the data processing method of the mobile terminal of the present invention is shown, and compared with the second embodiment, the difference is that step S203 further includes:

step S2031: the mobile terminal receives an instruction to set a counter and a timer.

Specifically, in this embodiment, the mobile terminal needs to be configured with a timer and a counter, and therefore, the instruction for setting the counter and the timer is sent to the mobile terminal, so that the mobile terminal periodically sends the message to be sent to each wireless working module through the timer and the counter.

Step S2032: distributing the first greatest common divisor to the timer as a timeout time of the timer.

After obtaining a first greatest common divisor of the period value according to the pre-stored period value of each wireless working module, the mobile terminal uses the first greatest common divisor as the timeout time of the timer, for example, the first greatest common divisor is 10, and the timeout time of the timer is T ═ 10.

Step S2033: and starting the timer and the counter, and when the overtime time of the timer is reached, the antenna sends the message to be sent to the corresponding wireless working module.

Specifically, the sending of the message to be sent to the corresponding wireless working module by the antenna refers to sending the message to be sent to the wireless working module, where t is the timeout time set by the timer, t' is the period value of the wireless working module receiving the antenna data from the antenna, and the counter is the value of the counter. For example, currently, only the NFC module and the bluetooth module are started, the period values of data transmission and reception from the antenna are 10 milliseconds and 20 milliseconds, respectively, since the greatest common divisor of 10 milliseconds and 20 milliseconds is 10, the timeout time of the timer is set to 10 milliseconds, when the timer times out each time, the value of the counter is increased by 1, and when the timer times out this time, the message to be sent is distributed to the corresponding operating module, where the "corresponding operating module" refers to a wireless operating module in which t is divisible by t'.

For example, the value of the period of transmitting and receiving data from the antenna is 10 ms for the NFC module, and t is 1 × 10, which can be divided by t '10, so that the message to be transmitted is sent to the NFC module, and the value of the period of transmitting and receiving data from the antenna is 20 ms for the bluetooth module, and t is 1 × 10, which cannot be divided by t' 20, so that the message to be transmitted is not sent to the bluetooth module.

Step S2034: and the counter is added with one, the timer is cleared and restarted, and after the timer reaches the overtime, the antenna sends the message to be sent to the corresponding wireless working module.

When the antenna reaches the first overtime, after a message to be sent is sent to the NFC module with the period of 10 milliseconds, the counter is increased by one, the timer is cleared to enable the timer to restart timing, and after the overtime is reached again, the message to be sent is sent to the Bluetooth module with the period value of 20 milliseconds.

For example, the period value of the data transmitted and received from the antenna is 10 ms for the NFC module, and the period value of the data transmitted and received from the antenna is 2 × 10 — 20 which can be divided by t '10, so that the message to be transmitted is sent to the NFC module, and the period value of the data transmitted and received from the antenna is 20 ms for the bluetooth module, and the period value of the data transmitted and received from the antenna is 2 × 10 — 20 which can be divided by t' 20, so that the message to be transmitted is sent to the bluetooth module.

For another example, the period value of the data transmitted and received from the antenna is 10 ms for the NFC module, and the period value of the data transmitted and received from the antenna is 3 × 10 — 30, which can be divided by t '═ 10, so that the to-be-sent message is sent to the NFC module, and the period value of the data transmitted and received from the antenna is 20 ms for the bluetooth module, and the period value of the data transmitted and received from the antenna is 3 × 10 — 30, which cannot be divided by t' ═ 20, so that the to-be-sent message is not sent to the bluetooth module.

The embodiment specifically explains how to distribute a to-be-sent message to a plurality of wireless working modules according to the greatest common divisor of the period values of data sent and received by the plurality of wireless working modules from an antenna, and introduces a timer and a counter so that the antenna distributes the to-be-sent message to each wireless working module according to the timeout time of the timer and the counter value of the counter, thereby reducing invalid processing flows of the wireless working modules to the data caused by simultaneous distribution, improving the data processing efficiency of the mobile terminal, and further improving the user experience.

