CN109041060B - WIFI password input control method, mobile terminal and storage medium - Google Patents

Abstract

The invention discloses a WIFI password input control method, a mobile terminal and a storage medium, wherein the method comprises the following steps: when the mobile terminal needs to be connected with new WIFI, a WIFI password pre-stored in the mobile terminal is acquired; further obtaining an operation code sequence according to the obtained WIFI password, and sending the sequence through the WIFI signal change of the mobile terminal; and WIFI judges whether the operation code sequence is consistent with a preset code sequence or not, if so, the connection is successful, and if not, the connection is unsuccessful. When the mobile terminal of the user is connected with the corresponding WIFI, the password does not need to be manually input, so that the mobile terminal of the user can be conveniently and quickly and accurately connected with the WIFI, and the problems that the user needs to spend a certain time to input the WIFI password and the input error is easy are solved.

Description

WIFI password input control method, mobile terminal and storage medium

Technical Field

The invention relates to the technical field of mobile terminals, in particular to a WIFI password input control method, a mobile terminal and a storage medium.

Background

The wireless network internet access can be simply understood as wireless internet access, almost all smart phones, tablet computers and notebook computers support Wi-Fi internet access, and the wireless network internet access is the most widely used wireless network transmission technology at present. In effect, the wired network signal is converted to a wireless signal, as described at the outset, using a wireless router for reception by the relevant computer, cell phone, tablet, etc. supporting its technology.

If the mobile phone has the Wi-Fi function, the mobile phone can surf the internet without a mobile communication network when having Wi-Fi wireless signals, so that the traffic fee is saved. Wireless networking of wireless networks is commonly used in large cities, and although the wireless communication quality transmitted by the Wi-Fi technology is not good, the data security performance is poorer than that of Bluetooth, and the transmission quality needs to be improved, the transmission speed is very high, can reach 54Mbps, and meets the requirements of personal and social informatization.

The main advantages of Wi-Fi are that wiring is not needed, the Wi-Fi is not limited by wiring conditions, so that the Wi-Fi is very suitable for the requirements of mobile office users, and the Wi-Fi internet surfing is relatively safest and healthier as the transmitting signal power is lower than 100mw and lower than the transmitting power of a mobile phone. However, Wi-Fi signals are also provided by wired networks, such as ADSL in homes, cell broadband, etc., and can be converted into Wi-Fi signals by connecting a wireless router.

In the prior art, although WIFI is convenient to use, most of WIFI still has password authentication due to security considerations, so a password needs to be input during connection, and the password is often complex, so that a user spends time in inputting the password, and needs to input the password again once an error occurs.

Accordingly, the prior art is yet to be improved and developed.

Disclosure of Invention

In view of the defects of the prior art, the invention aims to provide a WIFI password input control method, a mobile terminal and a storage medium, and aims to provide the WIFI password input control method, so that when the mobile terminal of a user is connected with corresponding WIFI, the user does not need to input a password manually, the mobile terminal of the user can be conveniently and quickly and accurately connected with the WIFI, the problems that the user needs to spend a certain time to input a WIFI password and input errors easily are solved, and convenience is brought to the user.

In order to achieve the purpose, the invention adopts the following technical scheme:

a WIFI password input control method comprises the following steps:

when the mobile terminal needs to be connected with new WIFI, a WIFI password pre-stored in the mobile terminal is acquired;

further obtaining an operation code sequence according to the obtained WIFI password, and sending the operation code sequence through the WIFI signal change of the mobile terminal;

and the WIFI access equipment judges whether the operation code sequence is consistent with a preset code sequence, if so, the connection is successful, and if not, the connection is unsuccessful.

The WIFI password input control method comprises the following steps of when the mobile terminal needs to be connected with new WIFI, acquiring a WIFI password pre-stored in the mobile terminal, wherein the steps comprise: and presetting passwords which are allowed to be accessed into the WIFI network by the WIFI access equipment are preset and stored in the mobile terminal.

