CN111866883A - Router WIFI setting method and system based on voice module - Google Patents

Abstract

The invention relates to the technical field of WIFI (wireless fidelity), and discloses a router WIFI setting method and system based on a voice module.

Description

Router WIFI setting method and system based on voice module

Technical Field

The invention relates to the technical field of WIFI, in particular to a router WIFI setting method and system based on a voice module.

Background

A router is a hardware device that connects two or more networks and acts as a gateway between the networks. At the present stage, most families have access to the Internet network, and the families having access to the Internet network are all provided with WIFI routers. However, most people do not have related network knowledge, and further do not know how to set the basic information of the WIFI router, such as the password, the WIFI name, and the hidden WIFI of the WIFI, for the common user, when the router is stolen by network rubbing or the WIFI password is leaked and stolen, the router does not know how to modify the name or the password, and further the network speed of the internet is seriously affected.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides a router WIFI setting method and system based on a voice module, which can quickly set the basic information of a WIFI router, simplify the setting process of the basic information of the WIFI router and modify the basic information of the WIFI router without related network knowledge.

The purpose of the invention is realized by the following technical scheme:

a router WIFI setting method based on a voice module comprises the following steps:

s101, receiving voice awakening audio data, generating first service audio data, and playing the first service audio data;

s102, receiving first voice data, and performing conversion operation on the first voice data to generate a first voice character string;

s103, establishing a semantic queue, and storing the first voice character string into the semantic queue;

s104, acquiring the first voice character string in the semantic queue, and matching the first voice character string with a preset character string;

s105, generating second service audio data, and playing the second service audio data;

S106, receiving second voice data, and performing conversion operation on the second voice data to generate a second voice character string;

s107, receiving third voice data, storing the third voice data into the semantic queue, and generating a calling instruction according to the third voice data;

and S108, generating a voice interaction closing instruction.

In one embodiment, in the step of obtaining the first voice character string in the semantic queue and matching the first voice character string with a preset character string, the method further includes the following steps:

and generating a coded value, and binding the coded value with the first voice character string.

In one embodiment, the receiving the second voice data in the step, performing a conversion operation on the second voice data, and generating the second voice character string further includes the following steps:

and splicing the second voice character string and the preset character string to generate third service audio data, and playing the third service audio data.

In one embodiment, the step of receiving third voice data and generating a call instruction according to the third voice data specifically includes the following steps:

Judging whether the third voice data is stored in the semantic queue or not, if so, generating a keyword extraction instruction, executing the keyword extraction instruction, and simultaneously generating the calling instruction;

and judging whether the calling instruction is successfully executed, if so, playing a successfully set audio, and if not, playing a unsuccessfully set audio.

In one embodiment, after the step of obtaining the first voice character string in the semantic queue and matching the first voice character string with a preset character string, the method further includes the following steps:

and generating a response instruction according to the first voice character string, and executing the response instruction.

A router WIFI setting system based on a voice module comprises:

the voice acquisition module is used for receiving voice awakening data, executing the voice awakening data and generating first service audio data;

the voice playing module is used for generating first service audio data and playing the first service audio data, and is also used for generating second service audio data and playing the second service audio data;

The voice processing module is used for receiving first voice data and performing conversion operation on the first voice data to generate a first voice character string, and is also used for receiving second voice data and performing conversion operation on the second voice data to generate a second voice character string;

the voice storage module is used for establishing a semantic queue and storing the first voice character string into the semantic queue, and is also used for receiving third voice data and storing the third voice data into the semantic queue;

the matching module is used for acquiring the first voice character string in the semantic queue and matching the first voice character string with a preset character string;

and the instruction module is used for generating a calling instruction according to the third voice data, and is also used for generating a voice interaction closing instruction.

In one embodiment, the voice storage module is further configured to generate an encoded value, and bind the encoded value to the first voice string.

In one embodiment, the voice processing module is further configured to perform a splicing operation on the second voice character string and the preset character string.

In one embodiment, the voice playing module is further configured to generate third service audio data and play the third service audio data.

In one embodiment, the apparatus further includes a determining module, where the determining module is configured to determine whether the third voice data is stored in the semantic queue, if so, generate a keyword extraction instruction, and execute the keyword extraction instruction, and the determining module is further configured to determine whether the call instruction is successfully executed, if so, play a setting success audio, and if not, play a setting failure audio.