Please refer to fig. 4, which is a schematic structural diagram of a data processing method of a mobile terminal according to a fourth embodiment of the present application. The embodiment comprises the following steps:

step S301: if an instruction for closing at least one wireless working module is detected, closing the wireless working module corresponding to the instruction, and if a plurality of wireless working modules needing to be used are left, determining a second greatest common divisor of period values of data transmitted and received by the antenna from the remaining wireless working modules needing to be used.

Specifically, if the currently-turned-on wireless operating modules are the NFC module, the bluetooth module, and the WIFI module, and the corresponding cycle values of receiving and transmitting data from the antenna are 10 milliseconds, 20 milliseconds, and 40 milliseconds, when it is detected that at least one wireless operating module is turned off, for example, the NFC module is turned off, the second greatest common divisor of the cycle values of the remaining wireless operating modules is determined, for example, the second greatest common divisor of the cycle values of the bluetooth module (20 milliseconds) and the WIFI module (40 milliseconds) except the NFC module is 20.

Step S302: and sequentially sending the messages to be sent to the wireless working modules needing to be used based on the second greatest common divisor.

Specifically, referring to fig. 5, a schematic structural diagram of a fifth embodiment of the data processing method of the mobile terminal according to the present invention is shown for a specific manner of sequentially sending the to-be-sent message to the wireless working modules that need to be used based on the second greatest common divisor.

Step S3021: the mobile terminal receives an instruction for setting a timer and a counter.

Specifically, in this embodiment, the mobile terminal needs to be configured with a timer and a counter, so as to periodically send a message to be sent to each wireless working module through the timer and the counter.

Step S3022: and if the mobile terminal does not have the started wireless working module after the at least one wireless working module is detected to be closed, the mobile terminal closes the timer.

For example, the currently-started wireless function working module is an NFC module, a bluetooth module and a WIFI module, and after the NFC module, the bluetooth module and the WIFI module are all turned off, the mobile terminal controls the timer to be turned off when no other wireless working module is available.

Step S3023: and if detecting that only one needed wireless working module is left after at least one wireless working module is closed, distributing the periodic value of the data transmitted and received by the remaining wireless working module from the antenna to the timer to be used as the timeout time of the timer.

If the currently-started wireless function working module is an NFC module (with a period value of 10 milliseconds), a bluetooth module (with a period value of 20 milliseconds), or a WIFI module (with a period value of 40 milliseconds), when only the WIFI module remains after the NFC module and the bluetooth module are turned off, taking the period value of 40 milliseconds of the WIFI module as the timeout time of the timer, that is, t is 40.

Step S3024: and starting the timer, and when the overtime time of the timer is reached, the antenna sends the message to be sent to the corresponding wireless working module.

For example, if the remaining wireless working module that needs to be used is a WIFI module, the message to be sent is sent to the WIFI module when the timeout time of the timer reaches the periodic value of the WIFI module for 40 milliseconds.

Step S3025: and if a plurality of wireless working modules which are needed to be used are detected to be left after at least one wireless working module is closed, determining a second greatest common divisor of the period value of the data transmitted and received by the antenna from the currently remaining wireless working modules which are needed to be used.

For example, if it is detected that the NFC module is currently turned off, the greatest common divisor of the period values of the remaining bluetooth module and the WIFI module for transceiving data from the antenna is obtained, and assuming that the period value of the bluetooth module for transceiving data from the antenna is 20 milliseconds and the period value of the WIFI module for transceiving data from the antenna is 40 milliseconds, the second greatest common divisor is t-20.

Step S3026: distributing the second greatest common divisor to the timer as a timeout time of the timer.

Setting the second greatest common divisor t-20 as the timeout time of the timer.

Step S3027: and starting the timer and the counter, and when the overtime time of the timer is reached, the antenna sends the message to be sent to the corresponding wireless working module.