The WIFI password input control method comprises the following steps of when the mobile terminal needs to be connected with new WIFI, acquiring a WIFI password pre-stored in the mobile terminal, wherein the steps further comprise: the obtained WIFI password is input into the mobile terminal previously by a user through touching the touch screen or the keys and is stored.

The WIFI password input control method comprises the following steps of further obtaining an operation code sequence according to the obtained WIFI password, and sending the operation code sequence through the WIFI signal change of the mobile terminal: b1, further obtaining an operation code sequence according to the obtained WIFI password; and B2, sending the sequence out through the WIFI signal change of the mobile terminal.

The WIFI password input control method, wherein the step B1 further includes: f1, converting the WIFI password into binary data; f2, predefining a switching of the WIFI signal from the first signal strength to the second signal strength as representing binary data 1, and defining a switching of the WIFI signal from the first signal strength to the third signal strength as representing binary data 0; f3, converting the WIFI password obtained in step F1 into binary data, and sending out the binary data according to the change of the WIFI signal strength defined in step F2.

The WIFI password input control method comprises the following steps that the WIFI judges whether an operation code sequence is consistent with a preset password sequence or not, if so, connection is successful, and if not, connection is unsuccessful:

the WIFI receiver detects intensity change of a WIFI signal sent by the mobile terminal, if the first signal intensity is switched into the second signal intensity to represent binary data 1, and if the WIFI signal is switched from the first signal intensity into the third signal intensity to represent binary data 0;

obtaining a corresponding password according to the obtained binary data;

and the WIFI receiver judges whether the operation code sequence is consistent with a preset code sequence or not, if so, the connection is successful, and if not, the connection is unsuccessful.

A mobile terminal, comprising: a processor, a memory, and a communication bus;

the memory stores a mobile terminal WIFI password input control program which can be executed by the processor;

the communication bus realizes connection communication between the processor and the memory;

when the processor executes the WIFI password input control program, the following steps are realized:

when the mobile terminal needs to be connected with new WIFI, a WIFI password pre-stored in the mobile terminal is acquired;

further obtaining an operation code sequence according to the obtained WIFI password, and sending the operation code sequence through the WIFI signal change of the mobile terminal;

and the WIFI access equipment judges whether the operation code sequence is consistent with a preset code sequence, if so, the connection is successful, and if not, the connection is unsuccessful.

The mobile terminal, wherein the processor further implements the following steps when executing the WIFI password input control program:

the preset password that the WIFI access equipment allows to access the WIFI network is set and stored in the mobile terminal in advance.

The mobile terminal, wherein the processor further implements the following steps when executing the WIFI password input control program:

the obtained WIFI password is input into the mobile terminal by a user through a touch screen or a key and is stored;

b1, further obtaining an operation code sequence according to the obtained WIFI password; b2, sending the sequence through the WIFI signal change of the mobile terminal;

f1, converting the WIFI password into binary data; f2, predefining a switching of the WIFI signal from the first signal strength to the second signal strength as representing binary data 1, and defining a switching of the WIFI signal from the first signal strength to the third signal strength as representing binary data 0; f3, converting the WIFI password obtained in step F1 into binary data, and sending out the binary data according to the change of the WIFI signal strength defined in step F2;

the WIFI receiver detects intensity change of a WIFI signal sent by the mobile terminal, if the first signal intensity is switched into the second signal intensity to represent binary data 1, and if the WIFI signal is switched from the first signal intensity into the third signal intensity to represent binary data 0; obtaining a corresponding password according to the obtained binary data; and the WIFI receiver judges whether the operation code sequence is consistent with a preset code sequence or not, if so, the connection is successful, and if not, the connection is unsuccessful.

A computer-readable storage medium, wherein the computer-readable storage medium stores one or more programs executable by one or more processors to implement the steps of any of the WIFI password input control methods.