Compared with the prior art, the invention has the following advantages and beneficial effects:

the invention relates to a router WIFI setting method and system based on a voice module.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a flowchart of a method for setting a WIFI of a router based on a voice module according to an embodiment of the present invention;

fig. 2 is a functional block diagram of a router WIFI setting system based on a voice module according to an embodiment of the present invention.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1, a router WIFI setting method based on a voice module includes the following steps:

s101, receiving voice awakening audio data, generating first service audio data, and playing the first service audio data;

s102, receiving first voice data, and performing conversion operation on the first voice data to generate a first voice character string;

s103, establishing a semantic queue, and storing the first voice character string into the semantic queue;

s104, acquiring a first voice character string in the semantic queue, and matching the first voice character string with a preset character string;

s105, generating second service audio data and playing the second service audio data;

s106, receiving second voice data, and performing conversion operation on the second voice data to generate a second voice character string;

S107, receiving third voice data, storing the third voice data into a semantic queue, and generating a calling instruction according to the third voice data;

and S108, generating a voice interaction closing instruction.

In order to better explain the inventive concept of the router WIFI setting method based on the voice module, step S101, receiving voice wake-up audio data, generating first service audio data, and playing the first service audio data.

Step S102, receiving first voice data, and performing conversion operation on the first voice data to generate a first voice character string.

Step S103, establishing a semantic queue, and storing the first voice character string into the semantic queue.

It should be noted that, first, the user speaks a wake up word, the router receives and recognizes the wake up word, generates first service audio data, and plays the first service audio data, for example, the wake up word of the router is a road, and when the router receives and recognizes the wake up word, the router plays "you are good, ask what needs to help you", that is, the first service audio data in this embodiment. Further, when the user receives the first service audio data, the voice to be operated on the WIFI basic information modification can be spoken, after the user finishes speaking the voice, the router receives the voice, performs conversion operation on the voice, generates a voice character string, and stores the voice character string into the semantic queue. Here, the voice string of the user may be "i want to modify the WIFI name", "i want to modify the WIFI password", "i want to hide the WIFI", and "i want to display the WIFI".

And step S104, acquiring a first voice character string in the semantic queue, and matching the first voice character string with a preset character string.

It should be noted that the preset character strings include character strings that match the first voice character string, such as "i want to modify the WIFI name", "i want to modify the WIFI password", "i want to hide the WIFI", and "i want to realize the WIFI". And if the first voice character string is the same as or similar to the preset character string, deleting the first voice character string in the semantic queue.

Step S105, generating second service audio data, and playing the second service audio data;

step S106, receiving second voice data, and performing conversion operation on the second voice data to generate a second voice character string;

specifically, the step of receiving the second voice data, performing a conversion operation on the second voice data, and generating the second voice character string further includes the following steps:

and splicing the second voice character string and the preset character string to generate third service audio data, and playing the third service audio data.

Step S107, receiving third voice data, storing the third voice data into a semantic queue, and generating a calling instruction according to the third voice data;

Specifically, the step of receiving the third voice data and generating the call instruction according to the third voice data specifically includes the following steps:

judging whether the third voice data is stored in the semantic queue or not, if so, generating a keyword extraction instruction, executing the keyword extraction instruction, and simultaneously generating a calling instruction;

and judging whether the execution of the calling instruction is successful, if so, playing the audio with successful setting, and if not, playing the audio with failed setting.

And step S108, generating a voice interaction closing instruction.

It should be noted that, after the router matches the first voice character string with the preset character string, second service audio data is generated, where the second service audio data includes: the WIFI name is composed of a number and letter component, a request to appeal the WIFI name of the user and at least 8 numbers or letters of the WIFI password, and the request to appeal the WIFI password, furthermore, when the user needs to modify the WIFI name, the WIFI name is correspondingly played, the WIFI name is composed of the number and letter component and the request to appeal the WIFI name of the user, and when the user needs to modify the WIFI password, the WIFI password is correspondingly played, the WIFI password is composed of at least 8 numbers or letters, and the request to appeal the WIFI password of the user is played. And furthermore, the user speaks a WIFI name or a WIFI password to be modified according to the played second service audio data, the router receives the second service audio data, converts the voice of the user to generate a second voice character string and stores the second voice character string into the semantic queue, the router acquires the second voice character string in the semantic queue and splices the second voice character string and a preset character string to generate third service audio data, the third service audio data is played, and the content of the second voice character string can be the WIFI name or the WIFI password. For example: "please confirm the WIFI name that you want to set + the second voice character string" or "please confirm the WIFI password that you want to set + the second voice character string". And finally, the user confirms according to the third service audio data, the router receives the third voice data and stores the third voice data into the semantic queue, meanwhile, the router judges whether the third voice data is stored into the semantic queue or not, if yes, a keyword extracting instruction is generated, the keyword extracting instruction is executed, meanwhile, a calling instruction is generated, if not, the user waits for 20 seconds and judges again, and if the third voice data is not stored into the semantic queue, the voice interaction is closed and the user waits for awakening next time. The keyword extraction command is used to determine whether the third speech data includes "ok", and if so, a call command is generated, and if not, the process returns to step S106. Further, the calling instruction includes a command for calling a WIFI name setting command and a WIFI password setting command.