Specifically, when the timeout time t of the timer reaches 20, the antenna sends the message to be sent to the corresponding wireless operating module, and sending the data to be sent to the corresponding wireless operating module refers to sending the data to be sent to a wireless operating module (t × counter) that can be divided by t ', where t is the timeout time set by the timer, t' is a period value of the wireless operating module receiving antenna data from the antenna, and counter is a value of the counter. For example, only the bluetooth module and the WIFI module are left, and the period values of data transmission and reception from the antenna are 20 milliseconds and 40 milliseconds, respectively, since the timeout time of the timer is 20 milliseconds. Here, the period value of the data transmitted and received from the antenna is 20 ms for the bluetooth module, and the period value of the data transmitted and received from the antenna is 1 × 20 which can be divided by t '20, so the to-be-transmitted message is transmitted to the NFC module, and the period value of the data transmitted and received from the antenna is 20 ms for the WIFI module, and the period value of the data transmitted and received from the antenna is 1 × 20 which cannot be divided by t' 40, so the to-be-transmitted message is not transmitted to the WIFI module.

Step S3028: and adding 1 to the counter, clearing the timer and restarting the timer, and after the timer reaches the next overtime, the antenna sends the message to be sent to the corresponding wireless working module.

When the timer is overtime each time, the value of the counter is added with 1, and when the timer is overtime this time, the message to be sent is distributed to the corresponding working module, and the corresponding working module refers to the wireless working module of which t is the counter which can be divided by t'.

For example, the period value of the data transmitted and received from the antenna is 20 ms for the bluetooth module, and the period value of the data transmitted and received from the antenna is 2 × 20 — 40, which can be divided by t '═ 20, so that the message to be sent is sent to the bluetooth module, and the period value of the data transmitted and received from the antenna is 40 ms for the WIFI module, and the period value of the data transmitted and received from the antenna is 2 × 20 — 40, which can be divided by t' ═ 40, so that the message to be sent is sent to the WIFI module.

Please refer to fig. 6, which is a schematic structural diagram of the mobile terminal of the present invention. The mobile terminal comprises an antenna 51 and a driving circuit 52 coupled to the antenna.

The antenna 51 receives program instructions for implementing the data processing method of any of the above.

The driving circuit 52 is configured to execute the program instructions received by the antenna 51.

The antenna 51 is a device for receiving signals on the mobile terminal, and is a standing wave antenna, impedance mismatch of the antenna will cause a large amount of signal reflection, so that radiation efficiency of the antenna is reduced, meanwhile, due to reflection influence, gain of the antenna in a wide frequency band is jittered, if standing wave of the antenna is 6, breakdown voltage of the front end of the mobile phone will be reduced to one sixth of the original breakdown voltage, and power capacity will be reduced. The influence of the mobile phone antenna standing wave on the antenna efficiency cannot be careless, and the current requirement on the standing wave of the antenna is uniformly less than 3.

The driving circuit 52 is integrated on the main control board of the mobile terminal, and is used for executing the program instructions received by the antenna.

FIG. 7 is a schematic structural diagram of a storage medium according to the present invention. The storage medium of the present application stores program data 61 capable of implementing all the data processing methods described above, where the program data 61 may be stored in the storage medium in the form of a software product, and includes several instructions to enable a computer device (which may be a personal computer, a server, or a network device) or a processor (processor) to execute all or part of the steps of the methods described in the embodiments of the present application. The aforementioned storage device includes: various media capable of storing program codes, such as a usb disk, a mobile hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, or terminal devices, such as a computer, a server, a mobile phone, and a tablet.