Compared with the prior art, the WIFI password input control method, the mobile terminal and the storage medium provided by the invention have the advantages that the WIFI password pre-stored in the mobile terminal is acquired when the mobile terminal needs to be connected with new WIFI; further obtaining an operation code sequence according to the obtained WIFI password, and sending the sequence through the WIFI signal change of the mobile terminal; and WIFI judges whether the operation code sequence is consistent with a preset code sequence or not, if so, the connection is successful, and if not, the connection is unsuccessful. When the mobile terminal of the user is connected with the corresponding WIFI, the password does not need to be manually input, so that the mobile terminal of the user can be conveniently and quickly and accurately connected with the WIFI, the problems that the user needs to spend a certain time to input the WIFI password and the input is easy to be wrong are solved, and convenience is provided for the user.

Drawings

Fig. 1 is a flowchart of a WIFI password input control method provided by the present invention.

Fig. 2 is a functional block diagram of a mobile terminal according to a preferred embodiment of the 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.

Referring to fig. 1, the WIFI password input control method provided by the present invention includes the following steps:

s100, when the mobile terminal needs to be connected with new WIFI, a WIFI password pre-stored in the mobile terminal is obtained.

In the embodiment of the invention, when the mobile terminal needs to be connected with new WIFI, a WIFI password pre-stored in the mobile terminal is acquired;

specifically, the obtained WIFI password is input into the mobile terminal by a user through a touch screen or a key and is stored; for example, a password that the user previously input a WIFI is jiklldfaw.

S200, further obtaining an operation code sequence according to the obtained WIFI password, and sending the operation code sequence through the WIFI signal change of the mobile terminal;

in the embodiment of the invention, an operation code sequence is further obtained according to the obtained WIFI password, and the sequence is sent out through the WIFI signal change of the mobile terminal;

specifically, the step S200 includes the following steps:

s11, further obtaining an operation code sequence according to the obtained WIFI password;

and S12, sending the sequence through the WIFI signal change of the mobile terminal.

Wherein the step S11 further includes:

s111, converting the WIFI password into binary data;

s112, predefining that the WIFI signal is switched from the first signal intensity to the second signal intensity to represent binary data 1, and predefining that the WIFI signal is switched from the first signal intensity to the third signal intensity to represent binary data 0;

and S113, converting the WIFI password obtained in the step S11 into binary data, and sending out the binary data according to the change of the WIFI signal strength defined in the step S112.

For example, if the WIFI signal strength is lower than 60dbm as the first signal strength, the WIFI signal strengths are 60dbm to 65dbm as the second signal strength, and the WIFI signal strengths are 70dbm to 80dbm as the third signal strength, it is defined that the WIFI signal is switched from the first signal strength to the second signal strength to represent binary data 1, and the WIFI signal is switched from the first signal strength to the third signal strength to represent binary data 0; then, WIFI signal strength is sent according to the binary data obtained in step S111, for example, the binary data obtained in step S111 is 100011, and the WIFI signal strength of the mobile terminal changes as follows:

the WIFI signal is switched from the first signal strength to the second signal strength; the WIFI signal is switched from the first signal strength to a third signal strength; the WIFI signal is switched from the first signal strength to a third signal strength; the WIFI signal is switched from the first signal strength to a third signal strength; the WIFI signal is switched from the first signal strength to the second signal strength; the WIFI signal is switched from the first signal strength to the second signal strength.

S300, the WIFI access equipment judges whether the operation code sequence is consistent with a preset code sequence or not, if so, connection is successful, and if not, connection is unsuccessful.

In this step, the WIFI receiver judges whether the operation code sequence is consistent with a preset code sequence, if so, the connection is successful, otherwise, the connection is unsuccessful;

specifically, the step S300 includes:

the WIFI access equipment (also called a WIFI receiver) detects the intensity change of a WIFI signal sent by the mobile terminal, if the first signal intensity is switched into the second signal intensity to represent binary data 1, and if the WIFI signal is switched from the first signal intensity into the third signal intensity to represent binary data 0;

obtaining a corresponding password according to the obtained binary data;

and the WIFI access equipment judges whether the operation code sequence is consistent with a preset code sequence, if so, the connection is successful, and if not, the connection is unsuccessful.

Certainly, in a further embodiment, the WIFI password input control method may also be adopted in the present invention, wherein, when the mobile terminal needs to connect a new WIFI, the step of obtaining the WIFI password pre-stored in the mobile terminal further includes: and presetting passwords which are allowed to be accessed into the WIFI network by the WIFI access equipment are preset and stored in the mobile terminal.