Further, in an embodiment, in the step of obtaining the first voice character string in the semantic queue and matching the first voice character string with the preset character string, the method further includes the following steps:

and generating a coded value, and binding the coded value with the first voice character string.

It should be noted that the semantic queue may store a plurality of first voice character strings, and by generating the encoded value, it is convenient for the router to call the first voice character strings.

Further, in an embodiment, after the step of obtaining the first voice character string in the semantic queue and matching the first voice character string with the preset character string, the method further includes the following steps:

and generating a response instruction according to the first voice character string, and executing the response instruction.

It should be noted that, when a user needs to hide WIFI or display WIFI, and the content of the first voice character string is "i want to hide WIFI" and "i want to display WIFI", the router may execute a corresponding response instruction according to the content of the different character strings to complete the operation of hiding WIFI or displaying WIFI, after the operation is completed, if the operation is successful, a "setting success" music may be played, and if the operation is failed, a "setting failure" music may be played.

According to the router WIFI setting method based on the voice module, the voice module is arranged in the router, so that a user can modify basic information of WIFI without having related network knowledge by adopting a mode of controlling the router through voice, the process is very simple, the problem that common users know that own WIFI passwords are leaked and are rubbed by others but do not know how to modify the WIFI passwords is solved, and the normal internet surfing speed is guaranteed.

Referring to fig. 2, a router WIFI setting system 10 based on a voice module includes: the voice processing device comprises a voice acquisition module 100, a voice playing module 200, a voice processing module 300, a voice storage module 400, a matching module 500 and an instruction module 600.

Referring to fig. 2, the voice collecting module 100 is configured to receive voice wakeup data, execute the voice wakeup data, and generate first service audio data; the voice playing module 200 is configured to generate first service audio data and play the first service audio data, and the voice playing module 200 is further configured to generate second service audio data and play the second service audio data; the voice processing module 300 is configured to receive first voice data and perform a conversion operation on the first voice data to generate a first voice character string, and the voice processing module 300 is further configured to receive second voice data and perform a conversion operation on the second voice data to generate a second voice character string; the voice storage module 400 is configured to establish a semantic queue, store the first voice character string in the semantic queue, receive third voice data, and store the third voice data in the semantic queue; the matching module 500 is configured to obtain a first voice character string in the semantic queue, and match the first voice character string with a preset character string; the instruction module 600 is configured to generate a call instruction according to the third voice data, and the instruction module is further configured to generate a voice interaction closing instruction. It should be noted that the router internal control chip is respectively connected to the voice acquisition module 100, the voice playing module 200, the voice processing module 300, the voice storage module 400, the matching module 500, and the instruction module 600 in a communication manner.

Referring to fig. 2, in a further embodiment, the voice storage module 400 is further configured to generate an encoded value and bind the encoded value with the first voice string.

Referring to fig. 2, in a further embodiment, the speech processing module 300 is further configured to perform a splicing operation on the second speech string and the predetermined string.

Referring to fig. 2, in a further embodiment, the voice playing module 200 is further configured to generate third service audio data and play the third service audio data.

Referring to fig. 2, in an embodiment, the router WIFI setting system 10 based on a voice module further includes a determining module, where the determining module is configured to determine whether third voice data is stored in a semantic queue, if so, generate a keyword extracting instruction, and execute the keyword extracting instruction, and the determining module is further configured to determine whether a call instruction is successfully executed, if so, play a setting success audio, and if not, play a setting failure audio.

It will be appreciated that when the user of the router is a family communicating in english, translation of the language is required. For example, receiving the first voice data in step S102, and performing a conversion operation on the first voice data to generate the first voice string specifically includes: s102a, performing recognition operation on the first voice data, judging whether the first voice data is preset language data or not, if not, generating an intelligent translation instruction, performing translation operation on the first voice data, and generating first processed voice data; s102b, a conversion operation is performed on the first processed speech data to generate a first processed character string. For another example, receiving the second voice data in step S106, performing a conversion operation on the second voice data to generate a second voice character string, specifically including: s106, performing recognition operation on the second voice data, judging whether the second voice data is preset language data or not, if not, generating an intelligent translation instruction, performing translation operation on the second voice data, and generating second processed voice data; s106b, a conversion operation is performed on the second processed speech data to generate a second processed character string. For another example, in step S107, receiving the third voice data, storing the third voice data in the semantic queue, and generating a call instruction according to the third voice data specifically includes: s107a, performing recognition operation on the third voice data, judging whether the third voice data is preset language data, if not, generating an intelligent translation instruction, performing translation operation on the third voice data, and generating third processed voice data; s106b, a conversion operation is performed on the third processed speech data to generate a third processed character string. It should be noted that the preset language data is chinese, when the voice received by the router is english or other languages, the router may recognize the language of the voice, and if the voice is not chinese, an intelligent translation instruction may be generated to translate the voice data to convert the voice data into a language the same as the preset language data, so as to conveniently complete the operation of modifying the basic WIFI information, and further make the whole setting process more intelligent.