The mobile terminal is provided with the timer and the counter, the period value of data transmitted and received by each wireless working module from the antenna is stored in the mobile terminal, the greatest common divisor of the period value of the data transmitted and received by each wireless working module from the antenna is obtained, the greatest common divisor is set as the overtime time of the timer, and when the timer reaches the overtime time, the antenna transmits the message to be sent to the wireless working module of which the period value can divide the product of the overtime time and the counter. Therefore, invalid processing flows of each wireless working module to data are reduced as much as possible, and the data processing efficiency of the mobile terminal is improved, so that the user experience is improved.

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 (7)

1. A data processing method of a mobile terminal, the data transmitting method comprising:

the mobile terminal acquires the periodic values of the data transmitted and received by each wireless working module from the antenna;

when detecting that the antenna receives a message to be sent, sequentially sending the message to be sent to each wireless working module according to the period value of each wireless working module;

when detecting that the antenna receives the message to be sent, the step of sequentially sending the message to be sent to each wireless working module according to the period value of each wireless working module specifically comprises the following steps:

if a plurality of wireless working modules are needed currently, acquiring a first greatest common divisor of period values of data transmitted and received by the plurality of wireless working modules from the antenna;

the mobile terminal receives an instruction for setting a counter and a timer;

distributing the first greatest common divisor to the timer as a timeout time of the timer;

starting the timer and the counter, and when the overtime time of the timer is reached, the antenna sends a message to be sent to the corresponding wireless working module;

adding 1 to the counter, resetting the timer and restarting the timer, and after the timer reaches the next overtime, the antenna sends the message to be sent to the corresponding wireless working module;

the sending, by the antenna, the message to be sent to the corresponding wireless working module specifically includes:

the antenna sends the message to be sent to a wireless working module, wherein t is the overtime time set by the timer, t' is the period value of the wireless working module for receiving antenna data from the antenna, and counter is the value of the counter.

2. The data processing method of claim 1, wherein the method further comprises:

if an instruction for closing at least one wireless working module is detected, closing the wireless working module corresponding to the instruction, and if a plurality of wireless working modules needing to be used are left, determining a second greatest common divisor of period values of data transmitted and received by the antenna from the currently remaining wireless working modules needing to be used;

and sequentially sending the messages to be sent to the wireless working modules needing to be used based on the second greatest common divisor.

3. The data processing method according to claim 2, wherein the sequentially sending the pending messages to the wireless work modules that need to be used based on the second greatest common divisor specifically includes:

the mobile terminal receives an instruction for setting a counter and a timer;

distributing the second greatest common divisor to the timer as a timeout time of the timer;

starting the timer and the counter, and when the overtime time of the timer is reached, the antenna sends a message to be sent to the corresponding wireless working module;

and adding 1 to the counter, clearing the timer and restarting the timer, and after the timer reaches the next overtime, the antenna sends the message to be sent to the corresponding wireless working module.

4. The data processing method of claim 1, wherein the method further comprises:

the mobile terminal receives an instruction for setting a timer and a counter;

if the mobile terminal detects that no wireless working module is started after one wireless working module is stopped, the mobile terminal closes the timer;

if only one wireless working module which needs to be used is detected to be left after one wireless working module is closed, the periodic value of the data transmitted and received by the remaining wireless working module from the antenna is distributed to the timer to be used as the overtime time of the timer;

and starting the timer, and when the overtime time of the timer is reached, the antenna sends the message to be sent to the rest wireless working module which needs to be used.

5. The data processing method according to claim 1, wherein the step of sequentially sending the to-be-sent message to the wireless working modules required to be used according to the period values of the wireless working modules required to be used specifically comprises:

and if the number of the wireless working modules which are required to be used currently is 1, directly sending the message to be sent to the wireless working modules.

6. A mobile terminal comprising an antenna and a driving circuit connected to each other, wherein,

the antenna receiving program instructions for implementing a data processing method of a mobile terminal according to any of claims 1-5;

the driving circuit is used for executing the program instructions received by the antenna.

7. A storage medium characterized by storing a program file executable to implement the data processing method of a mobile terminal according to any one of claims 1 to 5.

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