Therefore, the embodiment of the invention is based on the prior art that a complex password is input to achieve the purpose of safety. The invention only needs to input a simple preset password in the mobile terminal in advance, and then the password is sent out according to the signal intensity change, so as to achieve the effect that the simple password can be safe. Therefore, only a simple password needs to be input in the mobile terminal in advance for each connection, and the problem that the input of a complex password is easy to lose errors is solved.

In view of the above, the invention provides a WIFI password input control method, which is used for acquiring a WIFI password prestored in a mobile terminal when the mobile terminal needs to be connected with new WIFI; further obtaining an operation code sequence according to the obtained WIFI password, and sending the sequence through the WIFI signal change of the mobile terminal; and WIFI judges whether the operation code sequence is consistent with a preset code sequence or not, if so, the connection is successful, and if not, the connection is unsuccessful. When the mobile terminal of the user is connected with the corresponding WIFI, the password does not need to be manually input, so that the mobile terminal of the user can be conveniently and quickly and accurately connected with the WIFI, and the problems that the user needs to spend a certain time to input the WIFI password and the input error is easy are solved.

As shown in fig. 2, based on the above WIFI password input control method, the present invention also provides a mobile terminal, which may be a mobile phone, a desktop computer, a notebook, a palm computer, a server, or other computing devices. The mobile terminal comprises a processor 10, a memory 20 and a display screen 30, wherein the processor 10 is connected with the memory 20 through a communication bus 50, and the display screen 30 is connected with the processor 10 through the communication bus 50. Fig. 2 shows only some of the components of the mobile terminal, but it is to be understood that not all of the shown components are required to be implemented, and that more or fewer components may be implemented instead.

The memory 20 may in some embodiments be an internal storage unit of the mobile terminal, such as a memory of the mobile terminal. The memory 20 may also be an external storage device of the mobile terminal in other embodiments, such as a plug-in usb disk, a Smart Media Card (SMC), a Secure Digital (SD) Card, a Flash memory Card (Flash Card), and the like provided on the mobile terminal. Further, the memory 20 may also include both an internal storage unit and an external storage device of the mobile terminal. The memory 20 is used for storing application software installed in the mobile terminal and various data, such as program codes of the installed mobile terminal. The memory 20 may also be used to temporarily store data that has been output or is to be output. In an embodiment, the memory 20 stores a mobile terminal WIFI password input control program 40, and the mobile terminal WIFI password input control program 40 can be executed by the processor 10, so as to implement the WIFI password input control method in the present application.

The processor 10 may be, in some embodiments, a Central Processing Unit (CPU), a microprocessor, a mobile phone baseband processor or other data Processing chip, and is configured to run program codes stored in the memory 20 or process data, such as executing the WIFI password input control method.

The processor internally comprises the following program modules:

the password acquisition module is used for acquiring a WIFI password pre-stored in the mobile terminal when the mobile terminal needs to be connected with new WIFI;

the sequence generating and sending module is used for further obtaining an operation code sequence according to the obtained WIFI password and sending the sequence through the WIFI signal change of the mobile terminal;

and the judging and connecting module is used for judging whether the operation code sequence is consistent with the preset code sequence or not by the WIFI, if so, the connection is successful, and if not, the connection is unsuccessful, specifically as described above.

The display 30 may be an LED display, a liquid crystal display, a touch-sensitive liquid crystal display, an OLED (Organic Light-Emitting Diode) touch panel, or the like in some embodiments. The display screen 30 is used for displaying information at the mobile terminal and for displaying a visual user interface.

In one embodiment, when processor 10 executes mobile terminal WIFI password input control program 40 in memory 20, the following steps are implemented:

when the mobile terminal needs to be connected with new WIFI, a WIFI password pre-stored in the mobile terminal is acquired;

further obtaining an operation code sequence according to the obtained WIFI password, and sending the operation code sequence through the WIFI signal change of the mobile terminal;

and the WIFI access equipment judges whether the operation code sequence is consistent with a preset code sequence, if so, the connection is successful, and if not, the connection is unsuccessful.