Compared with the prior art, the invention has the following advantages:

according to the router WIFI setting method and system based on the voice module, the voice module is arranged in the router, so that a user can modify basic information of WIFI without having related network knowledge by adopting a mode of controlling the router through voice, the process is very simple, the problem that common users clearly know that own WIFI passwords are leaked and are rubbed by others but do not know how to modify the passwords is solved, and the normal internet surfing speed is ensured.

The above embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A router WIFI setting method based on a voice module is characterized by comprising the following steps:

receiving voice awakening audio data, generating first service audio data, and playing the first service audio data;

Receiving first voice data, and performing conversion operation on the first voice data to generate a first voice character string;

establishing a semantic queue, and storing the first voice character string into the semantic queue;

acquiring the first voice character string in the semantic queue, and matching the first voice character string with a preset character string;

generating second service audio data and playing the second service audio data;

receiving second voice data, and performing conversion operation on the second voice data to generate a second voice character string;

receiving third voice data, storing the third voice data into the semantic queue, and generating a calling instruction according to the third voice data;

and generating a voice interaction closing instruction.

2. The router WIFI setting method based on the voice module according to claim 1, wherein in the step of obtaining the first voice character string in the semantic queue, and matching the first voice character string with a preset character string, the method further comprises the following steps:

and generating a coded value, and binding the coded value with the first voice character string.

3. The router WIFI setting method and system based on the voice module as claimed in claim 1, wherein the step of receiving second voice data, performing conversion operation on the second voice data and generating a second voice character string further comprises the following steps:

and splicing the second voice character string and the preset character string to generate third service audio data, and playing the third service audio data.

4. The router WIFI setting method based on the voice module according to claim 1, wherein the step of receiving third voice data and generating a call instruction according to the third voice data specifically includes the following steps:

judging whether the third voice data is stored in the semantic queue or not, if so, generating a keyword extraction instruction, executing the keyword extraction instruction, and simultaneously generating the calling instruction;

and judging whether the calling instruction is successfully executed, if so, playing a successfully set audio, and if not, playing a unsuccessfully set audio.

5. The router WIFI setting method based on the voice module as claimed in claim 1, wherein after the step of obtaining the first voice character string in the semantic queue and matching the first voice character string with a preset character string, the method further comprises the following steps:

And generating a response instruction according to the first voice character string, and executing the response instruction.

6. The utility model provides a router WIFI sets up system based on voice module which characterized in that includes:

the voice acquisition module is used for receiving voice awakening audio data and generating first service audio data;

the voice playing module is used for generating first service audio data and playing the first service audio data, and is also used for generating second service audio data and playing the second service audio data;

the voice processing module is used for receiving first voice data and performing conversion operation on the first voice data to generate a first voice character string, and is also used for receiving second voice data and performing conversion operation on the second voice data to generate a second voice character string;

the voice storage module is used for establishing a semantic queue and storing the first voice character string into the semantic queue, and is also used for receiving third voice data and storing the third voice data into the semantic queue;

The matching module is used for acquiring the first voice character string in the semantic queue and matching the first voice character string with a preset character string;

and the instruction module is used for generating a calling instruction according to the third voice data, and is also used for generating a voice interaction closing instruction.

7. The voice module-based router WIFI setup system of claim 6, wherein the voice storage module is further configured to generate an encoded value, and bind the encoded value with the first voice string.

8. The router WIFI setup system based on the voice module as claimed in claim 6, wherein the voice processing module is further configured to perform a splicing operation on the second voice character string and the preset character string.

9. The voice module-based router WIFI setup system of claim 6, wherein the voice playing module is further configured to generate third service audio data and play the third service audio data.

10. The router WIFI setting system based on the voice module as claimed in claim 6, further comprising a judging module, wherein the judging module is configured to judge whether the third voice data is stored in the semantic queue, if so, generate a keyword extraction instruction, and execute the keyword extraction instruction, and further configured to judge whether the call instruction is successfully executed, if so, play a setting success audio, and if not, play a setting failure audio.

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