The mobile terminal, wherein the processor further implements the following steps when executing the WIFI password input control program:

the preset password that the WIFI access equipment allows to access the WIFI network is set and stored in the mobile terminal in advance.

The mobile terminal, wherein the processor further implements the following steps when executing the mobile terminal WIFI password input control program:

the obtained WIFI password is input into the mobile terminal by a user through a touch screen or a key and is stored;

b1, further obtaining an operation code sequence according to the obtained WIFI password; b2, sending the sequence through the WIFI signal change of the mobile terminal;

f1, converting the WIFI password into binary data; f2, predefining a switching of the WIFI signal from the first signal strength to the second signal strength as representing binary data 1, and defining a switching of the WIFI signal from the first signal strength to the third signal strength as representing binary data 0; f3, converting the WIFI password obtained in step F1 into binary data, and sending out the binary data according to the change of the WIFI signal strength defined in step F2;

the WIFI receiver detects intensity change of a WIFI signal sent by the mobile terminal, if the first signal intensity is switched into the second signal intensity to represent binary data 1, and if the WIFI signal is switched from the first signal intensity into the third signal intensity to represent binary data 0; obtaining a corresponding password according to the obtained binary data; and the WIFI receiver judges whether the operation code sequence is consistent with a preset code sequence or not, if so, the connection is successful, and if not, the connection is unsuccessful.

Therefore, the embodiment of the invention is based on the prior art that a complex password is input to achieve the purpose of safety. The invention only needs to input a simple preset password in the mobile terminal in advance, and then the password is sent out according to the signal intensity change, so as to achieve the effect that the simple password can be safe. Therefore, only a simple password needs to be input in the mobile terminal in advance for each connection, and the problem that the input of a complex password is easy to lose errors is solved.

Based on the foregoing embodiments, an embodiment of the present invention further provides a computer-readable storage medium, where one or more programs are stored in the computer-readable storage medium, and the one or more programs may be executed by one or more processors to implement any step in the WIFI password input control method for a mobile terminal.

In summary, according to the WIFI password input control method, the mobile terminal and the storage medium provided by the present invention, when the mobile terminal needs to connect to a new WIFI, the method obtains a WIFI password pre-stored in the mobile terminal; further obtaining an operation code sequence according to the obtained WIFI password, and sending the sequence through the WIFI signal change of the mobile terminal; and WIFI judges whether the operation code sequence is consistent with a preset code sequence or not, if so, the connection is successful, and if not, the connection is unsuccessful. When the mobile terminal of the user is connected with the corresponding WIFI, the password does not need to be manually input, so that the mobile terminal of the user can be conveniently and quickly and accurately connected with the WIFI, the problems that the user needs to spend a certain time to input the WIFI password and the input is easy to be wrong are solved, and convenience is provided for the user.

Of course, it will be understood by those skilled in the art that all or part of the processes of the methods of the above embodiments may be implemented by a computer program instructing relevant hardware (such as a processor, a controller, etc.), and the program may be stored in a computer readable storage medium, and when executed, the program may include the processes of the above method embodiments. The storage medium may be a memory, a magnetic disk, an optical disk, etc.

It is to be understood that the invention is not limited to the examples described above, but that modifications and variations may be effected thereto by those of ordinary skill in the art in light of the foregoing description, and that all such modifications and variations are intended to be within the scope of the invention as defined by the appended claims.

Claims (7)

1. A WIFI password input control method is characterized by comprising the following steps:

presetting and storing a preset simple password which allows the WIFI access equipment to access the WIFI network in the mobile terminal in advance; when the mobile terminal needs to be connected with new WIFI, a WIFI password pre-stored in the mobile terminal is acquired;

further obtaining an operation code sequence according to the obtained WIFI password, and sending the operation code sequence through the WIFI signal change of the mobile terminal;

b1, further obtaining an operation code sequence according to the obtained WIFI password; b2, sending the sequence through the WIFI signal change of the mobile terminal;

f1, converting the WIFI password into binary data; f2, predefining a switching of the WIFI signal from the first signal strength to the second signal strength as representing binary data 1, and defining a switching of the WIFI signal from the first signal strength to the third signal strength as representing binary data 0; f3, converting the WIFI password obtained in step F1 into binary data, and sending out the binary data according to the change of the WIFI signal strength defined in step F2;

the WIFI access equipment judges whether the operation code sequence is consistent with a preset code sequence or not, if so, the connection is successful, and if not, the connection is unsuccessful;

only a simple preset password needs to be input in the mobile terminal in advance, and then the password is sent out in the signal intensity change, so that the effect that the simple password can be safe is achieved.

2. The WIFI password input control method of claim 1, wherein the step of obtaining the WIFI password pre-stored in the mobile terminal when the mobile terminal needs to connect to a new WIFI further comprises: the obtained WIFI password is input into the mobile terminal previously by a user through touching the touch screen or the keys and is stored.

3. A WIFI password input control method according to claim 1, wherein the WIFI determining if the operation code sequence is consistent with the preset password sequence, if so, the connection is successful, otherwise, the connection is unsuccessful includes: the WIFI receiver detects intensity change of a WIFI signal sent by the mobile terminal, if the first signal intensity is switched into the second signal intensity to represent binary data 1, and if the WIFI signal is switched from the first signal intensity into the third signal intensity to represent binary data 0;

obtaining a corresponding password according to the obtained binary data;

and the WIFI receiver judges whether the operation code sequence is consistent with a preset code sequence or not, if so, the connection is successful, and if not, the connection is unsuccessful.

4. A mobile terminal, comprising: a processor, a memory, and a communication bus;

the memory has stored thereon a WIFI password input control program executable by the processor;

the communication bus realizes connection communication between the processor and the memory;

the processor includes: the password acquisition module is used for generating and sending a sequence and judging and connecting the sequence;

when the processor executes the WIFI password input control program, the following steps are realized:

when the mobile terminal needs to be connected with new WIFI, a WIFI password pre-stored in the mobile terminal is acquired;

further obtaining an operation code sequence according to the obtained WIFI password, and sending the operation code sequence through the WIFI signal change of the mobile terminal;

the obtained WIFI password is input into the mobile terminal by a user through a touch screen or a key and is stored;

b1, further obtaining an operation code sequence according to the obtained WIFI password; b2, sending the sequence through the WIFI signal change of the mobile terminal;

f1, converting the WIFI password into binary data; f2, predefining a switching of the WIFI signal from the first signal strength to the second signal strength as representing binary data 1, and defining a switching of the WIFI signal from the first signal strength to the third signal strength as representing binary data 0; f3, converting the WIFI password obtained in step F1 into binary data, and sending out the binary data according to the change of the WIFI signal strength defined in step F2;

the WIFI access equipment judges whether the operation code sequence is consistent with a preset code sequence or not, if so, the connection is successful, and if not, the connection is unsuccessful;

only a simple preset password needs to be input in the mobile terminal in advance, and then the password is sent out in the signal intensity change, so that the effect that the simple password can be safe is achieved.

5. The mobile terminal of claim 4, wherein the processor, when executing the WIFI password input control program, further performs the following steps: and presetting passwords which are allowed to be accessed into the WIFI network by the WIFI access equipment are preset and stored in the mobile terminal.

6. The mobile terminal of claim 4, wherein the processor, when executing the WIFI password input control program, further performs the following steps:

the WIFI receiver detects intensity change of a WIFI signal sent by the mobile terminal, if the first signal intensity is switched into the second signal intensity to represent binary data 1, and if the WIFI signal is switched from the first signal intensity into the third signal intensity to represent binary data 0; obtaining a corresponding password according to the obtained binary data; and the WIFI receiver judges whether the operation code sequence is consistent with a preset code sequence or not, if so, the connection is successful, and if not, the connection is unsuccessful.

7. A computer-readable storage medium storing one or more programs, the one or more programs being executable by one or more processors to perform the steps of the WIFI password input control method of any one of claims 1-3.

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